CN211414012U - Novel seam welder - Google Patents

Abstract

The utility model relates to a novel seam welder, the cooperation of guide rail set A top sets up the blowing subassembly, and guide rail set A left side the place ahead sets up the fixed disk subassembly, and guide rail set A left side rear sets up guide rail set B, and the cooperation of guide rail set B top sets up and removes the dish subassembly. The utility model has the advantages that: the seam welder occupies a small area, the axial reinforcing steel bar fixing speed is high, and the efficiency of processing the reinforcing steel bar cage is high.

Description

Novel seam welder

Technical Field

The utility model relates to a seam welder especially relates to a novel seam welder.

Background

Seam welder is the main equipment of processing steel reinforcement cage, and at present, current seam welder area is big, and on the axial reinforcing bar promoted the work or material rest through hoisting equipment, hoisting equipment promoted the speed of reinforcing bar slow, fixes the reinforcing bar head on removing the dish, and axial reinforcing bar fixed speed is slow, the inefficiency of current seam welder processing steel reinforcement cage.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the utility model provides a novel seam welder, it is big to have solved current seam welder ground area, and the speed that lifting means promoted the reinforcing bar is slow, and axial reinforcing bar fixed speed is slow, the inefficiency problem of current seam welder processing steel reinforcement cage.

The utility model discloses a solve the technical scheme that the problem that the aforesaid provided adopted and be:

the utility model provides a novel seam welder, includes guide rail subassembly A1, blowing subassembly 2, fixed disk subassembly 3, guide rail subassembly B4, removes a set of subassembly 5, and the cooperation sets up blowing subassembly 2 above guide rail subassembly A1, guide rail subassembly A1 left side the place ahead sets up fixed disk subassembly 3, guide rail subassembly A1 left rear sets up guide rail subassembly B4, guide rail subassembly B4 top cooperation sets up and removes a set of subassembly 5.

Guide rail set spare A1 include frame A101, guide rail A102, guide rail B103, frame A101 upper surface right side is fixed and is set up guide rail A102, frame A101 upper surface left side is fixed and is set up guide rail B103, guide rail set spare A1 simple structure, low in production cost.

The emptying assembly 2 comprises a trolley assembly 21, an emptying frame 22, a frame C23 and a steel bar output assembly 24, wherein the trolley assembly 21 comprises a frame B2101, a rotating shaft A2102, a bearing seat A2103, a chain wheel A2104, a gear A2105, a bearing seat B2106, a wheel A2107, a wheel B2108, a motor A2109, a gear B2110, a rectangular tube 2111, a gear C2112, a gear D2113, a rotating shaft B2114, a bearing seat C2115, a chain wheel B2116, a bearing seat D2117, a wheel C2118, a wheel D2119 and a chain A2120, the rotating shaft A2102 is sequentially sleeved with the bearing seat A2103, the chain wheel A2104, the gear A2105 and the bearing seat B2106 from left to right, the rotating shaft A2102 is fixedly connected with the left front side of the lower surface of the frame B2101, the rotating shaft A2104B 2106 is fixedly connected with the right front side of the bearing seat A2107, the left front side of the rotating shaft A2103 is fixedly connected with the lower surface of the frame B2101, a wheel B2108 is fixedly arranged at the right end of the rotating shaft A2102, a motor A2109 is fixedly arranged at the right front side of the upper surface of the frame B2101, a gear B2110 is fixedly arranged at the main shaft end of the motor A2109, a rectangular tube 2111 is fixedly arranged at the right front side of the frame B2101, a gear C2112 and a gear D2113 are respectively and rotatably arranged at the inner side of the rectangular tube 2111, the gear C2112 is meshed with the gear D2113, the gear B2110 is meshed with the gear C2112, the gear D2113 is meshed with the gear A2105, a bearing seat C2115, a chain wheel B2116 and a bearing seat D2117 are sequentially arranged in a penetrating manner from left to right in the rotating shaft B2114, the rotating shaft B2114 is respectively and rotatably connected with the bearing seat C2115 and the bearing seat D2117, the rotating shaft B2114 is fixedly connected with the chain wheel B2116, the bearing seat C2115 is fixedly connected with the left rear side of the lower surface of the frame B2101, the bearing seat D2117 is fixedly connected with the right rear side, a wheel D2119 is fixedly arranged at the right end of the rotating shaft B2114, the chain wheel A2104 and the chain wheel B2116 are in power transmission through a chain A2120, a discharging frame 22 is rotatably arranged at the right rear side of the upper surface of the frame B2101, the lower end of the frame C23 is fixedly connected with the left side of the middle part of the upper surface of the frame B2101, a steel bar output assembly 24 is fixedly arranged at the upper part of the frame C23, the steel bar output assembly 24 comprises a supporting plate 2401, a motor B2402, a belt pulley A2403, a bearing seat E2404, a bearing seat F2405, a straightener 2406, a belt B2407, a through hole 2408 and an annular belt 2409, the supporting plate 2401 is fixedly connected with the upper part of the frame C23, the motor B2402 is fixedly arranged at the lower surface of the supporting plate 2401, the belt A2403 is fixedly arranged at the main shaft end of the motor B2402, the bearing seat E2404 is sleeved at the left side of the straightener 2406, the bearing seat E2404 is rotatably connected with the straightener 2406, the bearing seat F, the bearing block E2404 is fixedly connected with the left side of the upper surface of the supporting plate 2401, the bearing block F2405 is fixedly connected with the right side of the upper surface of the supporting plate 2401, the right end of the straightener 2406 is fixedly provided with a belt pulley B2407, a through hole 2408 is formed in the belt pulley B2407, the through hole 2408 formed in the belt pulley B2407 is communicated with the straightener 2406, power transmission is achieved between the belt pulley A2403 and the belt pulley B2407 through an annular belt 2409, and the discharging assembly 2 is stable in operation and uniform in discharging.

The fixed disk assembly 3 comprises a frame D31, a frame E32, a rolling ring assembly A33, a speed reducer A34, a motor C35, a chain wheel C36, a chain B37, a frame E32 is fixedly arranged in the middle of the upper surface of the frame D31, a rolling ring assembly A33 is rotatably arranged in the frame E32, the rolling ring assembly A33 comprises a frame F3301, a roller 3302, an annular boss 3303, a chain wheel D3304, an annular connecting piece 3305 and a sleeve 3306, the roller 3302 is fixedly sleeved outside the frame F3301, the annular boss 3303 is arranged outside the roller 3302, the chain wheel D3304 is fixedly arranged at the front end of the roller 3302, the annular connecting piece 3305 is fixedly arranged on the frame F3301, a plurality of sleeves 3306 are arranged on the annular connecting piece 3305 at equal intervals in an annular manner, the front end of each sleeve 3306 is fixedly connected with the annular connecting piece 3305, the annular boss 3303 on the rolling ring assembly A33 is rotatably connected with the frame E32, the sleeve 3306 is fixedly arranged at the rear side of the frame E8536, and the left surface of the frame D, the fixed motor C35 of cooperation on the speed reducer A34, the fixed sprocket C36 that sets up on the speed reducer A34 power take off main shaft, sprocket C36 with through chain B37 power transmission between the sprocket D3304, fixed disk subassembly 3 area is little.

The guide rail assembly B4 include channel-section steel A41, notch A4101, channel-section steel B42, notch B4201, connecting rod 43, rack A44, rack B45, channel-section steel A41 sets up channel-section steel B42 on the right side, notch A4101 on the channel-section steel A41 with notch B4201 on the channel-section steel B42 sets up relatively, channel-section steel A41, channel-section steel B42's preceding, rear end are fixed respectively and are set up connecting rod 43, channel-section steel A41 upper surface rear portion is fixed and is set up rack A44, channel-section steel B42 upper surface rear portion is fixed and is set up rack B45, guide rail assembly B4 simple structure, low in production cost.

The movable disk assembly 5 comprises a frame X501, a rotating wheel A502, a rotating wheel B503, a frame G504, a rolling ring assembly B505, a speed reducer B506, a motor C507, a support plate B508, a rotating shaft Y509, a bevel gear A510, a spur gear A511, a rotating shaft X512, a bevel gear B513, a spur gear B514, a transmission shaft 515, a support seat A516, a speed reducer C517, a support seat B518, a motor D519, a bevel gear C520, a bevel gear D521, a sprocket E522, and a chain C523, wherein the left side of the lower surface of the frame X501 is provided with the rotating wheel A502, the rotating wheel A502 is positioned on the channel steel A41 in the notch A4101, the right side of the lower surface of the frame X501 is provided with the rotating wheel B503, the rotating wheel B503 is positioned on the notch B42, the middle part of the upper surface of the frame X501 is fixedly provided with the frame G504, the inner side of the frame G504 is provided with the rolling ring assembly B505, the rolling ring assembly B505 has the same structure as the rolling ring assembly A33, and the sleeve 3306 on the rolling ring component B505 is arranged forward, the left rear side of the upper surface of the frame X501 is fixedly provided with a speed reducer B506, the output end of the main shaft of the speed reducer B506 is fixedly provided with a chain wheel E522, the chain wheel E522 is in power transmission with the chain wheel D3304 on the rolling ring component B505 through a chain C523, the rear part of the upper surface of the frame X501 is fixedly provided with a support plate B508, a rotating shaft Y509 penetrates through the left rear side of the support plate B508, the rotating shaft Y509 is in rotary connection with the support plate B508, the lower end of the rotating shaft Y509 is fixedly provided with a spur gear a511, the spur gear a511 is meshed with a rack a44, the upper end of the rotating shaft Y509 is fixedly connected with a bevel gear a510, the rotating shaft X512 penetrates through the right rear side of the support plate B508, the rotating shaft X512 is in rotary connection with the support plate B508, the lower end of the rotating shaft X512, the upper end of the rotating shaft X512 is fixedly connected with a bevel gear B513, a transmission shaft 515 penetrates through and is matched with the speed reducer C517, the speed reducer C517 is fixedly connected with the support plate B508, a motor D519 is arranged on the speed reducer C517 in a matching mode, a support seat A516 is sleeved on the left portion of the transmission shaft 515, the transmission shaft 515 is rotatably connected with the support seat A516, the support seat A516 is fixedly connected with the support plate B508, a bevel gear C520 is fixedly arranged on the left end of the transmission shaft 515, the bevel gear C520 is meshed with the bevel gear A510, a support seat B518 is sleeved on the right portion of the transmission shaft 515, the transmission shaft 515 is rotatably connected with the support seat B518, the support seat B518 is fixedly connected with the support plate B508, a bevel gear D521 is fixedly arranged on the right end of the transmission shaft 515.

Fixed disk subassembly 3, guide rail set spare B4 between set up a plurality of supporting component 6, supporting component 6 includes frame H61, connecting rod A62, connecting rod B63, connecting rod C64, hydro-cylinder 65, U-shaped connecting piece 66, roller bearing 67, connecting rod A62 front end with frame H61 middle part downside is articulated, connecting rod A62 rear end with connecting rod B63 bottom is articulated, connecting rod C64 front portion with frame H61 middle part upside is articulated, connecting rod C64 rear end with connecting rod B63 front side wall is articulated, hydro-cylinder 65 front end with frame H61 front end is articulated, hydro-cylinder 65 main shaft end with connecting rod C64 front end is articulated, the left and right ends of connecting rod B63 upper surface are fixed respectively and are set up U-shaped connecting piece 66, the cooperation sets up roller bearing 67 on the U-shaped connecting piece 66, supporting component 6 prevents that the steel reinforcement cage middle part in the welding from sinking.

Fixed disk subassembly 3 left rear side set up place the platform A7, place the left and right side of place the platform A7 upper surface respectively fixed connection gag lever post A9, guide rail subassembly B4 left side front side sets up place the platform B8, place the left and right side of place the platform B8 upper surface respectively fixed connection gag lever post B10, the axial reinforcing bar of placing the steel reinforcement cage is convenient for place platform A7, place the platform B8, gag lever post A9 prevents to place the reinforcing bar front end on place the platform A7 and rolls down, gag lever post B10 prevents to place the reinforcing bar rear end on place the platform B8 and rolls down.

The upper surface of the frame B2101 is fixedly connected with a protective cover A11, and the motor A2109, the gear B2110, the rectangular tube 2111 and the gear C2112 are positioned inside the protective cover A11, so that the rotating gear B2110 is prevented from injuring people.

The upper surface of the supporting plate 2401 is fixedly provided with a protective cover B12, and the bearing seat E2404, the bearing seat F2405, the straightener 2406 and the belt pulley B2407 are positioned on the inner side of the protective cover B12, so that the rotary straightener 2406 and the belt pulley B2407 are prevented from hurting people.

The utility model discloses a theory of operation: placing axial steel bars on a placing platform A and a placing platform B in advance, starting a motor E anticlockwise, driving a speed reducer C by a main shaft of the motor E, driving a transmission shaft to rotate anticlockwise by the speed reducer C, driving a bevel gear C and a bevel gear D to rotate anticlockwise respectively by the transmission shaft, driving the bevel gear A to rotate clockwise by the bevel gear C, driving a rotating shaft A to rotate clockwise by the bevel gear A, driving a spur gear A to rotate clockwise by the rotating shaft A, driving the bevel gear B to rotate clockwise by the bevel gear D, driving the rotating shaft B to rotate clockwise by the bevel gear B, driving the spur gear A to rotate clockwise by the rotating shaft B under the reaction force of a rack A, driving a movable disc component to move forward to a proper position under the reaction force of the spur gear B, stopping the motor E to operate, starting the motor C anticlockwise, driving a chain wheel C to rotate clockwise, the chain wheel D drives a roller, the roller drives a frame F, the frame F drives a ring connecting piece, the ring connecting piece drives a sleeve to rotate clockwise, meanwhile, a motor D is started clockwise, the motor D drives a chain wheel E to rotate anticlockwise, the chain wheel E drives a chain wheel D on a rolling ring component B to rotate anticlockwise through a chain C, the chain wheel D on the rolling ring component B drives a roller on a rolling ring component B, the roller on the rolling ring component B drives a frame F on the rolling ring component B, the frame F on the rolling ring component B drives a ring connecting piece on the rolling ring component B, the ring connecting piece on the rolling ring component B drives a sleeve on the rolling ring component B to rotate anticlockwise, axial reinforcing steel bars are extracted one by one, the front end of each reinforcing steel bar is inserted into the inner side of the sleeve on the left rolling ring component A, the rear end of each reinforcing steel bar is horizontally inserted into the inner side of the sleeve, simultaneously stopping a motor C and a motor D, drawing out the steel bars on the material placing frame, inserting the head parts of the steel bars into through holes on a belt pulley B, enabling the head parts of the steel bars to penetrate out of the left part of a straightener, fixing the head parts of the steel bars to the rear part of one of the axial steel bars, starting the motor B clockwise, driving the belt pulley A to rotate clockwise by the motor B, driving the belt pulley B to rotate clockwise by the belt pulley A through an annular belt, driving the straightener to rotate clockwise by the belt pulley B, starting the motor C anticlockwise, driving a chain wheel C to rotate clockwise by the motor C, driving a chain wheel D to rotate clockwise by the chain wheel C, driving a roller by the chain wheel D, driving a frame F by the roller, driving a ring connecting piece by the frame F, driving a sleeve to rotate clockwise by the ring connecting piece, simultaneously starting the motor D clockwise, driving a, a chain wheel D on the rolling ring component B drives a roller on the rolling ring component B, the roller on the rolling ring component B drives a frame F on the rolling ring component B, the frame F on the rolling ring component B drives a ring connecting piece on the rolling ring component B, the ring connecting piece on the rolling ring component B drives a sleeve on the rolling ring component B to rotate anticlockwise, a motor A is started anticlockwise, the motor A drives a gear B to rotate anticlockwise, the gear B drives a gear C to rotate clockwise, the gear C drives the gear D to rotate anticlockwise, the gear D drives the gear A to rotate clockwise, the gear A drives a rotating shaft A to rotate clockwise, the rotating shaft A drives a chain wheel A to rotate clockwise, the chain wheel A drives the chain wheel B to rotate clockwise through the chain A, the chain wheel B drives the rotating shaft B to rotate clockwise, the rotating shaft B drives the wheel C simultaneously, The wheel D rotates clockwise, the wheel A and the wheel C move forward along the guide rail B, the wheel B and the wheel D move forward along the guide rail A, the reinforcing steel bars are wound and welded gradually, after the welding of the rear part of the reinforcement cage is finished, the oil cylinder is opened gradually from back to front along with the welding process, the main shaft of the oil cylinder pushes the front end of the connecting rod C forward, the connecting rod C, the connecting rod A and the connecting rod B are linked, the connecting rod B jacks upwards, the connecting rod B drives the U-shaped connecting piece to move upwards, the U-shaped connecting piece drives the rolling shaft to be close to the welded reinforcement cage, the oil cylinder stops moving, after the welding of the reinforcement cage is finished, the motor A, the motor B, the motor C, the motor D and the motor E are stopped to move at the same time, the reinforcing steel bars at the left part of the straightener are cut, the welded reinforcement cage is hoisted by a line, the transmission shaft respectively drives a bevel gear C and a bevel gear D to rotate clockwise, the bevel gear C drives a bevel gear A to rotate anticlockwise, the bevel gear A drives a rotating shaft A to rotate anticlockwise, the rotating shaft A drives a straight gear A to rotate anticlockwise, the bevel gear D drives a bevel gear B to rotate anticlockwise, the bevel gear B drives a rotating shaft B to rotate anticlockwise, the rotating shaft B drives the straight gear B to rotate anticlockwise, the straight gear A moves backwards to a proper position under the reaction force of a rack A, the straight gear B moves backwards to a proper position under the reaction force of the straight gear B, a motor E stops running, the motor E is lifted away from a steel reinforcement cage, meanwhile, an oil cylinder is contracted, a main shaft of the oil cylinder pulls the front end of a connecting rod C backwards, the connecting rod C, the connecting rod A and the connecting rod B are linked, the connecting rod B moves downwards, clockwise opening motor A, motor A drives gear B clockwise rotation, gear B drives gear C counter-clockwise rotation, gear C drives gear D clockwise rotation, gear D drives gear A counter-clockwise rotation, gear A drives rotation axis A counter-clockwise rotation, rotation axis A drives sprocket A counter-clockwise rotation, rotation axis A drives wheel A simultaneously, wheel B counter-clockwise rotation, sprocket A drives sprocket B counter-clockwise rotation through chain A, sprocket B drives rotation axis B counter-clockwise rotation, rotation axis B drives wheel C simultaneously, wheel D counter-clockwise rotation, wheel A, wheel C moves backward along guide rail B, wheel D moves backward along guide rail A, the blowing subassembly moves to guide rail subassembly A rear portion, stop motor A operation.

The beneficial effects of the utility model reside in that: 1. the seam welder occupies a small area, the axial reinforcing steel bar fixing speed is high, and the efficiency of processing the reinforcing steel bar cage is high. 2. Guide rail set spare A includes frame A, guide rail B, and frame A upper surface right side is fixed to be set up guide rail A, frame A upper surface left side is fixed to be set up guide rail B, guide rail set spare A simple structure, low in production cost. 3. The discharging component comprises a trolley component, a discharging frame, a frame C and a steel bar output component, the trolley component comprises a frame B, a rotating shaft A, a bearing seat A, a chain wheel A, a gear A, a bearing seat B, a wheel A, a wheel B, a motor A, a gear B, a rectangular pipe, a gear C, a gear D, a rotating shaft B, a bearing seat C, a chain wheel B, a bearing seat D, a wheel C, a wheel D and a chain A, the rotating shaft A is sequentially sleeved with the bearing seat A, the chain wheel A, the gear A and the bearing seat B from left to right, the rotating shaft A is respectively and rotatably connected with the bearing seat A and the bearing seat B, the chain wheel A and the gear A are respectively and fixedly connected with the rotating shaft A, the bearing seat A is fixedly connected with the left front side of the lower surface of the frame B, the bearing seat B is fixedly connected with the right, the right end of the rotating shaft A is fixedly provided with a wheel B, the right front side of the upper surface of the frame B is fixedly provided with a motor A, the main shaft of the motor A is fixedly provided with a gear B, the right front side of the frame B is fixedly provided with a rectangular pipe, the inner side of the rectangular pipe is respectively and rotatably provided with a gear C and a gear D, the gear C is meshed with the gear D, the gear B is meshed with the gear C, the gear D is meshed with the gear A, the rotating shaft B sequentially penetrates through a bearing seat C, a chain wheel B and a bearing seat D from left to right, the rotating shaft B is respectively and rotatably connected with the bearing seat C and the bearing seat D, the rotating shaft B is fixedly connected with the chain wheel B, the bearing seat C is fixedly connected with the left rear side of the lower surface of the frame B, the bearing seat D is fixedly connected with the right rear side, the right end of the rotating shaft B is fixedly provided with a wheel D, the chain wheel A and the chain wheel B are in power transmission through a chain A, the right back side of the upper surface of the frame B is rotatably provided with a material placing frame, the lower end of the frame C is fixedly connected with the left side of the middle part of the upper surface of the frame B, the upper part of the frame C is fixedly provided with a steel bar output assembly, the steel bar output assembly comprises a supporting plate, a motor B, a belt pulley A, a bearing seat E, a bearing seat F, a straightener, a belt pulley B, a through hole and an annular belt, the supporting plate is fixedly connected with the upper part of the frame C, the lower surface of the supporting plate is fixedly provided with the motor B, the main shaft end of the motor B is fixedly provided with the belt pulley A, the left side of the straightener is sleeved with the bearing seat E, the bearing seat E, the automatic discharging device is characterized in that the bearing seat E is fixedly connected with the left side of the upper surface of the supporting plate, the bearing seat F is fixedly connected with the right side of the upper surface of the supporting plate, the right end of the straightener is fixedly provided with a belt pulley B, the belt pulley B is provided with a through hole, the through hole formed in the belt pulley B is communicated with the straightener, the belt pulley A and the belt pulley B are in power transmission through an annular belt, and the discharging assembly is stable in operation and uniform in discharging. 4. The fixed disc component comprises a frame D, a frame E, a rolling ring component A, a speed reducer A, a motor C, a chain wheel C and a chain B, the middle part of the upper surface of the frame D is fixedly provided with the frame E, the rolling ring component A is arranged in the frame E in a rotating manner, the rolling ring component A comprises a frame F, a roller, an annular boss, a chain wheel D, an annular connecting piece and sleeves, the roller is fixedly sleeved outside the frame F, the annular boss is arranged outside the roller, the chain wheel D is fixedly arranged at the front end of the roller, the annular connecting piece is fixedly arranged on the frame F, a plurality of sleeves are arranged on the annular connecting piece at equal intervals, the front ends of the sleeves are fixedly connected with the annular connecting piece, the annular boss on the rolling ring component A is rotatably connected with the frame E, the sleeves are arranged backwards, the speed reducer A is fixedly arranged on the left front side of the upper surface of the frame D, and, the chain wheel C is fixedly arranged on the power output main shaft of the speed reducer A, the chain wheel C and the chain wheel D are in power transmission through the chain B, and the occupied area of the fixed disc component is small. 5. Guide rail component B includes channel-section steel A, notch A, channel-section steel B, notch B, connecting rod, rack A, rack B, and the channel-section steel A right side sets up channel-section steel B, notch A on the channel-section steel A with notch B on the channel-section steel B sets up relatively, channel-section steel A, channel-section steel B's preceding, rear end are fixed respectively and are set up the connecting rod, the fixed rack A that sets up in channel-section steel A upper surface rear portion, the fixed rack B that sets up in channel-section steel B upper surface rear portion, guide rail component B simple structure, low in production cost. 6. The movable disc component comprises a frame X, a rotating wheel A, a rotating wheel B, a frame G, a rolling ring component B, a speed reducer B, a motor C, a support plate B, a rotating shaft Y, a bevel gear A, a straight gear A, a rotating shaft X, a bevel gear B, a straight gear B, a transmission shaft, a support seat A, a speed reducer C, a support seat B, a motor D, a bevel gear C, a bevel gear D, a chain wheel E and a chain C, wherein the rotating wheel A is arranged on the left side of the lower surface of the frame X, the rotating wheel A is positioned in a notch A on the channel steel A, the right side of the lower surface of the frame X is provided with the rotating wheel B, the rotating wheel B is positioned in a notch B on the channel steel B, the middle part of the upper surface of the frame X is fixedly provided with the frame G, the rolling ring component B is arranged on the inner side of the frame G, the rolling ring, and the sleeve on the rolling ring component B is arranged forwards, the left rear side of the upper surface of the frame X is fixedly provided with a speed reducer B, the output end of the main shaft of the speed reducer B is fixedly provided with a chain wheel E, the chain wheel E and the chain wheel D on the rolling ring component B are in power transmission through a chain C, the rear part of the upper surface of the frame X is fixedly provided with a supporting plate B, a rotating shaft Y penetrates through the left rear side of the supporting plate B, the rotating shaft Y is in rotary connection with the supporting plate B, the lower end of the rotating shaft Y is fixedly provided with a straight gear A, the straight gear A is meshed with the rack A, the upper end of the rotating shaft Y is fixedly connected with a bevel gear A, the rotating shaft X penetrates through the right rear side of the supporting plate B, the rotating shaft X is in rotary connection with the supporting plate B, the lower end of, rotation axis X upper end fixed connection bevel gear B runs through the cooperation transmission shaft on the speed reducer C, speed reducer C with backup pad B fixed connection, the cooperation sets up motor D on the speed reducer C, and supporting seat A is established to the cover of transmission shaft left part, the transmission shaft with supporting seat A swivelling joint, supporting seat A with backup pad B fixed connection, the fixed bevel gear C that sets up in transmission shaft left end, bevel gear C with bevel gear A meshes, and supporting seat B is established to the cover of transmission shaft right part, the transmission shaft with supporting seat B swivelling joint, supporting seat B with backup pad B fixed connection, the transmission shaft right-hand member is fixed to be set up bevel gear D, bevel gear D with bevel gear B meshes, and it is steady to remove the dish subassembly removal. 7. Set up a plurality of supporting components between fixed disk subassembly, the guide rail subassembly B, supporting component includes frame H, connecting rod A, connecting rod B, connecting rod C, hydro-cylinder, U-shaped connecting piece, roller bearing, connecting rod A front end with frame H middle part downside is articulated, connecting rod A rear end with connecting rod B bottom is articulated, connecting rod C front portion with frame H middle part upside is articulated, connecting rod C rear end with connecting rod B front side wall is articulated, the hydro-cylinder front end with frame H front end is articulated, hydro-cylinder main shaft end with connecting rod C front end is articulated, the left and right-hand member of connecting rod B upper surface is fixed respectively and is set up the U-shaped connecting piece, the cooperation sets up the roller bearing on the U-shaped connecting piece, and supporting component prevents that the steel reinforcement cage middle part in the welding from sinking. 8. Fixed disk assembly left side rear side sets up place the platform A, place the left and right side of place the platform A upper surface difference fixed connection gag lever post A, guide rail assembly B left side front side sets up place the platform B, place the left and right side difference fixed connection gag lever post B of platform B upper surface, place the axial reinforcing bar of steel reinforcement cage of being convenient for place platform A, place the platform B, and gag lever post A prevents to place the reinforcing bar front end on place the platform A and rolls, and gag lever post B prevents to place the reinforcing bar rear end on place the platform B and rolls. 9. Frame B upper surface fixed connection protection casing A, motor A, gear B, rectangular pipe, gear C are located protection casing A is inboard, prevents that rotatory gear B from injuring the people. 10. The fixed protection casing B that sets up of backup pad upper surface, bearing frame E, bearing frame F, straightener, belt pulley B are located protection casing B is inboard, prevents that rotatory straightener, belt pulley B from injuring the people.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a schematic structural view of the discharge assembly of the present invention;

fig. 3 is a bottom view of the discharging assembly of the present invention;

fig. 4 is a schematic structural diagram of the material placing frame of the present invention;

fig. 5 is a schematic structural view of the fixing disc assembly of the present invention;

fig. 6 is a schematic structural diagram of the rolling ring assembly a of the present invention;

fig. 7 is a schematic structural view of the moving disc assembly of the present invention;

fig. 8 is a schematic structural diagram of the support assembly of the present invention.

Wherein, 1-guide rail component A, 101-frame A, 102-guide rail A, 103-guide rail B, 2-emptying component, 21-trolley component, 2101-frame B, 2102-rotating shaft A, 2103-bearing seat A, 2104-chain wheel A, 2105-gear A, 2106-bearing seat B, 2107-wheel A, 2108-wheel B, 2109-motor A, 2110-gear B, 2111-rectangular tube, 2112-gear C, 2113-gear D, 2114-rotating shaft B, 2115-bearing seat C, 2116-chain wheel B, 2117-bearing seat D, 2118-wheel C, 2119-wheel D, 2120-chain A, 22-emptying frame, 23-frame C, 24-reinforcing steel bar output component, 2401-supporting plate, 2402-motor B, 2117-bearing seat D, 2118-wheel C, 2119-wheel D, 2120-chain A, 22-emptying frame, 23, 2403-belt pulley A, 2404-bearing seat E, 2405-bearing seat F, 2406-straightener, 2407-belt pulley B, 2408-through hole, 2409-endless belt, 3-fixed disc component, 31-frame D, 32-frame E, 33-rolling ring component A, 3301-frame F, 3302-roller, 3303-annular boss, 3304-chain wheel D, 3305-annular connecting component, 3306-sleeve, 34-speed reducer A, 35-motor C, 36-chain wheel C, 37-chain B, 4-guide rail component B, 41-channel steel A, 4101-notch A, 42-channel steel B, 4201-notch B, 43-connecting rod, 44-rack A, 45-rack B, 5-moving disc component, 501-frame X, 43-groove component B, 44-rack A, 45-rack B, 5-moving disc component, 502-rotating wheel A, 503-rotating wheel B, 504-frame G, 505-rolling ring component B, 506-speed reducer B, 507-motor D, 508-supporting plate B, 509-rotating shaft Y, 510-bevel gear A, 511-spur gear A, 512-rotating shaft X, 513-bevel gear B, 514-spur gear B, 515-transmission shaft, 516-supporting seat A, 517-speed reducer C, 518-supporting seat B, 519-motor E, 520-bevel gear C, 521-bevel gear D, 522-chain wheel E, 523-chain C, 6-supporting component, 61-frame H, 62-connecting rod A, 63-connecting rod B, 64-connecting rod C, 65-oil cylinder, 66-U-shaped connecting piece, 67-rolling shaft, 7-placing platform A, 8-placing platform B, 9-limiting rod A, 10-limiting rod B, 11-protective cover A and 12-protective cover B.

Detailed Description

The embodiments of the present invention will be further explained with reference to the drawings.

Referring to fig. 1-8, the novel seam welder according to the present embodiment includes a guide rail assembly a1, a material placing assembly 2, a fixed disk assembly 3, a guide rail assembly B4, and a movable disk assembly 5, wherein the material placing assembly 2 is disposed above the guide rail assembly a1, the fixed disk assembly 3 is disposed in front of the left side of the guide rail assembly a1, the guide rail assembly B4 is disposed behind the left side of the guide rail assembly a1, and the movable disk assembly 5 is disposed above the guide rail assembly B4.

Guide rail set spare A1 include frame A101, guide rail A102, guide rail B103, frame A101 upper surface right side is fixed and is set up guide rail A102, frame A101 upper surface left side is fixed and is set up guide rail B103, guide rail set spare A1 simple structure, low in production cost.

The emptying assembly 2 comprises a trolley assembly 21, an emptying frame 22, a frame C23 and a steel bar output assembly 24, wherein the trolley assembly 21 comprises a frame B2101, a rotating shaft A2102, a bearing seat A2103, a chain wheel A2104, a gear A2105, a bearing seat B2106, a wheel A2107, a wheel B2108, a motor A2109, a gear B2110, a rectangular tube 2111, a gear C2112, a gear D2113, a rotating shaft B2114, a bearing seat C2115, a chain wheel B2116, a bearing seat D2117, a wheel C2118, a wheel D2119 and a chain A2120, the rotating shaft A2102 is sequentially sleeved with the bearing seat A2103, the chain wheel A2104, the gear A2105 and the bearing seat B2106 from left to right, the rotating shaft A2102 is fixedly connected with the left front side of the lower surface of the frame B2101, the rotating shaft A2104B 2106 is fixedly connected with the right front side of the bearing seat A2107, the left front side of the rotating shaft A2103 is fixedly connected with the lower surface of the frame B2101, a wheel B2108 is fixedly arranged at the right end of the rotating shaft A2102, a motor A2109 is fixedly arranged at the right front side of the upper surface of the frame B2101, a gear B2110 is fixedly arranged at the main shaft end of the motor A2109, a rectangular tube 2111 is fixedly arranged at the right front side of the frame B2101, a gear C2112 and a gear D2113 are respectively and rotatably arranged at the inner side of the rectangular tube 2111, the gear C2112 is meshed with the gear D2113, the gear B2110 is meshed with the gear C2112, the gear D2113 is meshed with the gear A2105, a bearing seat C2115, a chain wheel B2116 and a bearing seat D2117 are sequentially arranged in a penetrating manner from left to right in the rotating shaft B2114, the rotating shaft B2114 is respectively and rotatably connected with the bearing seat C2115 and the bearing seat D2117, the rotating shaft B2114 is fixedly connected with the chain wheel B2116, the bearing seat C2115 is fixedly connected with the left rear side of the lower surface of the frame B2101, the bearing seat D2117 is fixedly connected with the right rear side, a wheel D2119 is fixedly arranged at the right end of the rotating shaft B2114, the chain wheel A2104 and the chain wheel B2116 are in power transmission through a chain A2120, a discharging frame 22 is rotatably arranged at the right rear side of the upper surface of the frame B2101, the lower end of the frame C23 is fixedly connected with the left side of the middle part of the upper surface of the frame B2101, a steel bar output assembly 24 is fixedly arranged at the upper part of the frame C23, the steel bar output assembly 24 comprises a supporting plate 2401, a motor B2402, a belt pulley A2403, a bearing seat E2404, a bearing seat F2405, a straightener 2406, a belt B2407, a through hole 2408 and an annular belt 2409, the supporting plate 2401 is fixedly connected with the upper part of the frame C23, the motor B2402 is fixedly arranged at the lower surface of the supporting plate 2401, the belt A2403 is fixedly arranged at the main shaft end of the motor B2402, the bearing seat E2404 is sleeved at the left side of the straightener 2406, the bearing seat E2404 is rotatably connected with the straightener 2406, the bearing seat F, the bearing block E2404 is fixedly connected with the left side of the upper surface of the supporting plate 2401, the bearing block F2405 is fixedly connected with the right side of the upper surface of the supporting plate 2401, the right end of the straightener 2406 is fixedly provided with a belt pulley B2407, a through hole 2408 is formed in the belt pulley B2407, the through hole 2408 formed in the belt pulley B2407 is communicated with the straightener 2406, power transmission is achieved between the belt pulley A2403 and the belt pulley B2407 through an annular belt 2409, and the discharging assembly 2 is stable in operation and uniform in discharging.

The fixed disk assembly 3 comprises a frame D31, a frame E32, a rolling ring assembly A33, a speed reducer A34, a motor C35, a chain wheel C36, a chain B37, a frame E32 is fixedly arranged in the middle of the upper surface of the frame D31, a rolling ring assembly A33 is rotatably arranged in the frame E32, the rolling ring assembly A33 comprises a frame F3301, a roller 3302, an annular boss 3303, a chain wheel D3304, an annular connecting piece 3305 and a sleeve 3306, the roller 3302 is fixedly sleeved outside the frame F3301, the annular boss 3303 is arranged outside the roller 3302, the chain wheel D3304 is fixedly arranged at the front end of the roller 3302, the annular connecting piece 3305 is fixedly arranged on the frame F3301, four sleeves 3306 are arranged on the annular connecting piece 3305 at equal intervals in an annular manner, the front end of each sleeve 3306 is fixedly connected with the annular connecting piece 3305, the annular boss 3303 on the rolling ring assembly A33 is rotatably connected with the frame E32, the sleeve 3306 is arranged towards the rear side of the frame E8536, and the left surface 34 is fixedly arranged towards, the fixed motor C35 of cooperation on the speed reducer A34, the fixed sprocket C36 that sets up on the speed reducer A34 power take off main shaft, sprocket C36 with through chain B37 power transmission between the sprocket D3304, fixed disk subassembly 3 area is little.

The guide rail assembly B4 include channel-section steel A41, notch A4101, channel-section steel B42, notch B4201, connecting rod 43, rack A44, rack B45, channel-section steel A41 sets up channel-section steel B42 on the right side, notch A4101 on the channel-section steel A41 with notch B4201 on the channel-section steel B42 sets up relatively, channel-section steel A41, channel-section steel B42's preceding, rear end are fixed respectively and are set up connecting rod 43, channel-section steel A41 upper surface rear portion is fixed and is set up rack A44, channel-section steel B42 upper surface rear portion is fixed and is set up rack B45, guide rail assembly B4 simple structure, low in production cost.

The movable disk assembly 5 comprises a frame X501, a rotating wheel A502, a rotating wheel B503, a frame G504, a rolling ring assembly B505, a speed reducer B506, a motor C507, a support plate B508, a rotating shaft Y509, a bevel gear A510, a spur gear A511, a rotating shaft X512, a bevel gear B513, a spur gear B514, a transmission shaft 515, a support seat A516, a speed reducer C517, a support seat B518, a motor D519, a bevel gear C520, a bevel gear D521, a sprocket E522, and a chain C523, wherein the left side of the lower surface of the frame X501 is provided with the rotating wheel A502, the rotating wheel A502 is positioned on the channel steel A41 in the notch A4101, the right side of the lower surface of the frame X501 is provided with the rotating wheel B503, the rotating wheel B503 is positioned on the notch B42, the middle part of the upper surface of the frame X501 is fixedly provided with the frame G504, the inner side of the frame G504 is provided with the rolling ring assembly B505, the rolling ring assembly B505 has the same structure as the rolling ring assembly A33, and the sleeve 3306 on the rolling ring component B505 is arranged forward, the left rear side of the upper surface of the frame X501 is fixedly provided with a speed reducer B506, the output end of the main shaft of the speed reducer B506 is fixedly provided with a chain wheel E522, the chain wheel E522 is in power transmission with the chain wheel D3304 on the rolling ring component B505 through a chain C523, the rear part of the upper surface of the frame X501 is fixedly provided with a support plate B508, a rotating shaft Y509 penetrates through the left rear side of the support plate B508, the rotating shaft Y509 is in rotary connection with the support plate B508, the lower end of the rotating shaft Y509 is fixedly provided with a spur gear a511, the spur gear a511 is meshed with a rack a44, the upper end of the rotating shaft Y509 is fixedly connected with a bevel gear a510, the rotating shaft X512 penetrates through the right rear side of the support plate B508, the rotating shaft X512 is in rotary connection with the support plate B508, the lower end of the rotating shaft X512, the upper end of the rotating shaft X512 is fixedly connected with a bevel gear B513, a transmission shaft 515 penetrates through and is matched with the speed reducer C517, the speed reducer C517 is fixedly connected with the support plate B508, a motor D519 is arranged on the speed reducer C517 in a matching mode, a support seat A516 is sleeved on the left portion of the transmission shaft 515, the transmission shaft 515 is rotatably connected with the support seat A516, the support seat A516 is fixedly connected with the support plate B508, a bevel gear C520 is fixedly arranged on the left end of the transmission shaft 515, the bevel gear C520 is meshed with the bevel gear A510, a support seat B518 is sleeved on the right portion of the transmission shaft 515, the transmission shaft 515 is rotatably connected with the support seat B518, the support seat B518 is fixedly connected with the support plate B508, a bevel gear D521 is fixedly arranged on the right end of the transmission shaft 515.

Fixed disk subassembly 3, guide rail set spare B4 between set up three supporting component 6, supporting component 6 includes frame H61, connecting rod A62, connecting rod B63, connecting rod C64, hydro-cylinder 65, U-shaped connecting piece 66, roller bearing 67, connecting rod A62 front end with frame H61 middle part downside is articulated, connecting rod A62 rear end with connecting rod B63 bottom is articulated, connecting rod C64 front portion with frame H61 middle part upside is articulated, connecting rod C64 rear end with connecting rod B63 front side wall is articulated, hydro-cylinder 65 front end with frame H61 front end is articulated, hydro-cylinder 65 main shaft end with connecting rod C64 front end is articulated, the left and right ends of connecting rod B63 upper surface are fixed respectively and are set up U-shaped connecting piece 66, the cooperation sets up roller bearing 67 on the U-shaped connecting piece 66, supporting component 6 prevents that the steel reinforcement cage middle part in the welding from sinking.

Fixed disk subassembly 3 left rear side set up place the platform A7, place the left and right side of place the platform A7 upper surface respectively fixed connection gag lever post A9, guide rail subassembly B4 left side front side sets up place the platform B8, place the left and right side of place the platform B8 upper surface respectively fixed connection gag lever post B10, the axial reinforcing bar of placing the steel reinforcement cage is convenient for place platform A7, place the platform B8, gag lever post A9 prevents to place the reinforcing bar front end on place the platform A7 and rolls down, gag lever post B10 prevents to place the reinforcing bar rear end on place the platform B8 and rolls down.

The upper surface of the frame B2101 is fixedly connected with a protective cover A11, and the motor A2109, the gear B2110, the rectangular tube 2111 and the gear C2112 are positioned inside the protective cover A11, so that the rotating gear B2110 is prevented from injuring people.

The upper surface of the supporting plate 2401 is fixedly provided with a protective cover B12, and the bearing seat E2404, the bearing seat F2405, the straightener 2406 and the belt pulley B2407 are positioned on the inner side of the protective cover B12, so that the rotary straightener 2406 and the belt pulley B2407 are prevented from hurting people.

The working principle of the specific embodiment is as follows: placing axial steel bars on a placing platform A and a placing platform B in advance, starting a motor E anticlockwise, driving a speed reducer C by a main shaft of the motor E, driving a transmission shaft to rotate anticlockwise by the speed reducer C, driving a bevel gear C and a bevel gear D to rotate anticlockwise respectively by the transmission shaft, driving the bevel gear A to rotate clockwise by the bevel gear C, driving a rotating shaft A to rotate clockwise by the bevel gear A, driving a spur gear A to rotate clockwise by the rotating shaft A, driving the bevel gear B to rotate clockwise by the bevel gear D, driving the rotating shaft B to rotate clockwise by the bevel gear B, driving the spur gear A to rotate clockwise by the rotating shaft B under the reaction force of a rack A, driving a movable disc component to move forward to a proper position under the reaction force of the spur gear B, stopping the motor E to operate, starting the motor C anticlockwise, driving a chain wheel C to rotate clockwise, the chain wheel D drives a roller, the roller drives a frame F, the frame F drives a ring connecting piece, the ring connecting piece drives a sleeve to rotate clockwise, meanwhile, a motor D is started clockwise, the motor D drives a chain wheel E to rotate anticlockwise, the chain wheel E drives a chain wheel D on a rolling ring component B to rotate anticlockwise through a chain C, the chain wheel D on the rolling ring component B drives a roller on a rolling ring component B, the roller on the rolling ring component B drives a frame F on the rolling ring component B, the frame F on the rolling ring component B drives a ring connecting piece on the rolling ring component B, the ring connecting piece on the rolling ring component B drives a sleeve on the rolling ring component B to rotate anticlockwise, axial reinforcing steel bars are extracted one by one, the front end of each reinforcing steel bar is inserted into the inner side of the sleeve on the left rolling ring component A, the rear end of each reinforcing steel bar is horizontally inserted into the inner side of the sleeve, simultaneously stopping a motor C and a motor D, drawing out the steel bars on the material placing frame, inserting the head parts of the steel bars into through holes on a belt pulley B, enabling the head parts of the steel bars to penetrate out of the left part of a straightener, fixing the head parts of the steel bars to the rear part of one of the axial steel bars, starting the motor B clockwise, driving the belt pulley A to rotate clockwise by the motor B, driving the belt pulley B to rotate clockwise by the belt pulley A through an annular belt, driving the straightener to rotate clockwise by the belt pulley B, starting the motor C anticlockwise, driving a chain wheel C to rotate clockwise by the motor C, driving a chain wheel D to rotate clockwise by the chain wheel C, driving a roller by the chain wheel D, driving a frame F by the roller, driving a ring connecting piece by the frame F, driving a sleeve to rotate clockwise by the ring connecting piece, simultaneously starting the motor D clockwise, driving a, a chain wheel D on the rolling ring component B drives a roller on the rolling ring component B, the roller on the rolling ring component B drives a frame F on the rolling ring component B, the frame F on the rolling ring component B drives a ring connecting piece on the rolling ring component B, the ring connecting piece on the rolling ring component B drives a sleeve on the rolling ring component B to rotate anticlockwise, a motor A is started anticlockwise, the motor A drives a gear B to rotate anticlockwise, the gear B drives a gear C to rotate clockwise, the gear C drives the gear D to rotate anticlockwise, the gear D drives the gear A to rotate clockwise, the gear A drives a rotating shaft A to rotate clockwise, the rotating shaft A drives a chain wheel A to rotate clockwise, the chain wheel A drives the chain wheel B to rotate clockwise through the chain A, the chain wheel B drives the rotating shaft B to rotate clockwise, the rotating shaft B drives the wheel C simultaneously, The wheel D rotates clockwise, the wheel A and the wheel C move forward along the guide rail B, the wheel B and the wheel D move forward along the guide rail A, the reinforcing steel bars are wound and welded gradually, after the welding of the rear part of the reinforcement cage is finished, the oil cylinder is opened gradually from back to front along with the welding process, the main shaft of the oil cylinder pushes the front end of the connecting rod C forward, the connecting rod C, the connecting rod A and the connecting rod B are linked, the connecting rod B jacks upwards, the connecting rod B drives the U-shaped connecting piece to move upwards, the U-shaped connecting piece drives the rolling shaft to be close to the welded reinforcement cage, the oil cylinder stops moving, after the welding of the reinforcement cage is finished, the motor A, the motor B, the motor C, the motor D and the motor E are stopped to move at the same time, the reinforcing steel bars at the left part of the straightener are cut, the welded reinforcement cage is hoisted by a line, the transmission shaft respectively drives a bevel gear C and a bevel gear D to rotate clockwise, the bevel gear C drives a bevel gear A to rotate anticlockwise, the bevel gear A drives a rotating shaft A to rotate anticlockwise, the rotating shaft A drives a straight gear A to rotate anticlockwise, the bevel gear D drives a bevel gear B to rotate anticlockwise, the bevel gear B drives a rotating shaft B to rotate anticlockwise, the rotating shaft B drives the straight gear B to rotate anticlockwise, the straight gear A moves backwards to a proper position under the reaction force of a rack A, the straight gear B moves backwards to a proper position under the reaction force of the straight gear B, a motor E stops running, the motor E is lifted away from a steel reinforcement cage, meanwhile, an oil cylinder is contracted, a main shaft of the oil cylinder pulls the front end of a connecting rod C backwards, the connecting rod C, the connecting rod A and the connecting rod B are linked, the connecting rod B moves downwards, clockwise opening motor A, motor A drives gear B clockwise rotation, gear B drives gear C counter-clockwise rotation, gear C drives gear D clockwise rotation, gear D drives gear A counter-clockwise rotation, gear A drives rotation axis A counter-clockwise rotation, rotation axis A drives sprocket A counter-clockwise rotation, rotation axis A drives wheel A simultaneously, wheel B counter-clockwise rotation, sprocket A drives sprocket B counter-clockwise rotation through chain A, sprocket B drives rotation axis B counter-clockwise rotation, rotation axis B drives wheel C simultaneously, wheel D counter-clockwise rotation, wheel A, wheel C moves backward along guide rail B, wheel D moves backward along guide rail A, the blowing subassembly moves to guide rail subassembly A rear portion, stop motor A operation.

The beneficial effects of the embodiment are as follows: 1. the seam welder occupies a small area, the axial reinforcing steel bar fixing speed is high, and the efficiency of processing the reinforcing steel bar cage is high. 2. Guide rail set spare A includes frame A, guide rail B, and frame A upper surface right side is fixed to be set up guide rail A, frame A upper surface left side is fixed to be set up guide rail B, guide rail set spare A simple structure, low in production cost. 3. The discharging component comprises a trolley component, a discharging frame, a frame C and a steel bar output component, the trolley component comprises a frame B, a rotating shaft A, a bearing seat A, a chain wheel A, a gear A, a bearing seat B, a wheel A, a wheel B, a motor A, a gear B, a rectangular pipe, a gear C, a gear D, a rotating shaft B, a bearing seat C, a chain wheel B, a bearing seat D, a wheel C, a wheel D and a chain A, the rotating shaft A is sequentially sleeved with the bearing seat A, the chain wheel A, the gear A and the bearing seat B from left to right, the rotating shaft A is respectively and rotatably connected with the bearing seat A and the bearing seat B, the chain wheel A and the gear A are respectively and fixedly connected with the rotating shaft A, the bearing seat A is fixedly connected with the left front side of the lower surface of the frame B, the bearing seat B is fixedly connected with the right, the right end of the rotating shaft A is fixedly provided with a wheel B, the right front side of the upper surface of the frame B is fixedly provided with a motor A, the main shaft of the motor A is fixedly provided with a gear B, the right front side of the frame B is fixedly provided with a rectangular pipe, the inner side of the rectangular pipe is respectively and rotatably provided with a gear C and a gear D, the gear C is meshed with the gear D, the gear B is meshed with the gear C, the gear D is meshed with the gear A, the rotating shaft B sequentially penetrates through a bearing seat C, a chain wheel B and a bearing seat D from left to right, the rotating shaft B is respectively and rotatably connected with the bearing seat C and the bearing seat D, the rotating shaft B is fixedly connected with the chain wheel B, the bearing seat C is fixedly connected with the left rear side of the lower surface of the frame B, the bearing seat D is fixedly connected with the right rear side, the right end of the rotating shaft B is fixedly provided with a wheel D, the chain wheel A and the chain wheel B are in power transmission through a chain A, the right back side of the upper surface of the frame B is rotatably provided with a material placing frame, the lower end of the frame C is fixedly connected with the left side of the middle part of the upper surface of the frame B, the upper part of the frame C is fixedly provided with a steel bar output assembly, the steel bar output assembly comprises a supporting plate, a motor B, a belt pulley A, a bearing seat E, a bearing seat F, a straightener, a belt pulley B, a through hole and an annular belt, the supporting plate is fixedly connected with the upper part of the frame C, the lower surface of the supporting plate is fixedly provided with the motor B, the main shaft end of the motor B is fixedly provided with the belt pulley A, the left side of the straightener is sleeved with the bearing seat E, the bearing seat E, the automatic discharging device is characterized in that the bearing seat E is fixedly connected with the left side of the upper surface of the supporting plate, the bearing seat F is fixedly connected with the right side of the upper surface of the supporting plate, the right end of the straightener is fixedly provided with a belt pulley B, the belt pulley B is provided with a through hole, the through hole formed in the belt pulley B is communicated with the straightener, the belt pulley A and the belt pulley B are in power transmission through an annular belt, and the discharging assembly is stable in operation and uniform in discharging. 4. The fixed disk component comprises a frame D, a frame E, a rolling ring component A, a speed reducer A, a motor C, a chain wheel C and a chain B, the middle part of the upper surface of the frame D is fixedly provided with the frame E, the rolling ring component A is arranged in the frame E in a rotating manner, the rolling ring component A comprises a frame F, a roller, an annular boss, a chain wheel D, an annular connecting piece and sleeves, the roller is fixedly sleeved outside the frame F, the annular boss is arranged outside the roller, the chain wheel D is fixedly arranged at the front end of the roller, the annular connecting piece is fixedly arranged on the frame F, four sleeves are arranged on the annular connecting piece at equal intervals, the front end of each sleeve is fixedly connected with the annular connecting piece, the annular boss on the rolling ring component A is rotatably connected with the frame E, the sleeves are arranged backwards, the speed reducer A is fixedly arranged on the left front side of the upper surface of the frame D, and the, the chain wheel C is fixedly arranged on the power output main shaft of the speed reducer A, the chain wheel C and the chain wheel D are in power transmission through the chain B, and the occupied area of the fixed disc component is small. 5. Guide rail component B includes channel-section steel A, notch A, channel-section steel B, notch B, connecting rod, rack A, rack B, and the channel-section steel A right side sets up channel-section steel B, notch A on the channel-section steel A with notch B on the channel-section steel B sets up relatively, channel-section steel A, channel-section steel B's preceding, rear end are fixed respectively and are set up the connecting rod, the fixed rack A that sets up in channel-section steel A upper surface rear portion, the fixed rack B that sets up in channel-section steel B upper surface rear portion, guide rail component B simple structure, low in production cost. 6. The movable disc component comprises a frame X, a rotating wheel A, a rotating wheel B, a frame G, a rolling ring component B, a speed reducer B, a motor C, a support plate B, a rotating shaft Y, a bevel gear A, a straight gear A, a rotating shaft X, a bevel gear B, a straight gear B, a transmission shaft, a support seat A, a speed reducer C, a support seat B, a motor D, a bevel gear C, a bevel gear D, a chain wheel E and a chain C, wherein the rotating wheel A is arranged on the left side of the lower surface of the frame X, the rotating wheel A is positioned in a notch A on the channel steel A, the right side of the lower surface of the frame X is provided with the rotating wheel B, the rotating wheel B is positioned in a notch B on the channel steel B, the middle part of the upper surface of the frame X is fixedly provided with the frame G, the rolling ring component B is arranged on the inner side of the frame G, the rolling ring, and the sleeve on the rolling ring component B is arranged forwards, the left rear side of the upper surface of the frame X is fixedly provided with a speed reducer B, the output end of the main shaft of the speed reducer B is fixedly provided with a chain wheel E, the chain wheel E and the chain wheel D on the rolling ring component B are in power transmission through a chain C, the rear part of the upper surface of the frame X is fixedly provided with a supporting plate B, a rotating shaft Y penetrates through the left rear side of the supporting plate B, the rotating shaft Y is in rotary connection with the supporting plate B, the lower end of the rotating shaft Y is fixedly provided with a straight gear A, the straight gear A is meshed with the rack A, the upper end of the rotating shaft Y is fixedly connected with a bevel gear A, the rotating shaft X penetrates through the right rear side of the supporting plate B, the rotating shaft X is in rotary connection with the supporting plate B, the lower end of, rotation axis X upper end fixed connection bevel gear B runs through the cooperation transmission shaft on the speed reducer C, speed reducer C with backup pad B fixed connection, the cooperation sets up motor D on the speed reducer C, and supporting seat A is established to the cover of transmission shaft left part, the transmission shaft with supporting seat A swivelling joint, supporting seat A with backup pad B fixed connection, the fixed bevel gear C that sets up in transmission shaft left end, bevel gear C with bevel gear A meshes, and supporting seat B is established to the cover of transmission shaft right part, the transmission shaft with supporting seat B swivelling joint, supporting seat B with backup pad B fixed connection, the transmission shaft right-hand member is fixed to be set up bevel gear D, bevel gear D with bevel gear B meshes, and it is steady to remove the dish subassembly removal. 7. Set up three supporting component between fixed disk subassembly, the guide rail subassembly B, supporting component includes frame H, connecting rod A, connecting rod B, connecting rod C, hydro-cylinder, U-shaped connecting piece, roller bearing, connecting rod A front end with frame H middle part downside is articulated, connecting rod A rear end with connecting rod B bottom is articulated, connecting rod C front portion with frame H middle part upside is articulated, connecting rod C rear end with connecting rod B front side wall is articulated, the hydro-cylinder front end with frame H front end is articulated, hydro-cylinder main shaft end with connecting rod C front end is articulated, the left and right-hand member of connecting rod B upper surface is fixed respectively and is set up the U-shaped connecting piece, the cooperation sets up the roller bearing on the U-shaped connecting piece, and supporting component prevents that the steel reinforcement cage middle part among the welding from sinking. 8. Fixed disk assembly left side rear side sets up place the platform A, place the left and right side of place the platform A upper surface difference fixed connection gag lever post A, guide rail assembly B left side front side sets up place the platform B, place the left and right side difference fixed connection gag lever post B of platform B upper surface, place the axial reinforcing bar of steel reinforcement cage of being convenient for place platform A, place the platform B, and gag lever post A prevents to place the reinforcing bar front end on place the platform A and rolls, and gag lever post B prevents to place the reinforcing bar rear end on place the platform B and rolls. 9. Frame B upper surface fixed connection protection casing A, motor A, gear B, rectangular pipe, gear C are located protection casing A is inboard, prevents that rotatory gear B from injuring the people. 10. The fixed protection casing B that sets up of backup pad upper surface, bearing frame E, bearing frame F, straightener, belt pulley B are located protection casing B is inboard, prevents that rotatory straightener, belt pulley B from injuring the people.

The utility model discloses a concrete embodiment does not constitute the pair the utility model discloses a restriction, all adopt the utility model discloses a similar structure and change are all in the utility model discloses a within the protection scope.

Claims (10)

1. A novel seam welder is characterized in that: including guide rail assembly A (1), blowing subassembly (2), fixed disk subassembly (3), guide rail assembly B (4), removal dish subassembly (5), the cooperation sets up blowing subassembly (2) guide rail assembly A (1) top, guide rail assembly A (1) left side the place ahead sets up fixed disk subassembly (3), guide rail assembly A (1) left side rear sets up guide rail assembly B (4), guide rail assembly B (4) top cooperation sets up removal dish subassembly (5).

2. The new seam welder according to claim 1, characterized in that: guide rail component A (1) include frame A (101), guide rail A (102), guide rail B (103), frame A (101) upper surface right side is fixed and is set up guide rail A (102), frame A (101) upper surface left side is fixed and is set up guide rail B (103).

3. The new seam welder according to claim 1, characterized in that: blowing subassembly (2) including dolly subassembly (21), blowing frame (22), frame C (23), reinforcing bar output assembly (24), dolly subassembly (21) include frame B (2101), rotation axis A (2102), bearing frame A (2103), sprocket A (2104), gear A (2105), bearing frame B (2106), wheel A (2107), wheel B (2108), motor A (2109), gear B (2110), rectangular pipe (2111), gear C (2112), gear D (2113), rotation axis B (2114), bearing frame C (2115), sprocket B (2116), bearing frame D (2117), wheel C (2118), wheel D (2119), chain A (2120), rotation axis A (2102) cover in proper order to the right bearing frame A (2103), sprocket A (2104), gear A (2105), bearing frame B (2106), rotation axis A (2102) respectively with from a left side (2103), A bearing seat B (2106) is rotatably connected, the chain wheel A (2104) and the gear A (2105) are respectively fixedly connected with the rotating shaft A (2102), the bearing seat A (2103) is fixedly connected with the left front side of the lower surface of the frame B (2101), the bearing seat B (2106) is fixedly connected with the right front side of the lower surface of the frame B (2101), the left end of the rotating shaft A (2102) is fixedly provided with a wheel A (2107), the right end of the rotating shaft A (2102) is fixedly provided with a wheel B (2108), the right front side of the upper surface of the frame B (2101) is fixedly provided with a motor A (2109), the main shaft end of the motor A (2109) is fixedly provided with a gear B (2110), the right front side of the frame B (2101) is fixedly provided with a rectangular pipe (2111), the inner side of the rectangular pipe (2111) is respectively rotatably provided with a gear C (2112) and a gear D (2113), and the gear C (2112), the gear B (2110) is meshed with the gear C (2112), the gear D (2113) is meshed with the gear A (2105), a rotating shaft B (2114) sequentially penetrates through a bearing seat C (2115), a chain wheel B (2116) and a bearing seat D (2117) from left to right, the rotating shaft B (2114) is respectively and rotatably connected with the bearing seat C (2115) and the bearing seat D (2117), the rotating shaft B (2114) is fixedly connected with the chain wheel B (2116), the bearing seat C (2115) is fixedly connected with the left rear side of the lower surface of the frame B (2101), the bearing seat D (2117) is fixedly connected with the right rear side of the lower surface of the frame B (2101), the left end of the rotating shaft B (2114) is fixedly provided with a wheel C (2118), the right end of the rotating shaft B (2114) is fixedly provided with a wheel D (2119), and the chain wheel A (2104) and the chain wheel B (2116) are in power transmission through a chain (2120), the steel bar straightening machine is characterized in that a discharging frame (22) is rotatably arranged on the right rear side of the upper surface of the frame B (2101), the lower end of a frame C (23) is fixedly connected with the left side of the middle part of the upper surface of the frame B (2101), a steel bar output assembly (24) is fixedly arranged on the upper part of the frame C (23), the steel bar output assembly (24) comprises a supporting plate (2401), a motor B (2402), a belt pulley A (2403), a bearing seat E (2404), a bearing seat F (2405), a straightener (2406), a belt pulley B (2407), a through hole (2408) and an annular belt (2409), the supporting plate (2401) is fixedly connected with the upper part of the frame C (23), the motor B (2402) is fixedly arranged on the lower surface of the supporting plate (2401), the belt pulley A (2403) is fixedly arranged on the main shaft end of the motor B (2402), the bearing seat E (2404) is sleeved on the left side of the, bearing frame F (2405) is established to straightener (2406) right side cover, bearing frame F (2405) with straightener (2406) swivelling joint, bearing frame E (2404) with backup pad (2401) upper surface left side fixed connection, bearing frame F (2405) with backup pad (2401) upper surface right side fixed connection, straightener (2406) right-hand member is fixed and is set up belt pulley B (2407), set up through-hole (2408) on belt pulley B (2407), through-hole (2408) of seting up on belt pulley B (2407) with straightener (2406) intercommunication, belt pulley A (2403) with through endless belt (2409) power transmission between belt pulley B (2407).

4. A novel seam welder as claimed in claim 3, characterized in that: fixed disk subassembly (3) including frame D (31), frame E (32), roll circle subassembly A (33), speed reducer A (34), motor C (35), sprocket C (36), chain B (37), frame D (31) upper surface middle part is fixed and is set up frame E (32), frame E (32) internal rotation sets up rolls circle subassembly A (33), roll circle subassembly A (33) including frame F (3301), cylinder (3302), annular boss (3303), sprocket D (3304), ring connecting piece (3305), sleeve (3306), cylinder (3302) are established to frame F (3301) external fixation cover, cylinder (3302) external setting annular boss (3303), cylinder (3302) front end is fixed and is set up sprocket D (3304), fixed ring connecting piece (3305) that set up on frame F (3301), ring connecting piece (3305) are gone up annular equidistance and are set up a plurality of sleeves (3306), sleeve (3306) front end with ring connector (3305) fixed connection, roll on circle subassembly A (33) annular boss (3303) with frame E (32) swivelling joint, just sleeve (3306) set up towards the back, frame D (31) upper surface left side front side is fixed and is set up speed reducer A (34), fixed motor C (35) of cooperation on speed reducer A (34), the fixed sprocket C (36) that sets up on speed reducer A (34) power take off main shaft, sprocket C (36) with through chain B (37) power transmission between sprocket D (3304).

5. The new seam welder according to claim 4, characterized in that: guide rail component B (4) include channel-section steel A (41), notch A (4101), channel-section steel B (42), notch B (4201), connecting rod (43), rack A (44), rack B (45), channel-section steel A (41) right side sets up channel-section steel B (42), notch A (4101) on channel-section steel A (41) with notch B (4201) on channel-section steel B (42) sets up relatively, preceding, the rear end of channel-section steel A (41), channel-section steel B (42) are fixed respectively and are set up connecting rod (43), fixed rack A (44) that sets up in channel-section steel A (41) upper surface rear portion, fixed rack B (45) that sets up in channel-section steel B (42) upper surface rear portion.

6. The new seam welder according to claim 5, characterized in that: the movable disc component (5) comprises a frame X (501), a rotating wheel A (502), a rotating wheel B (503), a frame G (504), a rolling ring component B (505), a speed reducer B (506), a motor D (507), a support plate B (508), a rotating shaft Y (509), a bevel gear A (510), a straight gear A (511), a rotating shaft X (512), a bevel gear B (513), a straight gear B (514), a transmission shaft (515), a support seat A (516), a speed reducer C (517), a support seat B (518), a motor E (519), a bevel gear C (520), a bevel gear D (521), a chain wheel E (522) and a chain C (523), wherein the rotating wheel A (502) is arranged on the left side of the lower surface of the frame X (501), the rotating wheel A (502) is positioned in the notch A (4101) on the channel steel A (41), the rotating wheel B (503) is arranged on the right side of, and the rotating wheel B (503) is positioned in the notch B (4201) on the channel steel B (42), the middle part of the upper surface of the frame X (501) is fixedly provided with a frame G (504), the inner side of the frame G (504) is provided with a rolling ring component B (505), the rolling ring component B (505) and the rolling ring component A (33) have the same structure, the annular boss (3303) on the rolling ring component B (505) is rotatably connected with the frame G (504), the sleeve (3306) on the rolling ring component B (505) is arranged forwards, the left rear side of the upper surface of the frame X (501) is fixedly provided with a speed reducer B (506), the output end of the main shaft of the speed reducer B (506) is fixedly provided with a chain wheel E (522), and the chain wheel D (3304) on the rolling ring component B (505) are in power transmission through a chain C (523), the fixed backup pad B (508) that sets up in frame X (501) upper surface rear portion, rotation axis Y (509) run through backup pad B (508) left part rear side, rotation axis Y (509) with backup pad B (508) swivelling joint, rotation axis Y (509) lower extreme is fixed to set up straight-teeth gear A (511), straight-teeth gear A (511) with rack A (44) meshing, rotation axis Y (509) upper end fixed connection bevel gear A (510), rotation axis X (512) run through backup pad B (508) right part rear side, rotation axis X (512) with backup pad B (508) swivelling joint, rotation axis X (512) lower extreme is fixed to set up straight-teeth gear B (514), straight-teeth gear B (514) with rack B (45) meshing, rotation axis X (512) upper end fixed connection bevel gear B (513), run through cooperation transmission shaft (515) on the speed reducer C (517), the speed reducer C (517) is fixedly connected with the supporting plate B (508), a motor E (519) is arranged on the speed reducer C (517) in a matching mode, a supporting seat A (516) is sleeved on the left portion of the transmission shaft (515), the transmission shaft (515) is rotationally connected with the supporting seat A (516), the supporting seat A (516) is fixedly connected with the supporting plate B (508), a bevel gear C (520) is fixedly arranged at the left end of the transmission shaft (515), the bevel gear C (520) is meshed with the bevel gear A (510), a supporting seat B (518) is sleeved at the right part of the transmission shaft (515), the transmission shaft (515) is rotatably connected with the supporting seat B (518), the supporting seat B (518) is fixedly connected with the supporting plate B (508), the right end of the transmission shaft (515) is fixedly provided with a bevel gear D (521), and the bevel gear D (521) is meshed with the bevel gear B (513).

7. The new seam welder according to claim 1, characterized in that: fixed disk subassembly (3), guide rail subassembly B (4) between set up a plurality of supporting components (6), supporting component (6) include frame H (61), connecting rod A (62), connecting rod B (63), connecting rod C (64), hydro-cylinder (65), U-shaped connecting piece (66), roller bearing (67), connecting rod A (62) front end with frame H (61) middle part downside is articulated, connecting rod A (62) rear end with connecting rod B (63) bottom is articulated, connecting rod C (64) front portion with frame H (61) middle part upside is articulated, connecting rod C (64) rear end with connecting rod B (63) front side wall is articulated, hydro-cylinder (65) front end with frame H (61) front end is articulated, hydro-cylinder (65) main shaft end with connecting rod C (64) front end is articulated, connecting rod B (63) upper surface left side, The right ends of the two ends are respectively fixedly provided with a U-shaped connecting piece (66), and the U-shaped connecting pieces (66) are provided with rollers (67) in a matching manner.

8. The new seam welder according to claim 1, characterized in that: fixed disk subassembly (3) left side rear side set up place the platform A (7), place the platform A (7) upper surface left and right side is fixed connection gag lever post A (9) respectively, guide rail set spare B (4) left side front side sets up place the platform B (8), place the platform B (8) upper surface left and right side is fixed connection gag lever post B (10) respectively.

9. A novel seam welder as claimed in claim 3, characterized in that: the upper surface of the frame B (2101) is fixedly connected with a protective cover A (11), and the motor A (2109), the gear B (2110), the rectangular pipe (2111) and the gear C (2112) are positioned on the inner side of the protective cover A (11).

10. A novel seam welder as claimed in claim 3, characterized in that: the upper surface of the supporting plate (2401) is fixedly provided with a protective cover B (12), and the bearing seat E (2404), the bearing seat F (2405), the straightener (2406) and the belt pulley B (2407) are located on the inner side of the protective cover B (12).

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