CN210172328U

CN210172328U - Stainless steel buckle apparatus for producing

Info

Publication number: CN210172328U
Application number: CN201920814759.1U
Authority: CN
Inventors: Zhongcheng Jiang; 蒋中成
Original assignee: Guo Lv Hardware Products Co Ltd Of Foshan City
Current assignee: Guo Lv Hardware Products Co Ltd Of Foshan City
Priority date: 2019-05-31
Filing date: 2019-05-31
Publication date: 2020-03-24
Anticipated expiration: 2029-05-31

Abstract

A stainless steel buckle plate production device is characterized by sequentially comprising an unreeling machine, a leveling machine, a feeding device, a first punching type hydraulic machine, a first feeder with a plate turnover machine, a second punching type hydraulic machine, a second feeder, a third punching type hydraulic machine, a third feeder, a fourth punching type hydraulic machine and a belt conveyor. Compared with the prior art, the utility model, have that production efficiency is high, the stable quality, the advantage that the processing cost is low.

Description

Stainless steel buckle apparatus for producing

Technical Field

The utility model relates to a stainless steel smallpox buckle processing equipment.

Background

The metal ceiling gusset plate in the existing market is made of materials such as an aluminum gusset plate, a plastic steel plate and an iron plate, and is processed by a punching machine, a hydraulic machine and other equipment in a manual punching forming mode or a semi-automatic mode. The stainless steel material buckle plate is also processed on a bending machine by manual operation in the market. The production methods in the market have low efficiency, high production cost and unstable quality.

Disclosure of Invention

An object of the utility model is to provide a stainless steel buckle apparatus for producing that production efficiency is high, stable in quality, processing cost are low.

The utility model discloses equipment is realized like this, include unreeling machine, levelling machine, material feeding unit, first towards type hydraulic press, first feeder, the second that has the panel turnover machine towards type hydraulic press, second feeder, third towards type hydraulic press, third feeder, fourth towards type hydraulic press, belt conveyer in proper order. After a stainless steel tape is unreeled by an unreeling machine (with hydraulic expansion and contraction and positive and negative rotation functions), the stainless steel tape is straightened by a guide leveling machine (with a front and back material clamping device, an upper roller and a lower roller are adopted in the middle for adjusting the pressure to straighten and the speed can be adjusted), the steel tape is discharged by the leveling machine and enters a feeding device (with a speed adjusting material clamping function), the steel tape is pushed into a first punching hydraulic machine (a punching die is arranged in a machine table), the stainless steel material is cut off and chamfered into a sheet material by hydraulically controlling the vertical punching, the sheet material is conveyed to a specified position of the first feeding machine by the first feeding machine to turn over a plate, the sheet material is conveyed into a second punching hydraulic machine (the machine is provided with a set of customized punching die) by a pneumatic material sucking electric conveying mechanism of the first feeding machine, patterns are punched on the surface of the sheet material, the four sides of the sheet material are folded by 90 degrees to form a semi-finished product, the, the machine comprises an electric transmission mode function) and a third punching hydraulic machine (a punching die is installed in a machine table), the third punching hydraulic machine is used for punching up and down through hydraulic control, the small edge of the semi-finished product is continuously bent and bent to form a 180-degree bent small edge, then the third feeder (with the functions of pneumatic material suction and electric transmission mode) is used for transmitting the small edge to the fourth punching hydraulic machine (the punching die is installed in the machine table), the fourth punching hydraulic machine is used for punching up and down through hydraulic control, the small edges of the four edges of the semi-finished product are folded and simultaneously the four edges of the semi-finished product are subjected to high-edge 90-degree folding to form a finished product of the stainless steel ceiling buckle plate, and the.

The feeder with the plate turnover machine comprises power conveying belts arranged on two sides of a rack, a first sucker mechanism, a plate positioning mechanism and a second sucker mechanism, wherein the first sucker mechanism is positioned above the power conveying belts and driven by power to move back and forth along a track, the second sucker mechanism is positioned above the plate positioning mechanism and driven by power to move back and forth along the track, and the plate turnover machine comprises a turnover plate and a power mechanism, the turnover plate is arranged on the rack and positioned between the power conveying belts on the two sides and overturned along a rotating shaft, and the power mechanism drives the turnover plate to overturn.

When in work, the plate sent out from the punching type hydraulic press falls on the power transmission belt above the plate turnover machine of the feeding machine with the plate turnover machine, if the plate needs to be turned over, the power mechanism of the plate turnover machine is controlled to act to drive the turnover plate to turn over, the plate on the turnover plate is turned over and falls onto the power conveyer belt in front, and is delivered to the position right below the initial position of the first sucking disc mechanism by the power conveyor belt, if the plate does not need to be turned over, the plate is directly delivered to the position right below the initial position of the first sucking disc mechanism by the power conveyor belt, the first sucking disc mechanism acts to suck the plate on the power conveyor belt and moves forwards to the plate positioning mechanism right below the initial position of the second sucking disc mechanism along the track under the driving of power, and the second sucker mechanism moves forwards synchronously to suck the front plate positioned by the plate positioning mechanism before and send the front plate to the punching type hydraulic machine of the next procedure for processing the next procedure.

The rear end of the belt conveyor is provided with a vertical panel turnover machine, the vertical panel turnover machine comprises a front 90-degree turnover mechanism, a rear 90-degree turnover mechanism and a power transmission belt arranged between the front 90-degree turnover mechanism and the rear 90-degree turnover mechanism, the front 90-degree turnover mechanism comprises a front swing frame arranged between two conveying belts forming the belt conveyor in a swinging mode along a front rotating shaft and a front power mechanism driving the front swing frame to swing, the rear 90-degree turnover mechanism comprises a rear swing frame arranged outside an outlet of the belt conveyor in a swinging mode along a rear rotating shaft and a rear power mechanism driving the rear swing frame to swing, the transmission direction of the power transmission belt is perpendicular to the transmission direction of the belt conveyor, the material receiving platform comprises a vertical guide groove, a U-shaped groove and a collecting groove, the vertical guide groove faces to the space between the front 90-degree turnover mechanism and the rear 90-degree turnover mechanism, the U-shaped guide groove is arranged outside, The pushing mechanism is arranged outside the outlet of the vertical guide groove and positioned on the other side of the power transmission belt, and comprises pushing power and a pushing plate driven by the pushing power.

During operation, when the finished product of keeping flat moved the top of preceding 90 degrees tilting mechanism under belt conveyor's conveying, preceding 90 degrees tilting mechanism moved with back 90 degrees tilting mechanism, preceding swing frame, back swing frame is by horizontal state relative swing 90 degrees, the finished product that will keep flat overturns into the vertical condition and falls into preceding 90 degrees tilting mechanism, the power transmission area between the 90 degrees tilting mechanism of back, the power transmission area moves, the finished product that will erect is pushed push mechanism's scope of action, then push mechanism pushes the finished product into U-shaped collecting vat, and like this, several finished product just vertically stacks in U-shaped collecting vat, so that the staff takes out and packs the processing.

The stainless steel buckle plate produced by the production method of the stainless steel buckle plate comprises a panel and a vertical plate connected to the edge of the panel, wherein the panel is a polygonal panel including a square shape, the free edge of the vertical plate is a turned edge which is turned inwards, and the turned edge is a 180-degree flat plate bending or a circular turned edge or an arc bending. Two sides of the vertical plate are in a two-stage step shape.

The utility model discloses a set up in proper order and through the feeder accuracy including having the panel turnover machine with panel conveying and location to dash the substep on the type hydraulic press and process in succession the several towards the type hydraulic press, consequently, have production efficiency height, steady quality, advantage that the processing cost is low.

Drawings

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

FIG. 2 is a schematic structural diagram of a feeder with a panel turnover machine;

FIG. 3 is a view in the direction C of FIG. 2;

FIG. 4 is a schematic structural view of a vertical plate turnover machine part;

FIG. 5 is a top view of FIG. 4;

FIG. 6 is a flow chart of the product forming from sheet to product;

fig. 7 is a schematic structural diagram of a product.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings and examples:

as shown in figure 1, the utility model comprises an unreeling machine 1, a first infrared induction device 2, a leveling machine 3, a second infrared induction device 4, a feeding device 5, a first punching hydraulic machine 6, a first feeding machine 8 with a panel turnover machine 7, a second punching hydraulic machine 6, a second feeding machine 8, a third punching hydraulic machine 6, a third feeding machine 8, a fourth punching hydraulic machine 6 and a belt conveyer f in sequence, wherein the unreeling machine 1 (with hydraulic expansion and contraction and positive and negative rotation functions) unreels a stainless steel winding belt A and then passes through the first infrared inductor 2, when sensing the stainless steel winding belt A, the guiding leveling machine 3 is controlled to act (can be operated under the control of a set program by a control device B), the stainless steel winding belt A passes through the guiding leveling machine 3 (with a front and back clamping device, the middle adopts an upper and lower roller to adjust pressure for leveling, the speed is adjustable and the function for leveling), after the steel belt passes through the leveling machine 3 and passes through the second infrared sensing device 4, when a stainless steel winding belt A is sensed, the feeding device 5 is controlled to act (which can be carried out under the control of the control device B according to a set program), the steel belt A entering the feeding device 5 (with the speed-adjusting and material-clamping functions) is pushed into the first punching hydraulic machine 6 (a punching die 6a is arranged in a machine table), the punching is carried out up and down through hydraulic control (which can be carried out under the control of the control device B according to the set program), as shown in figure 3, the stainless steel material is cut off, four corners a1 are cut into a plate a, then the cut plate a is pushed into the first feeding machine 8 through the advancing steel belt A, the plate a conveys the cut plate a to a designated position through the first feeding machine 8 to turn over the plate, so that the surface of the plate a covered with the protective film is turned upwards, and the subsequent processing is avoided, damaging the other side of the plate a which is not covered with the protective film, positioning the plate a, sending the plate a into a second punching type hydraulic press 6 (the hydraulic press is provided with a set of customized punching type dies 6 a), punching patterns a2 and four edges of 90-degree bent small edges a3 on the surface of the stainless steel plate a to form a semi-finished product b, sending the plate a into the second punching type hydraulic press 6 by a first feeder 8, pushing the semi-finished product b into a second feeder, transmitting the semi-finished product b to a third punching type hydraulic press 6 (the punching type dies 6a are arranged in a machine table) through the transmission of the second feeder (the functions of pneumatic material suction and electric transmission mode are provided), continuously bending the 90-degree bent small edges of the semi-finished product b into 180-degree small edges a3 to form a semi-finished product c through hydraulic control, and when transmitting the semi-finished product b by the second feeder, the semi-finished product c is pushed into a third feeding machine 8, the third feeding machine 8 (with pneumatic material suction and electric transmission functions) transmits the semi-finished product c to a fourth punching hydraulic machine 6 (a punching die 6a is installed in a machine table), punching is performed up and down through hydraulic control, the four edges a4 of the semi-finished product c are bent into a stainless steel ceiling buckle plate finished product d through high edges 90 degrees while the small edges of the four edges of the semi-finished product c are folded, and the stainless steel ceiling buckle plate finished product d is conveyed to a material receiving platform 9 through a belt conveying machine f (with an electric transmission function) after the working procedure is completed.

Here, the feeder 8 with the plate turnover machine 7 includes a power transmission belt 8b disposed on both sides of the frame 8a, a first suction cup mechanism 8f located above the power transmission belt 8b and driven by a power 8c through a moving frame 8e moving back and forth along a rail 8d, a plate positioning mechanism 8g, a second suction cup mechanism 8h located above the plate positioning mechanism 8g and driven by a power 8c through a moving frame 8e moving back and forth along a rail 8d, and the plate turnover machine 7 includes a turnover plate 7b disposed on the frame 8a and located between the power transmission belts 8b on both sides and turning over along a rotating shaft 7a, and a power mechanism 7c (air cylinder) driving the turnover plate 7b to turn over back and forth.

The front end of the moving frame 8e is provided with a push plate 8i which pushes the workpiece in the die hydraulic press 6 out of the die hydraulic press 6.

The side baffle 10 is arranged on the outer side of the power transmission belt 8b above the plate turnover machine 7, the front positioning baffle 11 is arranged in front of the plate turnover machine 7, so that the plate a sent out from the hydraulic punching press 6 falls onto the power transmission belt 8b above the plate turnover machine 7, and the plate a is positioned right above the plate turnover machine 7 under the positioning of the side baffle 10 and the positioning baffle 11 arranged on the outer side of the power transmission belt 8 b. In this way, it is ensured that the sheet material a is smoothly turned over and falls back into the following power transmission belt 8 b.

When the device works, a plate a sent out from the punching hydraulic machine 6 falls on a power transmission belt 8B above a plate turnover machine 6 with a feeding machine 7 of the plate turnover machine 6, after a proximity switch 12 on the plate turnover machine 6 senses that the plate a is in place, a control device B controls a power mechanism 7c of the plate turnover machine 7 to act according to a set program to drive the plate turnover machine 7B to turn over, the plate a on the plate turnover machine is turned over and falls on the power transmission belt 8B in front, the plate a is sent to the initial position of a first suction disc mechanism 8f by the power transmission belt 8B and is positioned under the first suction disc mechanism 8f under the positioning of a positioning baffle 13, a proximity switch 14 under the first suction disc mechanism 8f transmits the in-place information of the plate a to the control device B, the control device B controls an up-down driving mechanism 8f1 (air cylinder) of the first suction disc mechanism 8f to drive a suction disc of the first suction disc mechanism 8f to move up and down to, and is driven by a power 8c and is sent to a plate positioning mechanism 8g through a moving frame 8e which moves back and forth along a track 8d, the dynamic positioning push plates 8g1 on four sides of the plate positioning mechanism 8g position the plate a in the center of the plate positioning mechanism 8g, then, the power jacking mechanism 8g2 under the plate positioning mechanism 8g jacks and lifts the plate a to and is sucked by the sucker of the second sucker mechanism 8h, and along with the forward feeding of the next plate a, the second sucker mechanism 8h drives the plate a to move forward along with the moving frame 8e, so that the plate a is fed into the punching type hydraulic press 6, meanwhile, the processed plate a in the hydraulic press 6 is pushed out of the upper part of the die by a demoulding mechanism of the hydraulic press 6, and the plate a processed by the hydraulic press 6 is pushed out of the hydraulic press 6 by a push plate 8i at the front end of a forward moving frame 8e, so that the plate a to be processed at the back enters the hydraulic press 6.

If the plate turnover (such as the second feeder and the third feeder) is not required, the plate turnover device 7 may be eliminated from the feeder 8.

As shown in fig. 4 and 5, a vertical panel turnover device g is disposed at the rear end of a belt conveyor f, the vertical panel turnover device g includes a front 90-degree turnover mechanism 12, a rear 90-degree turnover mechanism 13, and a power transmission belt 14 disposed between the front 90-degree turnover mechanism 12 and the rear 90-degree turnover mechanism 13, the front 90-degree turnover mechanism 12 includes a front swing frame 12b swing-disposed between two conveying belts forming the belt conveyor f along a front rotation shaft 12a fixed on a frame 15, and a front power mechanism 12c (air cylinder) driving the front swing frame 12b to swing, the rear 90-degree turnover mechanism 13 includes a rear swing frame 13b swing-disposed outside an outlet of the belt conveyor f along a rear rotation shaft 13a fixed on the frame 15, and a rear power mechanism 13c (air cylinder) driving the rear swing frame 13b to swing, a transmission direction of the power transmission belt 14 is perpendicular to a transmission direction of the belt conveyor f, the material receiving platform 9 includes an inlet on the power transmission belt 14 facing the front 90-degree, The device comprises a vertical guide groove 9a in the space between the rear 90-degree turnover mechanisms 13, a U-shaped collecting groove 9b which is arranged outside the outlet of the vertical guide groove 9a and is positioned on one side of a power transmission belt 14, and a pushing mechanism 9c which is arranged outside the outlet of the vertical guide groove 9a and is positioned on the other side of the power transmission belt 14, wherein the pushing mechanism 9c comprises pushing power 9c1 (air cylinder) and a pushing plate 9c2 driven by the pushing power 9c 1.

A stop mechanism 16 is arranged between the outlet of the vertical guide groove 9a and the pushing mechanism 9c, and the stop mechanism 16 comprises a front-back moving power 16a (air cylinder), a left-right moving power 16b (air cylinder) driven by the front-back moving power 16a, and a blocking rod 16c driven by the left-right moving power 16 b.

When the stainless steel ceiling buckle plate is in work, when a front stainless steel ceiling buckle plate finished product d enters the action range of the pushing mechanism 9c, the stop mechanism 16 acts to extend out of the stop rod 16c to the outlet of the vertical guide groove 9a, so as to prevent the stainless steel ceiling buckle plate finished product d from entering the action range of the pushing mechanism 9c, the stopping mechanism 16 is reset after the previous stainless steel ceiling buckle plate finished product d is pushed into the U-shaped collecting groove 9b and the pushing mechanism 9c is reset, the front and back moving power 16a is adopted, thus, when the stop rod 16c of the stop mechanism 16 is reset, the stop rod can retreat along with the forward movement of the stainless steel ceiling buckle plate finished product d, when the latter stainless steel ceiling buckle finished product d is blocked, the latter stainless steel ceiling buckle finished product d is pushed away from the former stainless steel ceiling buckle finished product d by the forward movement of the forward and backward movement power 16a, so that the situation that the pushing of the former stainless steel ceiling buckle finished product d is influenced due to the fact that the former stainless steel ceiling buckle finished product d is close to the latter stainless steel ceiling buckle finished product d is avoided.

A proximity switch 17 is provided on the outside of the rear 90 degree turnover mechanism 13. When the device works, after a horizontally placed stainless steel ceiling buckle finished product d is conveyed by a belt conveyor f to the position above the front 90-degree turnover mechanism 12, the stainless steel ceiling buckle finished product d continuously passes through the power conveying belt 14 and is conveyed to the rear 90-degree turnover mechanism 13, when the stainless steel ceiling buckle finished product d is sensed by the proximity switch 17, the front 90-degree turnover mechanism 12 is started (which can be controlled by the control device B according to a set program), the rear part of the stainless steel ceiling buckle finished product d is pushed onto the power conveying belt 14 through the vertical turnover of the front swing frame 12B of the 90-degree turnover mechanism 12, then the rear 90-degree turnover mechanism acts, the rear swing frame swings 90 degrees from a horizontal state relative to the front swing frame into a vertical state, the horizontally placed stainless steel ceiling buckle finished product d is turned into the vertical state and falls onto the power conveying belt 14 between the front 90-degree turnover mechanism and the rear 90-degree turnover mechanism, the power conveying 14 acts to push the vertically placed stainless steel ceiling buckle finished product d into the, then, the pushing mechanism 9c pushes the stainless steel ceiling buckle plate finished products d into the U-shaped collecting groove 9b, so that the stainless steel ceiling buckle plate finished products d are vertically stacked in the U-shaped collecting groove 9b, and therefore workers can take out the stainless steel ceiling buckle plate finished products d and package the stainless steel ceiling buckle plate finished products d.

The stainless steel buckle plate produced by the production method of the stainless steel buckle plate comprises a face plate 18 with patterns 22 and a vertical plate 19 connected to the edge of the face plate 18, wherein the face plate 18 is a polygonal face plate including a square shape, the free edge 20 of the vertical plate 19 is a turned-over inward curled edge, and the curled edge 20 is a 180-degree flat plate bending or a circular curled edge or an arc bending. The two sides 21 of the riser 19 are stepped in two steps.

Claims

1. A stainless steel buckle plate production device is characterized by sequentially comprising an unreeling machine, a leveling machine, a feeding device, a first punching type hydraulic machine, a first feeder with a plate turnover machine, a second punching type hydraulic machine, a second feeder, a third punching type hydraulic machine, a third feeder, a fourth punching type hydraulic machine and a belt conveyor.

2. The stainless steel buckle production device according to claim 1, wherein the feeder comprises power transmission belts arranged at two sides of the frame, a first suction cup mechanism which is positioned above the power transmission belts and is driven by power to move back and forth along the track, a plate positioning mechanism, and a second suction cup mechanism which is positioned above the plate positioning mechanism and is driven by power to move back and forth along the track.

3. The stainless steel gusset plate production apparatus according to claim 2, wherein a push plate for pushing the work piece in the die press out of the die press is provided at the front end of the moving frame.

4. The stainless steel buckle production device according to claim 2 or 3, characterized in that the panel turnover machine of the panel turnover machine comprises a panel turnover plate and a power mechanism, wherein the panel turnover plate is arranged on the frame and positioned between the power transmission belts at two sides and overturns along the rotating shaft, and the power mechanism drives the panel turnover plate to overturn back and forth.

5. The stainless steel buckle production device according to claim 4, wherein a side baffle is arranged on the outer side of the power transmission belt above the plate turnover machine, and a front positioning baffle is arranged in front of the plate turnover machine.

6. The apparatus for producing stainless steel gusset plates according to claim 1, 2, 3 or 5, wherein a vertical plate turnover mechanism is provided at the rear end of the belt conveyor, the vertical plate turnover mechanism comprises a front 90-degree turnover mechanism, a rear 90-degree turnover mechanism, and a power transmission belt provided between the front 90-degree turnover mechanism and the rear 90-degree turnover mechanism, the front 90-degree turnover mechanism comprises a front swing frame which is arranged between two conveyor belts forming the belt conveyor along a front rotation axis in a swinging manner, and a front power mechanism which drives the front swing frame to swing, the rear 90-degree turnover mechanism comprises a rear swing frame which is arranged outside an outlet of the belt conveyor along a rear rotation axis in a swinging manner, and a rear power mechanism which drives the rear swing frame to swing, the transmission direction of the power transmission belt is perpendicular to the transmission direction of the belt conveyor, the material receiving platform comprises a vertical guide groove which is positioned on the power transmission belt and the inlet of which faces the space between the, The U-shaped collecting groove is arranged outside the outlet of the vertical guide groove and located on one side of the power conveying belt, and the pushing mechanism is arranged outside the outlet of the vertical guide groove and located on the other side of the power conveying belt and comprises pushing power and a pushing plate driven by the pushing power.

7. The stainless steel buckle production device according to claim 6, wherein a stop mechanism is arranged between the outlet of the vertical guide groove and the pushing mechanism, and the stop mechanism comprises a front-back movement power, a left-right movement power driven by the front-back movement power, and a stop rod driven by the left-right movement power.

8. The stainless steel buckle plate production device according to claim 6, characterized in that a proximity switch is arranged on the outer side of the rear 90-degree turnover mechanism, when a horizontally-placed stainless steel ceiling buckle plate finished product moves above the front 90-degree turnover mechanism under the conveying of a belt conveyor, the stainless steel ceiling buckle plate finished product is conveyed across a power conveying belt and then is conveyed to the rear 90-degree turnover mechanism continuously, when the stainless steel ceiling buckle plate finished product is sensed by the proximity switch, the front 90-degree turnover mechanism is started, the rear part of the stainless steel ceiling buckle plate finished product is pushed onto the power conveying belt through the vertical turnover of a front swing frame of the 90-degree turnover mechanism, then the rear 90-degree turnover mechanism acts, the rear swing frame swings 90 degrees from a horizontal state relative to the front swing frame to a vertical state, and the horizontally-placed stainless steel ceiling buckle plate finished product is turned to the vertical state and falls into the power conveying belt between.