CN215393695U - Head shell hole site bores and attacks device - Google Patents

Abstract

The utility model discloses a drilling and tapping device for hole sites of head shells, which comprises a machine tool and a clamp, wherein the clamp is connected to the center of the machine tool in a sliding manner and used for clamping the head shells, a side drilling and tapping device, a top drilling and tapping device and a rear drilling device are connected to the upper side of the machine tool, the side drilling and tapping device is positioned on the side of the clamp and comprises a side frame, a side sliding plate and a first drilling power head and a first tapping power head, the side sliding plate is connected to the upper side of the side sliding plate in a sliding manner, the top drilling and tapping device comprises a vertical frame, a second drilling power head and a second tapping power head, the second drilling power head and the second tapping power head are connected to the upper side of the vertical frame, the rear drilling device comprises an auxiliary sliding frame connected to the surface of the machine tool in a sliding manner, and a third drilling power head is connected to the rear side of the auxiliary sliding frame; the device can carry out drilling, the tapping of side, top and rear with the head shell in proper order and handle, has changed the defect of the manual drilling of conventional bench drill, tapping, effectively improves head shell drilling, tapping processing efficiency and machining precision.

Description

Head shell hole site bores and attacks device

Technical Field

The utility model relates to a head shell machining device, in particular to a head shell hole site drilling and tapping device.

Background

The head shell of the electric tool is a main external protection shell of the gear box of the electric tool, so that the surface of the head shell is provided with various types of holes for installation and fixation, an operator needs to sequentially perform machining treatments such as cutting, drilling, tapping and the like on all angles of the head shell, particularly the head shell of an angle grinder needs to be machined in the processes of drilling, tapping and the like on the top, the side, the rear and the like of the head shell, while the operations of drilling and tapping the conventional angle grinder head shell are generally processed by an operator manually by using a bench drill, the manual drilling and tapping mode not only increases the labor intensity of operators and reduces the efficiency, the uniformity of different head shell hole sites is very difficult to guarantee when carrying out frock clamp's dismantlement to the head shell, can't carry out standardized processing to head shell processing, and the product uniformity that hardly guarantees the head shell and add man-hour in batches influences the accurate nature and the product quality of the follow-up assembly processing of head shell.

SUMMERY OF THE UTILITY MODEL

The utility model mainly solves the technical problems in the prior art, and provides the head shell hole site drilling and tapping device which can effectively improve the production efficiency of the head shell, guarantee the consistency and the accuracy of the mass production of the head shell and guarantee the mass production quality of the head shell.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

a head shell hole site drilling and tapping device comprises a machine tool, a clamp, a lateral drilling and tapping device, a top drilling and tapping device and a rear drilling device, wherein the clamp is connected to the center of the machine tool and used for clamping a head shell, the lateral drilling and tapping device is connected to the upper portion of the machine tool and used for drilling and tapping the head shell, the top drilling and tapping device comprises a lateral frame located on the lateral side of the clamp, a lateral sliding plate connected to the upper portion of the lateral frame, a first drilling power head and a first tapping power head connected to the upper portion of the lateral sliding plate, the top drilling and tapping device comprises a vertical frame located on the upper portion of the clamp, a second drilling power head and a second tapping power head connected to the upper portion of the vertical frame, the second drilling power head and the first tapping power head correspond to each other, a first multi-shaft device used for drilling the top of the head shell is connected to the lower portion of the second drilling power head, a first connecting plate is connected to the lower portion of the first multi-shaft device, the lower part of the first connecting plate is provided with a pressing plate, a spring is connected between the pressing plate and the first connecting plate, the rear drilling device comprises an auxiliary sliding frame located at the rear of the clamp, the auxiliary sliding frame is located at the rear of the second tapping power head and connected above a machine tool in a sliding mode, and the rear of the auxiliary sliding frame is connected with a third drilling power head.

As preferred, the lathe upper surface is connected with main slide rail and main lead screw, the anchor clamps below is connected with main slip table, main slip table sliding connection is in main slide rail top, and threaded connection between main slip table and the main lead screw, and the top of lathe still is connected with the host computer that is used for driving the rotation of main lead screw, and it is rotatory through host computer drive main lead screw, let main lead screw drive main slip table slide the activity in the central authorities of main slide rail to the main machine control main slip table slide let the drilling tapping that the head shell of fixing on the anchor clamps can be in proper order at lathe central authorities, main slip table below is connected with the nut seat, threaded connection between main lead screw and the nut seat, so that the rotation through main lead screw lets the nut seat remove in the central authorities of main lead screw.

As preferred, anchor clamps include the backup plate, and connect the fagging that is used for placing the head shell on one side of the backup plate, the outside swing joint of fagging has the clamping jaw that is used for centre gripping head shell, the opposite side of backup plate is connected with and is used for driving the clamping jaw elasticity and press from both sides the jar, and the surface of backup plate is provided with reference column and guide hole, let the head shell of treating processing place on the fagging, and carry out spacingly with the head shell through the reference column, it is fixed to carry out the centre gripping with the head shell through pressing from both sides jar drive clamping jaw, so that follow-up drilling to the head shell surface, the tapping is handled, and the setting up of guide hole then is convenient for third drilling unit head drive third multi-axial organ carries out drilling along the guide hole to head shell rear, so that the stability and the accuracy nature of the drilling position processing in improvement head shell rear.

Preferably, a rotary seat is connected above the side sliding plate, a rotary table used for fixing the first drilling power head and the first tapping power head is movably connected above the rotary seat, the center of the rotary seat is connected with a mandrel, the surface of the rotary seat is provided with an arc groove surrounding the outer side of the mandrel, the mandrel is rotationally connected with the rotary table, a lock rod which is mutually clamped with the arc groove is connected below the rotary table, so that the first drilling power head and the first tapping power head are respectively movably connected on the rotary base through different rotary tables, and the rotary tables can rotate around the core shaft, the arc groove limits the rotation of the rotary table so that the first drilling power head and the first tapping power head can obtain a rotation angle of 0-15 degrees, the lock rod can be a screw rod or a bayonet lock, and the lock rod is detachably matched and connected with the arc groove, so that the lock rod can move in the center of the arc groove and can be immediately connected and fastened with the arc groove.

Preferably, a side slide rail is connected above the side frame, the side slide plate is slidably connected to the center of the side slide rail, a side screw rod in threaded connection with the side slide plate is movably connected to the center of the side frame, namely, a nut seat in threaded connection with the side screw rod is connected to the lower side of the side slide plate, the side slide plate can be driven to move by rotation of the side screw rod due to cooperation of the side screw rod and the nut seat, a producer can drive the side slide plate to slide and move in the center of the side slide rail by rotating the side screw rod, the producer can conveniently control the positions of the first drilling power head and the first tapping power head above the side frame, the side drilling and tapping device can conveniently drill and tap different types of head shell side surfaces, and the processing convenience of the head shell is effectively improved.

As preferred, the upper surface of lathe still is connected with vice slide rail, vice balladeur train sliding connection is in the central authorities of vice slide rail, and the side of third drilling unit head is connected with the third multiaxis ware, the third multiaxis ware links to each other with vice balladeur train, lets the third drilling unit head can drive the third multiaxis ware and remove the drilling to support the third multiaxis ware through vice balladeur train, effectively improve the stability that the third multiaxis ware carried out drilling man-hour to the skull rear, so that the drill bit on the third multiaxis ware can carry out the accurate drilling with the skull.

As preferred, first multiaxis ware links to each other with first even board, and the upper surface of clamp plate is connected with the connecting rod, the connecting rod runs through first connecting plate, and the spring is located the central authorities of connecting rod for when main slip table drives anchor clamps and is located first multiaxis ware below, the first multiaxis ware of second drilling unit head drive descends, drives the clamp plate simultaneously and presses and fasten in the head shell top, and continuous descending through first multiaxis ware carries out drilling processing with the head shell top, the setting up of connecting rod lets the decline of first even board lead, improves the position accuracy nature of first multiaxis ware drilling, and the spring then is convenient for improve the stability of drilling, effectively improves the clamp plate and presses the head shell to carry out the fastness fixed, improves the precision and the quality of drilling in head shell top.

Preferably, a second multi-shaft device is connected below the second tapping power head, a second connecting plate is connected to the side of the second multi-shaft device, guide posts are connected between the first connecting plate, the pressing plate and the machine tool and between the second connecting plate and the machine tool, the accuracy and the stability of the lifting of the first connecting plate, the pressing plate and the second connecting plate are effectively improved through the arrangement of the guide posts, and the quality of drilling and tapping on the top of the head shell by the first multi-shaft device and the second multi-shaft device is effectively improved.

As preferred, first multiaxis ware, third multiaxis ware all are connected with the drill bit with the tip of first drilling unit head, the second multiaxis ware all is connected with the screw tap with the tip of second tapping unit head for first multiaxis ware can carry out the drilling processing of porous position to the head shell top, and the third multiaxis ware can carry out the processing of porous position with the head shell rear, and first drilling unit head then can carry out side drilling processing to the head shell, and the second multiaxis ware then can carry out the tapping with head shell top hole site and handle, and the second tapping unit head then can carry out tapping processing to head shell side hole site, first multiaxis ware, second multiaxis ware, third multiaxis ware are the multiaxis drilling ware, and can connect drill bit or screw tap more than two on the power shaft of multiaxis drilling ware.

As preferred, first multiaxis ware, second multiaxis ware, third multiaxis ware, first drilling unit head all are provided with the spray pipe with the side of first tapping unit head, the side of lathe is provided with the water tank, the inside water pump that is provided with of water tank, be linked together between spray pipe, water tank and the water pump, let the water pump can drive the spray pipe department with the inside cutting fluid of water tank to in order to let first multiaxis ware, second multiaxis ware, third multiaxis ware, first drilling unit head and first tapping unit head at first shell drilling, tapping man-hour can cool down, lubricate drill bit or screw tap, effectively improve the machining efficiency and the shaping quality of head shell drilling, tapping, the lathe is connected with the guide plate towards one side of water tank, lets in the water tank of refluencing again through the lubricated cutting fluid of cooling.

The utility model has the beneficial effects that: the multi-hole-position multi-directional drilling and tapping machine can drill and tap a head shell in multiple holes and directions, effectively reduces the labor intensity of a producer for machining and producing the head shell, and improves the machining efficiency of the head shell, wherein the head shell clamped by a clamp is driven by a main sliding table to slide above a machine tool, the side of the head shell is drilled when the head shell passes through a first drilling power head, meanwhile, a second drilling power head drives a first multi-shaft device to synchronously machine the multiple holes at the top of the head shell, then the head shell is moved to the lower part of a second multi-shaft device, a second tapping power head drives a second multi-shaft device to tap the hole at the top of the head shell, meanwhile, the first tapping power head taps the hole at the side of the head shell, a third drilling power head synchronously drives a third multi-shaft device to drill holes at the rear part of the head shell, namely, the second tapping power head and the first tapping power head are mutually corresponding through the second drilling power head and the third multi-shaft device, make the first shell of fixing on anchor clamps can carry out the synchronous drilling processing to the hole site of first shell top and side when removing first multi-spindle ware below, then let the tapping processing of first shell top and side and the drilling processing of rear go on simultaneously when removing second multi-spindle ware below, the drilling of conventional first shell has been changed, the operator adopts the bench drill to carry out the process quantity and the complexity of manual processing during the tapping, make the first shell only need just can carry out diversely once the installation on anchor clamps, the multi-angle, the synchronous processing of multi-process is convenient, effectively improve first shell drilling, the efficiency and the accuracy nature of tapping processing, reduce intensity of labour and the time cost that the operator processed the first shell, be convenient for carry out same batch processing production to the first shell, the uniformity and the accuracy of first shell batch production have effectively been guaranteed.

The lower part of the first multi-spindle device is connected with a first connecting plate, a pressing plate is arranged below the first connecting plate, a spring is connected between the pressing plate and the first connecting plate, so that the clamp driving head shell can be limited and fixed through the pressing plate when moving to the lower part of the first multi-spindle device, the primary drilling position of the head shell is ensured, the pressing plate can elastically abut against the surface of the head shell through the arrangement of the spring, the problem that the head shell is limited rigidly by the pressing plate to cause scratch damage is avoided, the accuracy of the drilling position and the depth of the top of the head shell by the first multi-spindle device is ensured, the accuracy of the drilling of the side of the head shell by the first drilling power head is also ensured, the distance control of subsequent movement of the main sliding table driving clamp is facilitated, the subsequent drilling and tapping of the head shell are facilitated, a third multi-spindle device is connected to an output shaft of the drilling of the third power head, and the third multi-spindle device is connected with the machine tool through an auxiliary sliding carriage, let third drilling unit head carry out porous position drilling processing to the first shell rear through third multi-spindle device to increase the stability and the precision that third multi-spindle device carried out drilling to the first shell through vice balladeur train, avoid the problem of skew, dislocation when conventional bench drill was to the first shell drilling, and can carry out accurate control to the degree of depth of the drilling at first shell rear through the slip stroke of vice balladeur train, effectively improve the position accuracy nature of first shell drilling.

Drawings

FIG. 1 is a schematic structural view of a drilling and tapping device for hole sites of a head shell according to the present invention;

FIG. 2 is a structural diagram of a lateral drilling and tapping device of the present invention;

FIG. 3 is a view showing a connection structure of a side slide plate in the side drilling and tapping apparatus of FIG. 2;

fig. 4 is a position structure diagram of the top drilling and tapping device and the rear drilling device in fig. 1.

Fig. 5 is a schematic structural diagram of a fixture in the head casing hole site drilling and tapping device of the present invention.

In the figure: the machine tool comprises a machine tool 1, a main slide rail 11, a water tank 12, a clamp 2, a main sliding table 21, a backup plate 22, a positioning column 221, a guide hole 222, a supporting plate 23, a clamping jaw 24, a clamping cylinder 25, a side frame 3, a first drilling power head 31, a second tapping power head 32, a rotary seat 33, a rotary table 331, a mandrel 332, an arc groove 333, a side slide rail 34, a side screw rod 35, a side slide plate 36, a vertical frame 4, a second drilling power head 41, a first multi-shaft device 411, a first connecting plate 412, a connecting rod 413, a spring 414, a pressing plate 415, a second tapping power head 42, a second multi-shaft device 421, a second connecting plate 422, a guide post 43, a third drilling power head 5, a third multi-shaft device 51, an auxiliary sliding frame 52, an auxiliary slide rail 53, a main machine 6 and a main screw rod 61.

Detailed Description

The following further describes embodiments of the present invention with reference to the drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. In addition, the technical features involved in the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

As shown in fig. 1 to 3, a drilling and tapping device for hole sites of a head shell comprises a machine tool 1, a clamp 2 slidably connected to the center of the machine tool 1 for clamping the head shell, a lateral drilling and tapping device, a top drilling and tapping device and a rear drilling device, wherein the lateral drilling and tapping device comprises a side frame 3 located at the lateral side of the clamp 2, a side sliding plate 36 slidably connected to the upper side of the side frame 3, a first drilling power head 31 and a first tapping power head 32 connected to the upper side of the side sliding plate 36, the top drilling and tapping device comprises a vertical frame 4 located above the clamp 2, a second drilling power head 41 and a second tapping power head 42 connected to the upper side of the vertical frame 4, the second drilling power head 41 and the first drilling power head 31 correspond to each other, the second tapping power head 42 and the first tapping power head 32 correspond to each other, and a first multi-axis device 411 for drilling holes at the top of the head shell is connected to the lower side of the second drilling power head 41, the below of first multiaxial ware 411 is connected with first link plate 412, the below of first link plate 412 is provided with clamp plate 415, and is connected with spring 414 between clamp plate 415 and the first link plate 412, rear drilling device is including the vice balladeur train 52 that is located 2 backs of anchor clamps, vice balladeur train 52 is located the rear of second tapping unit head 42 and sliding connection is in the top of lathe 1, vice balladeur train 52 rear is connected with third drilling unit head 5.

1 upper surface of lathe is connected with main slide rail 11 and main lead screw 61, 2 below anchor clamps are connected with main slip table 21, main slip table 21 sliding connection is in main slide rail 11 top, and threaded connection between main slip table 21 and the main lead screw 61, and the top of lathe 1 still is connected with and is used for driving the rotatory host computer 6 of main lead screw 61, and it is rotatory through host computer 6 drive main lead screw 61, lets main lead screw 61 drive main slip table 21 and slide the activity at the central authorities of main slide rail 11 to the head shell that fixes on anchor clamps 2 that slides of host computer 6 control main slip table 21 lets the drilling tapping that can be in proper order at 1 central authorities of lathe, main slip table 21 below is connected with the nut seat, threaded connection between main lead screw 61 and the nut seat, so that the rotation through main lead screw 61 lets the nut seat remove at the central authorities of main lead screw 61.

Anchor clamps 2 include backup plate 22, and connect backup plate 22 one side and be used for placing the fagging 23 of head shell, the outside swing joint of fagging 23 has the clamping jaw 24 that is used for the centre gripping head shell, the opposite side of backup plate 22 is connected with and is used for driving clamping jaw 24 elasticity and press from both sides jar 25, and the surface of backup plate 22 is provided with reference column 221 and guide hole 222, let the head shell of treating processing place on fagging 23, and carry out spacingly with the head shell through reference column 221, it is fixed to carry out the centre gripping with the head shell through pressing from both sides jar 25 drive clamping jaw 24, so that follow-up drilling to the head shell surface, the tapping is handled, the setting of guide hole 222 then is convenient for third drilling 5 drive third multi-axis ware 51 to carry out drilling processing along guide hole 222 to head shell rear, so that the stability and the accuracy of improvement head shell rear hole site processing.

The top of side slide 36 is connected with revolves seat 33, the top swing joint who revolves seat 33 has the revolving stage 331 that is used for fixed first drilling unit head 31 and first tapping unit head 32, the central authorities that revolve seat 33 are connected with dabber 332, revolve the surface of seat 33 and offer the arc groove 333 that encircles the dabber 332 outside, dabber 332 rotates between the revolving stage 331 and be connected with, the below of revolving stage 331 is connected with the locking lever (not mark) with arc groove 333 mutual joint for first drilling unit head 31 and first tapping unit head 32 are respectively through different revolving stage 331 swing joint on revolving seat 33, and let revolving stage 331 can revolve around then dabber 332, and the offering of arc groove 333 is then injectd revolving stage 331's rotation, so that first drilling unit head 31 and first tapping unit head 32 obtain the angle of 0-15 degree's rotatory activity, the locking lever can be screw rod or bayonet lock, and the locking rod is detachably matched and connected with the arc groove 333, so that the locking rod can move in the center of the arc groove 333 and can be instantly connected and fastened with the arc groove 333.

The side slide rails 34 are connected to the upper portions of the side frames 3, the side slide plates 36 are connected to the centers of the side slide rails 34 in a sliding mode, the centers of the side frames 3 are movably connected with side screw rods 35 in threaded connection with the side slide plates 36, namely nut seats in threaded connection with the side screw rods 35 are connected to the lower portions of the side slide plates 36, the side screw rods 35 are matched with the nut seats, so that the side slide plates 36 can be driven to rotate by the side screw rods 35 to move, a producer can drive the side slide plates 36 to slide and move in the centers of the side slide rails 34, the positions of the first drilling power heads 31 and the positions of the first tapping power heads 32 on the upper portions of the side frames 3 can be controlled by the producer, drilling and tapping can be conducted on different types of head shell side surfaces conveniently, and the convenience in head shell processing is effectively improved.

The upper surface of lathe 1 still is connected with vice slide rail 53, vice balladeur train 52 sliding connection is in the central authorities of vice slide rail 53, and the side of third drilling unit head 5 is connected with third multiaxis ware 51, third multiaxis ware 51 links to each other with vice balladeur train 52, lets third drilling unit head 5 can drive third multiaxis ware 51 and removes the drilling to support third multiaxis ware 51 through vice balladeur train 52, effectively improve the stability of third multiaxis ware 51 when carrying out drilling to the skull rear, so that the drill bit on the third multiaxis ware 51 can carry out the accuracy with the skull and bore.

First multi-spindle ware 411 links to each other with first link 412, the last surface connection of clamp plate 415 has connecting rod 413, connecting rod 413 runs through first link 412, and spring 414 is located the central authorities of connecting rod 413, when making main slip table 21 drive anchor clamps 2 and be located first multi-spindle ware 411 below, the first multi-spindle ware 411 of second drilling unit head 41 drive descends, drives clamp plate 415 simultaneously and presses and fasten in the head shell top, and through the processing of driling of descending the head shell top that lasts of first multi-spindle ware 411, the decline of first link 412 is led in the setting of connecting rod 413, improves the position accuracy nature of first multi-spindle ware 411 drilling, and spring 414 then is convenient for improve the stability of drilling, effectively improves clamp plate 415 and presses the head shell and carry out the fastness of fixing, improves the precision and the quality of drilling at head shell top.

Second multi-spindle tool 421 is connected to second tapping power head 42 below, second multi-spindle tool 421 side is connected with second even board 422, be connected with guide pillar 43 between first board 412, clamp plate 415 and lathe 1, between second even board 422 and lathe 1, effectively improve the accuracy and the stability that first board 412, clamp plate 415 and second even board 422 go up and down through setting up of guide pillar 43, effectively improve the quality that first multi-spindle tool 411, second multi-spindle tool 421 carried out drilling, tapping to the skull top

First multiaxis ware 411, third multiaxis ware 51 all are connected with the drill bit with the tip of first drilling unit head 31, second multiaxis ware 421 all is connected with the screw tap with the tip of second tapping unit head 32 for first multiaxis ware 411 can carry out the drilling processing of porous position to the skull top, and third multiaxis ware 51 can carry out the processing of porous position with the skull rear, and first drilling unit head 31 then can carry out side drilling processing to the skull, and second multiaxis ware 421 then can carry out the tapping with skull top hole site and handle, and second tapping unit head 32 then can carry out tapping processing to skull side hole site, first multiaxis ware 411, second multiaxis ware 421, third multiaxis ware 51 are the multiaxis perforator, and the epaxial drill bit or the screw tap more than two of joinable of power of multiaxis perforator.

Spray pipes (not labeled) are arranged on the sides of the first multi-shaft device 411, the second multi-shaft device 421, the third multi-shaft device 51, the first drilling power head 31 and the first tapping power head 32, a water tank 12 is arranged on the side of the machine tool 1, a water pump (not marked) is arranged in the water tank 12, the spray pipe, the water tank 12 and the water pump are communicated, so that the water pump can drive the cutting fluid in the water tank 12 to the spray pipe, so that the first multi-shaft device 411, the second multi-shaft device 421, the third multi-shaft device 51, the first drilling power head 31 and the first tapping power head 32 can cool and lubricate the drill bit or the tap during the drilling and tapping of the head shell, the processing efficiency and the forming quality of the drilling and tapping of the head shell are effectively improved, a guide plate (not labeled) is connected to one side of the machine tool 1 facing the water tank 12, so that the cooling and lubricating cutting fluid flows back into the water tank 12 again.

A head shell hole site drilling and tapping device can drill and tap a head shell in multiple holes, multiple angles and multiple directions, only the head shell needs to be placed on a supporting plate 23, the positioning column 221 limits the installation position of the head shell, the head shell is fixed by driving a clamping jaw 24 through a clamping cylinder 25, and then a main machine 6 drives a main screw rod 61 to rotate so as to drive a main sliding table 21 to slide on a main sliding rail 11; when the main sliding table 21 drives the fixture 2 and the clamped head shell to move below the first multi-axis device 411, the second drilling power head 41 drives the first multi-axis device 411 to descend, the pressing plate 415 is pressed above the head shell under the action of the spring 414, the first multi-axis device 411 performs drilling on the head shell through continuous descending of the second drilling power head 41, the descending of the first multi-axis device 411 is guided by the connecting rod 413 and the guide pillar 43, so that the accuracy of drilling on the top of the head shell is facilitated, and meanwhile, the first drilling power head 31 located on the side of the fixture 2 performs drilling on the hole position on the side of the head shell; after the top and the side of the head shell are drilled, the first drilling power head 31 and the second drilling power head 41 return, the pressing plate 415 releases the pressing on the head shell, and then the host machine 6 is started to drive the main screw rod 61 to drive the main sliding table 21 and the clamp 2 to slide below the second multi-axis device 421, and the operation of the host machine is stopped; then, starting the first tapping power head 32 and the second tapping power head 42, tapping the lateral hole position of the head shell by the first tapping power head 32, simultaneously tapping the top multi-hole position of the head shell by the second tapping power head 42 driving the second multi-shaft device 421, and simultaneously drilling the rear part of the head shell by the third drilling power head 5 driving the third multi-shaft device 51; then first tapping unit head 32, second tapping unit head 42 and the 5 return of third drilling unit head, the 6 reversal of host computer starts simultaneously, lets host computer 6 drive main lead screw 61 rotatory for main slip table 21 drives anchor clamps 2 on main slide rail 11 and gets back to the initial position and carry out the head shell processing once more, the side is bored and is attacked the device and is provided with two sets of and be located the both sides of anchor clamps 2 respectively, and first drilling unit head 31 and the first tapping unit head 32 that the device was attacked to the side promptly all are provided with two and are located the both sides of anchor clamps 2 respectively, make the first drilling unit head 31 and the first tapping unit head 32 of 2 both sides of anchor clamps can carry out drilling tapping processing to the head shell both sides.

The utility model has the beneficial effects that: the multi-hole-position multi-directional drilling and tapping machine can drill and tap a head shell in multiple holes and directions, effectively reduces the labor intensity of a producer for machining and producing the head shell, and improves the machining efficiency of the head shell, wherein the head shell clamped by a clamp is driven by a main sliding table to slide above a machine tool, the side of the head shell is drilled when the head shell passes through a first drilling power head, meanwhile, a second drilling power head drives a first multi-shaft device to synchronously machine the multiple holes at the top of the head shell, then the head shell is moved to the lower part of a second multi-shaft device, a second tapping power head drives a second multi-shaft device to tap the hole at the top of the head shell, meanwhile, the first tapping power head taps the hole at the side of the head shell, a third drilling power head synchronously drives a third multi-shaft device to drill holes at the rear part of the head shell, namely, the second tapping power head and the first tapping power head are mutually corresponding through the second drilling power head and the third multi-shaft device, make the first shell of fixing on anchor clamps can carry out the synchronous drilling processing to the hole site of first shell top and side when removing first multi-spindle ware below, then let the tapping processing of first shell top and side and the drilling processing of rear go on simultaneously when removing second multi-spindle ware below, the drilling of conventional first shell has been changed, the operator adopts the bench drill to carry out the process quantity and the complexity of manual processing during the tapping, make the first shell only need just can carry out diversely once the installation on anchor clamps, the multi-angle, the synchronous processing of multi-process is convenient, effectively improve first shell drilling, the efficiency and the accuracy nature of tapping processing, reduce intensity of labour and the time cost that the operator processed the first shell, be convenient for carry out same batch processing production to the first shell, the uniformity and the accuracy of first shell batch production have effectively been guaranteed.

The lower part of the first multi-spindle device is connected with a first connecting plate, a pressing plate is arranged below the first connecting plate, a spring is connected between the pressing plate and the first connecting plate, so that the clamp driving head shell can be limited and fixed through the pressing plate when moving to the lower part of the first multi-spindle device, the primary drilling position of the head shell is ensured, the pressing plate can elastically abut against the surface of the head shell through the arrangement of the spring, the problem that the head shell is limited rigidly by the pressing plate to cause scratch damage is avoided, the accuracy of the drilling position and the depth of the top of the head shell by the first multi-spindle device is ensured, the accuracy of the drilling of the side of the head shell by the first drilling power head is also ensured, the distance control of subsequent movement of the main sliding table driving clamp is facilitated, the subsequent drilling and tapping of the head shell are facilitated, a third multi-spindle device is connected to an output shaft of the drilling of the third power head, and the third multi-spindle device is connected with the machine tool through an auxiliary sliding carriage, let third drilling unit head carry out porous position drilling processing to the first shell rear through third multi-spindle device to increase the stability and the precision that third multi-spindle device carried out drilling to the first shell through vice balladeur train, avoid the problem of skew, dislocation when conventional bench drill was to the first shell drilling, and can carry out accurate control to the degree of depth of the drilling at first shell rear through the slip stroke of vice balladeur train, effectively improve the position accuracy nature of first shell drilling.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, and the scope of protection is still within the scope of the utility model.

Claims (10)

1. The utility model provides a device is attacked to head-shell hole site brill which characterized in that: including the lathe, and sliding connection is used for the anchor clamps of centre gripping head shell in lathe central authorities, and connects and is used for the side of head shell drilling, tapping to bore to attack device, top and bores and attack device and rear drilling device in the lathe top, the side is bored and is attacked the device and including the side bearer that is located anchor clamps side, and sliding connection is in the side bearer top side, and connects first drilling unit head and the first tapping unit head in the side bearer top, the top is bored and is attacked the device and is included the grudging post that is located the anchor clamps top, and connects second drilling unit head and the second tapping unit head above the grudging post, correspond each other between second drilling unit head and the first drilling unit head, and the below of second drilling unit head is connected with the first multi-spindle ware that is used for drilling at the head shell top, the below of first multi-spindle ware is connected with first even board, the lower part of the first connecting plate is provided with a pressing plate, a spring is connected between the pressing plate and the first connecting plate, the rear drilling device comprises an auxiliary sliding frame located at the rear of the clamp, the auxiliary sliding frame is located at the rear of the second tapping power head and connected above a machine tool in a sliding mode, and the rear of the auxiliary sliding frame is connected with a third drilling power head.

2. The bit shell hole site drilling and tapping device of claim 1, wherein: the lathe upper surface is connected with main slide rail and main lead screw, the anchor clamps below is connected with main slip table, main slip table sliding connection is in main slide rail top, and threaded connection between main slip table and the main lead screw, and the top of lathe still is connected with the host computer that is used for driving the main lead screw rotation.

3. The bit shell hole site drilling and tapping device of claim 2, wherein: anchor clamps include the backup plate, and connect the fagging that is used for placing the head shell in backup plate one side, the outside swing joint of fagging has the clamping jaw that is used for the centre gripping head shell, and the opposite side of backup plate is connected with and is used for driving the clamping jaw elasticity and press from both sides the jar, and the surface of backup plate is provided with reference column and guide hole.

4. The bit shell hole site drilling and tapping device of claim 1, wherein: the top of side slide is connected with revolves the seat, the top swing joint who revolves the seat has the revolving stage that is used for fixed first drilling unit head and first tapping unit head, the central authorities that revolve the seat are connected with the dabber, revolve the surface of seat and set up the arc groove around the dabber outside, rotate between dabber and the revolving stage and be connected, the below of revolving stage is connected with the locking lever with the mutual joint of arc groove.

5. The bit shell hole site drilling and tapping device of claim 4, wherein: and a side sliding rail is connected above the side frame, the side sliding plate is connected to the center of the side sliding rail in a sliding manner, and the center of the side frame is movably connected with a side screw rod in threaded connection with the side sliding plate.

6. The bit shell hole site drilling and tapping device of claim 1, wherein: the upper surface of lathe still is connected with vice slide rail, vice balladeur train sliding connection is in the central authorities of vice slide rail, and the side of third drilling unit head is connected with the third multi-spindle unit, the third multi-spindle unit links to each other with vice balladeur train.

7. The bit shell hole site drilling and tapping device of claim 6, wherein: first multi-axis ware links to each other with first even board, and the upper surface of clamp plate is connected with the connecting rod, the connecting rod runs through first link plate, and the spring is located the central authorities of connecting rod.

8. The bit-housing hole site drilling and tapping device of claim 7, wherein: the lower portion of the second tapping power head is connected with a second multi-shaft device, a second connecting plate is connected to the side of the second multi-shaft device, and guide posts are connected among the first connecting plate, the pressing plate and the machine tool and between the second connecting plate and the machine tool.

9. The bit-housing hole site drilling and tapping device of claim 8, wherein: the end parts of the first multi-shaft device, the third multi-shaft device and the first drilling power head are all connected with drill bits, and the end parts of the second multi-shaft device and the second tapping power head are all connected with screw taps.

10. The bit-housing hole site drilling and tapping device of claim 9, wherein: first multiaxis ware, second multiaxis ware, third multiaxis ware, first drilling unit head all are provided with the spray pipe with side of first tapping unit head, side of lathe is provided with the water tank, and the inside water pump that is provided with of water tank is linked together between spray pipe, water tank and the water pump.

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