CN102728888A

CN102728888A - Lock cylinder post-machining device

Info

Publication number: CN102728888A
Application number: CN2012102082261A
Authority: CN
Inventors: 余庭发; 张健
Original assignee: WENLING MINGCHUANG MACHINE TOOL CO Ltd
Current assignee: WENLING MINGCHUANG MACHINE TOOL CO Ltd
Priority date: 2012-06-21
Filing date: 2012-06-21
Publication date: 2012-10-17

Abstract

The invention discloses a lock cylinder post-machining device, which comprises a main body bracket, a blocking setting device, a finishing device and tool aprons, wherein the finishing device comprises a vibrating tray, a vibrating motor and a guide rod; the vibrating motor is respectively fixedly connected with the vibrating tray and a base bracket, and the guide rod is arranged below a discharge hole of the vibrating tray; the blocking setting device comprises a limit discharging mechanism, a sliding table, a feeding mechanism and a control electric plate; and the sliding table is connected with the base bracket through a guide rail in a sliding mode, a workpiece enters the sliding table from the guide rod through the limit discharging mechanism, and the feeding mechanism is arranged on the main body bracket, so that the workpiece on the sliding table is machined close to a cutter. According to the device, full-automatic machining of a lock cylinder is realized through the finishing mechanism, the limit discharging mechanism, the blocking setting device and the cutter; by matching the control electric plate, efficient and high-precision machining of the lock cylinder is realized; due to reasonable structural design of parts, the whole device is simple in structure; through a control system of the control electric plate, the device is convenient to operate; and through an adjusting system of the tool aprons, the machining precision of the lock cylinder is ensured.

Description

Processing unit (plant) behind a kind of lock core

Technical field

The present invention relates to the lock core manufacture field, relate in particular to and a kind ofly realize process equipment behind the mechanical high efficiency lock core through cylinder.

Background technology

Be locked in the requisite role that served as in the daily life now, can the life that quality of its lock quality has determined us and property one of guaranteed key factor, and the lockset people are to its degree of dependence constantly rising the time; The demand of its amount also increases day by day, and the material of lock core all is a copper, and its material cost is very high; So to the height that how much has determined its cost of quantity of material and the good job of quality; Therefore exist now and on the lock core that processes, excise the cost that unnecessary copper material reduces lock core, be called in the industry and steal material process, the i.e. postprocessing working procedures of lock core; This present operation all is that the lock core through manual work carries out post processing; But artificial processing accuracy is low, when steal the material amount when too much the rigidity of its lock core will also let it steal local asymmetric same like this rigidity that influences its lock core of material simultaneously along with descending even scrapping; And it is low to play manually-operated efficient, and the easy injured grade of operating personnel is confirmed.

Summary of the invention

To the deficiency that prior art exists, the object of the present invention is to provide, scrappage low, simple to operate full mechanical lock process equipment high with a kind of production efficient.

For realizing above-mentioned purpose, the invention provides following technical scheme: processing unit (plant) behind a kind of lock core, comprise main body rack, walk and decide materials device, material all in one piece device and the tool rest of at least one, tool rest comprises cutter and motor, and cutter is connected with motor; Material all in one piece device involving vibrations dish, vibrating motor and guide bar, vibrating motor is connected with vibrating disk and is fixedly connected with base support, and the discharging opening of vibrating disk is connected with the guide bar; Walk and decide materials device and comprise spacing cutting agency, slide unit, feeding mechanism and control panel; Slide unit is slidingly connected through guide rail and base support; Spacing cutting agency places on the guide bar and with control panel and is connected; Made and have only a workpiece to get into slide unit from the guide bar through spacing cutting agency, feeding mechanism places on the main body rack, makes workpiece on the slide unit near cutter and then process;

The present invention also further is set to: main body rack comprises base support and tool rest support; Its tool rest support is fixed on the base support, and the guide bar is divided into guide bar and following guide bar, and upward the guide bar is fixed on the tool rest support through contiguous block and fixed mount; Spacing cutting agency comprises upper cylinder, upper ejector pin, lower cylinder, lower push rod, blanking block, blanking cylinder, striker plate and air cylinder fixed plate; Described upper cylinder is connected with upper ejector pin, and lower cylinder is connected with lower push rod, and upper cylinder is connected with last guide bar through the cylinder fixed block respectively with lower cylinder; Described guide bar down is fixed on the slide unit through upper mounted plate and bottom plate; Described striker plate place upper mounted plate under, the striker plate end is provided with a backgauge cylinder, and the backgauge cylinder is fixed on the base support; Described feeding mechanism comprises promotion cylinder and push rod, and described promotion cylinder places the dead ahead of slide unit and is fixedly connected with base support, and described push rod is connected with cylinder and is fixedly connected with slide unit; Described slide unit is provided with clamping plate, and is provided with a clamping plate cylinder at the clamping plate end, and described clamping plate cylinder is fixed on the base support, under clamping plate, is provided with a push rod, is provided with a push rod cylinder at the end of push rod; The push rod cylinder is fixed on the base support through the push rod fixed head;

The present invention also further is set to: described striker plate end offers a groove, and described clamping plate end is provided with a groove, makes down the guide bar run through striker plate and clamping plate through groove;

The present invention also further is set to: described tool rest is two, and tool rest also comprises cutter shaft, and cutter is fixedly connected with cutter shaft, and cutter shaft is connected through conveyer belt with motor, and described cutter is the saw cutter;

The present invention also further is set to: described tool rest is slidingly connected on the tool rest support through guide rail, on tool rest, also is provided with the lateral adjustments bar, is provided with the lateral adjustments handwheel at the adjusting rod end, on tool rest, also is provided with the vertical regulating handle of cutter;

The present invention also further is set to: be provided with the discharging guide plate below the described slide unit, under the discharging guide plate, be provided with goods charging bucket.

The present invention through material all in one piece mechanism, spacing cutting agency, walk and decide the full-automatic processing that material mechanism and cutter have been realized lock core; This equipment cooperates control panel to realize efficiently; High-precision lock core processing; The Rational structure design of its parts makes entire equipment simple in structure, and the control system of control panel makes it easy to operate, and the regulating system of its tool rest has guaranteed the machining accuracy of lock core.

Below in conjunction with the accompanying drawing and the specific embodiment the present invention is further described.

Description of drawings

Fig. 1 is the schematic perspective view of processing unit (plant) behind a kind of lock core of the present invention

Fig. 2 is the perspective view of processing unit (plant) behind a kind of lock core of the present invention

Fig. 3 is the three-dimensional side direction structural representation of processing unit (plant) behind a kind of lock core of the present invention

Fig. 4 is the workpiece lock core schematic perspective view of processing unit (plant) behind a kind of lock core of the present invention

Fig. 5 decides the materials device sketch map for walking of processing unit (plant) behind a kind of lock core of the present invention

Fig. 6 is the tool rest sketch map of processing unit (plant) behind a kind of lock core of the present invention

Fig. 7 is the sketch map of the stopping means of processing unit (plant) behind a kind of lock core of the present invention

Fig. 8 is the cylinder operation operation sketch map of processing unit (plant) behind a kind of lock core of the present invention

The specific embodiment

With reference to processing unit (plant) behind a kind of lock core of figure 1-Fig. 7, comprise main body rack, walk and decide materials device, material all in one piece device and two tool rests 306, wherein tool rest 306 comprises two the saw cuttves 307 and motor 308 that place tool rest 306 both sides, and saw cutter 307 is connected with motor 308; Material all in one piece device involving vibrations dish 200, vibrating motor 201 and guide bar, vibrating motor 201 is fixedly connected with main body rack 100 with vibrating disk 200 respectively, and the discharging opening of vibrating disk 200 is connected with last guide bar 601; Walk and decide materials device and comprise spacing cutting agency, slide unit 300, feeding mechanism and control panel; Slide unit 300 is slidingly connected through guide rail and main body rack; Spacing cutting agency places on the guide bar 601 and with control panel and is connected; Made and have only a workpiece 800 to get into slide units 300 from last guide bar 601 through spacing cutting agency, feeding mechanism places on the main body rack, makes workpiece 800 on the slide unit 300 near saw cutter 307 and then process

Comprise base support 100 and tool rest support 102 with reference to figure 1-Fig. 7 main body rack; Its tool rest support 102 is fixed on the base support 100; The guide bar is divided into guide bar 601 and following guide bar 602, and upward guide bar 601 is fixed on the tool rest support 100 through contiguous block 603 and fixed mount, and spacing cutting agency comprises upper cylinder 500, upper ejector pin 5001, lower cylinder 501, lower push rod 5011 and striker plate 408; Upper cylinder 500 is connected with upper ejector pin 5001; Lower cylinder 501 is connected with lower push rod 5011, and upper cylinder 500 is connected with last guide bar 601 through the cylinder fixed block respectively with lower cylinder 501, and following guide bar 602 is fixed on the slide unit 300 through upper mounted plate and bottom plate; Striker plate 408 place upper mounted plate under; Striker plate 408 ends are provided with a striker plate cylinder 400, and striker plate 408 ends offer a groove, and following guide bar 602 runs through striker plate 408 through groove and striker plate cylinder 400 is fixed on the base support 100; Feeding mechanism comprises promotion cylinder 402 and push rod, and promotion cylinder 402 places the dead ahead of slide unit 300 and is fixedly connected with base support 100, and push rod is connected with promotion cylinder 402 and is fixedly connected with slide unit 300; Be provided with clamping plate 405 at striker plate 408; And be provided with a clamping plate cylinder 401 at clamping plate 405 ends, be provided with a groove at its other end, clamping plate cylinder 401 is fixed on the base support 100; Under clamping plate 405, be provided with a push rod, be provided with a push rod cylinder 403 at the end of push rod; Push rod cylinder 403 is fixed on the base support 100 through the push rod fixed head, and slide unit cylinder 402 is fixed on the base support 100, and slide unit cylinder 402 is connected with slide unit 300 through pull bar.

Simultaneously; Tool rest 306 is slidingly connected on the tool rest support 102 through guide rail, on tool rest 102, also is provided with to regulate the fixing lateral adjustments bar of tool rest, is provided with lateral adjustments handwheel 302 at the adjusting rod end; On tool rest 306, also be provided with and gather saw cutter 307 vertical regulating handles 305; Simultaneously, for the convenience of feeding is provided with discharging guide plate 701 below slide unit 300, under discharging guide plate 701, be provided with goods charging bucket 700.

Specifically, referring to figs. 1 to Fig. 7,, regulate the horizontal and vertical position of its tool rest 306 through regulating adjusting handle 302 and regulating handle 305 on the tool rest 306 according to the size of the workpiece 800 of preprocessing workpiece 800 placing in the vibrating disk 200 in batches; Open saw cutter motor 308, make motor 308 drive saw cutter 307 high speed rotating, after the adjusting through conveyer belt; Drive vibrating disk 200 through vibrating motor 201, make the locked groove of workpiece 800 through 801 on its workpiece in the vibrating disk 200 make it get into guide bar 601 one by one, and keep time guide bar 602 to be in the groove of striker plate 408; When workpiece 800 slides on the striker plate 408, because the size of its groove is stuck on the striker plate 408 workpiece less than the size of workpiece; At this moment push down workpiece 800 through the push rod on the upper and lower cylinder of the spacing cutting agency on the last guide bar 601 again with reference to figure 6 with Fig. 4 it is not glided, open striker plate cylinder 400 again striker plate 408 is pulled back, guarantee that striker plate 408 leaves down guide bar 602; At this moment, make workpiece slide to clamping plate 405 800 times, because top workpiece 800 is pushed down by ejecting rod of cylinder; So there is and only has a workpiece to slide to for 800 times on the clamping plate 405; Control through control panel resets striker plate 408, at the same time, and last guide bar 601; Make workpiece 800 blankings to striker plate 408 places, closed last, push rod cylinder; Guarantee all pressing on the upper and lower push rod workpiece 800; This moment, the control through control panel made push rod cylinder 403 work under the clamping plate 405, let push rod 404 withstand and moved on the clamping plate 405 until letting workpiece 800 be clipped between striker plate 408 and the clamping plate 405; Again through slide unit cylinder 402 make slide unit 300 to the saw cutter 307 near, and then through the saw cutter 307 come processing work 800; In completion of processing; Slide unit cylinder 402 hauls slide unit 300 and resets, and simultaneously, its clamping plate cylinder 401 is pulled back; Make down guide bar 602 break away from clamping plate 405; The workpiece that processes 800 since below do not had the support of clamping plate 405, just make workpiece 800 continue to glide and then leave down guide bar 602, make in the workpiece entering goods charging bucket 700 that machines through placing the stock guide 701 under the slide unit 300.

The control process flow of control panel of six cylinders of wherein participating in work is following: with reference to figure 8; The time guarantee that once sky is walked in beginning, its reset condition is in, upper cylinder 500 is in running order to be that upper ejector pin 5001 withstands workpiece, lower cylinder 501 to be in closure state be that push rod is in and leaves work status; Striker plate cylinder 400 closure states; Be that striker plate 408 leaves down guide bar 602 states, clamping plate cylinder 401 duties promptly descend guide bar 602 to be in clamping plate 406 grooves, and push rod cylinder 403 closure states are that push rod does not head on clamping plate 406 states; Slide unit cylinder 402 closure states, workpiece 800 is away from saw cutter 307 states; The first step is opened 800 blankings of striker plate cylinder 400 restriction workpiece earlier; In second step, clamping plate 406 are withstood in 403 work of push rod cylinder is clipped between striker plate 408 and the clamping plate 406 workpiece 800, and workpiece 800 is withstood in lower cylinder 501 work simultaneously; The 3rd step; Slide unit gas, 402 work make workpiece 800 near saw cutter 307, and workpiece 800 is processed; While upper cylinder 500 closures; In the 4th step, being resetted by slide unit cylinder 402 after workpiece 800 completion of processing makes workpiece 800 leave saw cutter 307, and simultaneously upper cylinder 500 is opened upper ejector pin 5001 and withstood workpiece 800; In the 5th step, push rod cylinder 403 is closed, and lower cylinder 501 is closed and made workpiece 800 blankings simultaneously; In the 6th step, clamping plate cylinder 401 closures make workpiece expect funnel 700 places for 800 times, carry out discharging; In the 7th step, striker plate cylinder 400 is closed, and workpiece is expected for 800 times on the slide unit 300, and get back to reset condition and promptly accomplish a circulation this moment.

This technology can be made a plurality of embodiment through saw cutter quantity and structure in the change tool rest; Its through main body rack, walk and decide materials device, material all in one piece device and tool rest and accomplished the processing of efficient, high-quality lock core.

The above only is a preferred implementation of the present invention; Should be pointed out that for those skilled in the art, under the prerequisite that does not break away from know-why of the present invention; Can also make some improvement and modification, these improve and modification also should be regarded as protection scope of the present invention.

Claims

1. processing unit (plant) behind the lock core comprises main body rack, walks and decide materials device, material all in one piece device and the tool rest of at least one, it is characterized in that described tool rest comprises cutter and motor, and cutter is connected with motor; Described material all in one piece device involving vibrations dish, vibrating motor and guide bar, described vibrating motor is connected with vibrating disk and is fixedly connected with base support, and the discharging opening of vibrating disk is connected with the guide bar; Described walking decided materials device and comprised spacing cutting agency, slide unit, feeding mechanism and control panel; Described slide unit is slidingly connected through guide rail and main body rack; Described spacing cutting agency places on the guide bar and with control panel and is connected; Made and have only a workpiece to get into slide unit from the guide bar through spacing cutting agency, described feeding mechanism places on the main body rack, makes workpiece on the slide unit near cutter and then process.

2. processing unit (plant) behind a kind of lock core according to claim 1; It is characterized in that described main body rack comprises base support and tool rest support, its tool rest support is fixed on the base support; Described guide bar is divided into guide bar and following guide bar; And last guide bar is fixed on the tool rest support through contiguous block and fixed mount, and described spacing cutting agency comprises upper cylinder, upper ejector pin, lower cylinder, lower push rod, blanking block, blanking cylinder, striker plate and air cylinder fixed plate, and described upper cylinder is connected with upper ejector pin; Lower cylinder is connected with lower push rod; And upper cylinder is connected with last guide bar through the cylinder fixed block respectively with lower cylinder, and described down guide bar is fixed on the slide unit through upper mounted plate and bottom plate, described striker plate place upper mounted plate under; The striker plate end is provided with a backgauge cylinder, and the backgauge cylinder is fixed on the base support; Described feeding mechanism comprises promotion cylinder and push rod, and described promotion cylinder places the dead ahead of slide unit and is fixedly connected with base support, and described push rod is connected with cylinder and is fixedly connected with slide unit; Described slide unit is provided with clamping plate, and is provided with a clamping plate cylinder at the clamping plate end, and described clamping plate cylinder is fixed on the base support, under clamping plate, is provided with a push rod, is provided with a push rod cylinder at the end of push rod; The push rod cylinder is fixed on the base support through the push rod fixed head; Described slide unit cylinder is fixed on the base support, and the slide unit cylinder is connected with slide unit through pull bar.

3. processing unit (plant) behind a kind of lock core according to claim 2 is characterized in that, described striker plate end offers a groove, and described clamping plate end is provided with a groove, makes down the guide bar run through striker plate and clamping plate through groove.

4. processing unit (plant) behind a kind of lock core according to claim 2 is characterized in that, described tool rest is two, and tool rest also comprises cutter shaft, and cutter is fixedly connected with cutter shaft, and cutter shaft is connected through conveyer belt with motor, and described cutter is the saw cutter.

5. according to processing unit (plant) behind claim 3 or the 4 described a kind of lock cores; It is characterized in that; Described tool rest is slidingly connected on the tool rest support through guide rail; On tool rest, also be provided with the lateral adjustments bar, be provided with the lateral adjustments handwheel, on tool rest, also be provided with the vertical regulating handle of cutter at the adjusting rod end.

6. processing unit (plant) behind a kind of lock core according to claim 5 is characterized in that, is provided with the discharging guide plate below the described slide unit, under the discharging guide plate, is provided with goods charging bucket.