CN209255960U - A kind of high-speed, high precision cutting assembly - Google Patents

Abstract

The utility model discloses a kind of high-speed, high precision cutting assemblies, main contents are as follows: the driving motor is mounted on retarder, retarder is mounted on vertical plate, crank is mounted on reducer output shaft and reducer output shaft is mounted on bearing block by bearing, upper joint bearing is mounted on crank, slide is mounted on sliding block, link block is mounted on the left side of slide, ShiShimonoseki bearings are mounted on link block and ShiShimonoseki bearings are connect by connecting rod with upper joint bearing, bracket is mounted on the bottom of slide, tool apron is mounted on the bottom surface of bracket, cutter are mounted on tool apron, bottom plate is mounted in the groove on base top surface, left briquetting and right briquetting are all mounted on the top surface of pedestal and left briquetting and right briquetting are all pressed on bottom plate, guide holder is mounted on base top surface.The utility model structure is simple, at low cost, and it is specified size that flip-flop movement, which is converted to linear motion for work piece cut, by motor and chain link, reliable and stable.

Description

A kind of high-speed, high precision cutting assembly

Technical field

The utility model relates to cutting technique fields, specifically, in particular to a kind of high-speed, high precision cutting assembly.

Background technique

Most of cutting of existing workpiece uses manual operation, by making marks after measurement, to obtain designated length Workpiece；Although reducing costs, cutting efficiency is low, and personal safety accident, cutting effect are be easy to cause in cutting process Poor and consistency is poor, and cutting accuracy is poor, is unable to satisfy the demand of people.

Utility model content

It is a kind of high the technical problem to be solved by the utility model is in view of the deficiency of the prior art, disclose Fast hi-precision cutting component, structure is simple, at low cost, and flip-flop movement is converted to linear motion for work by motor and chain link Part is cut into specified size, reliable and stable.

The technical scheme adopted by the utility model to solve the technical problem is as follows: a kind of high-speed, high precision cutting assembly, packet Include right briquetting, cutter, driving motor, retarder, upper joint bearing, connecting rod, ShiShimonoseki bearings, bracket, pedestal, sliding block, Linear guide, guide holder, bottom plate, left briquetting, vertical plate, tool apron, slide, photoelectric sensor, sensor stand, bearing block, crank And link block；The driving motor is mounted on retarder, and the retarder is mounted on vertical plate, and the vertical plate is fixedly mounted on On the right side of pedestal, the crank is fixedly mounted on reducer output shaft and reducer output shaft by bearing is mounted on axis It holds on seat, the bearing block is fixedly mounted in the mounting hole on vertical plate, and the upper joint bearing is mounted on crank, described straight Line guide rail is fixedly mounted on the left side of vertical plate, and the sliding block is mounted in linear guide, and the slide is fixedly mounted on cunning On block, the link block is fixedly mounted on the left side of slide, and ShiShimonoseki bearings are mounted on link block and hypozygal Bearing is connect by connecting rod with upper joint bearing, and the sensor stand is fixedly mounted on vertical plate, the photoelectric sensor It is mounted on sensor stand, the bracket is fixedly mounted on the bottom of slide, and the tool apron is fixedly mounted on the bottom surface of bracket On, the cutter are fixedly mounted on tool apron, and the bottom plate is mounted in the groove on base top surface, the left briquetting and the right side Briquetting is fixedly arranged on the top surface of pedestal and left briquetting and right briquetting are all pressed on bottom plate, and the guide holder is fixedly mounted on On base top surface and guide holder is located on front side of cutter.

As a kind of preferred embodiment of the utility model, the bracket and pedestal are all L shape structure type.

As a kind of preferred embodiment of the utility model, the base top surface is equipped with rectangle and is oriented to card slot.

As a kind of preferred embodiment of the utility model, the guide holder bottom surface is equipped with groove and groove by rectangle Groove and conical socket are composed.

Working principle of the utility model is: workpiece is transmitted on pedestal by upper bottom roller and workpiece is led by guide holder To workpiece is sent to below cutter at designated length, and driving motor drives crank to rotate by retarder, and crank passes through upper joint Bearing, connecting rod and ShiShimonoseki bearings drive slide to slide up and down along linear guide；When slide is transported downwards along linear guide When dynamic, bracket is pushed to move downward, and then drives the cutter on tool apron to move downward and workpiece is cut, it is bent after cutting Grip strip moves slide and moves upward to upper limit position reset, prepares to start circulate operation next time.Crank, connects upper joint bearing Extension bar, ShiShimonoseki bearings and slide form slider-crank mechanism, and top dead-centre, bottom dead centre are able to carry out position by connecting rod Adjustment.Cutter are covered with protective cover.

Compared with the prior art, the utility model has the following advantages: structure is simple, and it is at low cost, it will by motor and chain link It is specified size that flip-flop movement, which is converted to linear motion for work piece cut, reliable and stable.

Detailed description of the invention

Fig. 1 is a kind of structure shaft side figure of specific embodiment of the utility model；

Fig. 2 is a kind of structural front view of specific embodiment of the utility model；

Fig. 3 is a kind of structure top view of specific embodiment of the utility model；

Fig. 4 is a kind of the structure left view of specific embodiment of the utility model.

Description of symbols:

1: right briquetting, 2: cutter, 3: driving motor, 4: retarder, 5: upper joint bearing, 6: connecting rod, 7: hypozygal Bearing, 8: bracket, 9: pedestal, 10: sliding block, 11: linear guide, 12: guide holder, 13: bottom plate, 14: left briquetting, 15: vertical plate, 16: tool apron, 17: slide, 18: photoelectric sensor, 19: sensor stand, 20: bearing block, 21: crank, 22: link block.

Specific embodiment

Specific embodiment of the present invention is described with reference to the accompanying drawings and embodiments:

It should be noted that structure, ratio, the size etc. illustrated in this specification institute attached drawing, only to cooperate explanation The revealed content of book is not intended to limit the utility model enforceable so that those skilled in the art understands and reads Qualifications, the modification of any structure, the change of proportionate relationship or the adjustment of size, can be generated not influencing the utility model The effect of and the purpose that can reach under, should all still fall in the revealed technology contents of the utility model and obtain the range that can cover It is interior.

Meanwhile cited such as "upper" in this specification, "lower", "left", "right", " centre " and " one " term, also Only being illustrated convenient for narration, rather than to limit the enforceable range of the utility model, relativeness is altered or modified, Under the content of no substantial changes in technology, when being also considered as the enforceable scope of the utility model.

As shown in Figure 1 to 4, it illustrates specific embodiment of the present utility model；As shown, the utility model is public A kind of high-speed, high precision cutting assembly opened, including right briquetting 1, cutter 2, driving motor 3, retarder 4, upper joint bearing 5, Connecting rod 6, bracket 8, pedestal 9, sliding block 10, linear guide 11, guide holder 12, bottom plate 13, left briquetting 14, is stood ShiShimonoseki bearings 7 Plate 15, tool apron 16, slide 17, photoelectric sensor 18, sensor stand 19, bearing block 20, crank 21 and link block 22；The drive Dynamic motor 3 is mounted on retarder 4, and the retarder 4 is mounted on vertical plate 15, and the vertical plate 15 is fixedly mounted on pedestal 9 On right side, the crank 21 is fixedly mounted on 4 output shaft of retarder and 4 output shaft of retarder by bearing is mounted on bearing On seat 20, the bearing block 20 is fixedly mounted in the mounting hole on vertical plate 15, and the upper joint bearing 5 is mounted on crank 21 On, the linear guide 11 is fixedly mounted on the left side of vertical plate 15, and the sliding block 10 is mounted in linear guide 11, described Slide 17 is fixedly mounted on sliding block 10, and the link block 22 is fixedly mounted on the left side of slide 17, ShiShimonoseki nodal axisn 7 are held to be mounted on link block 22 and ShiShimonoseki bearings 7 are connect by connecting rod 6 with upper joint bearing 5, the sensor stand 19 It is fixedly mounted on vertical plate 15, the photoelectric sensor 18 is mounted on sensor stand 19, and the bracket 8 is fixedly mounted on cunning The bottom of seat 17, the tool apron 16 are fixedly mounted on the bottom surface of bracket 8, and the cutter 2 are fixedly mounted on tool apron 16, institute It states in the groove that bottom plate 13 is mounted on 9 top surface of pedestal, the left briquetting 14 and right briquetting 1 are fixedly arranged at the top of pedestal 9 On face and left briquetting 14 and right briquetting 1 are all pressed on base 13, and the guide holder 12 is fixedly mounted on 9 top surface of pedestal and is oriented to Seat 12 is located at 2 front side of cutter.

Preferably, the bracket 8 and pedestal 9 are all L shape structure type.

Preferably, 9 top surface of pedestal is equipped with rectangle and is oriented to card slot.

Preferably, 12 bottom surface of guide holder is equipped with groove and groove is composed of rectangular recess and conical socket.

The preferred embodiments of the present invention have been described in detail above with reference to the accompanying drawings, but the utility model is not limited to Above embodiment can also not depart from the utility model within the knowledge of a person skilled in the art It is made a variety of changes under the premise of objective.

Many other changes and modifications may be made without departing from the spirit and scope of the utility model.It should be appreciated that this reality It is not limited to specific embodiment with novel, the scope of the utility model is defined by the following claims.

Claims (4)

1. a kind of high-speed, high precision cutting assembly, it is characterised in that: including right briquetting, cutter, driving motor, retarder, on Oscillating bearing, connecting rod, ShiShimonoseki bearings, bracket, pedestal, sliding block, linear guide, guide holder, bottom plate, left briquetting, vertical plate, knife Seat, slide, photoelectric sensor, sensor stand, bearing block, crank and link block；The driving motor is mounted on retarder, The retarder is mounted on vertical plate, and the vertical plate is fixedly mounted on the right side of pedestal, and the crank, which is fixedly mounted on, to be subtracted On fast device output shaft and reducer output shaft is mounted on bearing block by bearing, and the bearing block is fixedly mounted on vertical plate In mounting hole, the upper joint bearing is mounted on crank, and the linear guide is fixedly mounted on the left side of vertical plate, described Sliding block is mounted in linear guide, and the slide is fixedly mounted on sliding block, and the link block is fixedly mounted on the left side of slide On face, ShiShimonoseki bearings are mounted on link block and ShiShimonoseki bearings are connect by connecting rod with upper joint bearing, described Sensor stand is fixedly mounted on vertical plate, and the photoelectric sensor is mounted on sensor stand, and the bracket is fixedly mounted In the bottom of slide, the tool apron is fixedly mounted on the bottom surface of bracket, and the cutter are fixedly mounted on tool apron, the bottom Plate is mounted in the groove on base top surface, the left briquetting and right briquetting is fixedly arranged on the top surface of pedestal and left briquetting It is all pressed on bottom plate with right briquetting, the guide holder is fixedly mounted on base top surface and guide holder is located on front side of cutter.

2. a kind of high-speed, high precision cutting assembly according to claim 1, it is characterised in that: the bracket and pedestal are all L shape structure type.

3. a kind of high-speed, high precision cutting assembly according to claim 1, it is characterised in that: the base top surface is equipped with Rectangle is oriented to card slot.

4. a kind of high-speed, high precision cutting assembly according to claim 1, it is characterised in that: set on the guide holder bottom surface Fluted and groove is composed of rectangular recess and conical socket.