CN114346746B

CN114346746B - Numerical control center sweeps collection device

Info

Publication number: CN114346746B
Application number: CN202210014709.1A
Authority: CN
Inventors: 申江南; 李永恩; 李豪; 裴长青; 安身山; 安春莉; 谢林铮
Original assignee: Henan Nuoxin Tengda Electronic Technology Co ltd
Current assignee: Henan Nuoxin Tengda Electronic Technology Co ltd
Priority date: 2022-01-07
Filing date: 2022-01-07
Publication date: 2022-11-22
Anticipated expiration: 2042-01-07
Also published as: CN114346746A

Abstract

The invention relates to a numerical control center waste chip collecting device, which comprises an operating platform positioned in the center of a base of a numerical control center, wherein an outer guard plate is also arranged around the base, a rotatable first waste chip cleaning device is arranged at the lower side of the operating platform, the first waste chip cleaning device comprises a rotating sleeve, a fixed shifting plate and a telescopic shifting plate, the rotating sleeve is rotatably arranged at the lower side of the operating platform, the fixed shifting plate is fixedly connected with the rotating sleeve, one end of the telescopic shifting plate is arranged in the fixed shifting plate in a penetrating manner, the other end of the telescopic shifting plate is provided with a guide block, and the inner wall of the outer guard plate is provided with a guide clamping groove; according to the automatic waste chip collection device, the first waste chip cleaning device comprising the rotating sleeve, the fixed shifting plate and the telescopic shifting plate is arranged, when the rotating sleeve rotates, waste chips on the bottom plate between the outer protective plate and the operation platform 101 through the fixed shifting plate and the telescopic shifting plate are collected to the waste chip outlet and enter the waste chip box, and therefore automatic collection of the waste chips can be achieved; the sweeps case sets up in the outside of outer backplate, can clear up the sweeps case at any time.

Description

Numerical control center sweeps collection device

Technical Field

The invention relates to a numerical control price technology, in particular to a scrap collecting device of a numerical control center.

Background

The numerical control center is a numerical control machine tool which is most widely applied, has stronger comprehensive processing capacity, can finish more processing contents after a workpiece is clamped once, has higher processing precision, can process batch workpieces with medium processing difficulty, has the efficiency 5-10 times of that of common equipment, can finish processing which can not be finished by a plurality of common equipment, and is more suitable for single-piece processing or medium-small batch multi-variety production with more complex shapes and high precision requirements.

The numerical control center is protected by adopting a closed structure, and waste scraps are cleaned after processing is finished, for example, as disclosed in 'an intelligent numerical control center waste scrap collecting device convenient to clean' published in Chinese patent document CN109894919A, a chain ring is installed on the outer side of an operating platform, a driving seat is fixedly connected to the left side of the chain ring, a driven seat is slidably connected to the inside of the numerical control processing center, a connecting plate is movably connected to the right side of the driven seat through a clamping hook, an outer spring and an inner spring are installed between the connecting plate and the driving seat, a magnet is fixedly connected to the inside of a telescopic pipe, and a protective cover is fixedly connected to the top of the driving seat; spring layer staggered arrangement between outer spring and the inner spring constitutes a collection net, and inside is provided with magnet, but the adsorbed sweeps, strengthens collecting the effect, and the initiative seat is at the pivoted in-process, and the spring can all pass through once with the central region of numerical control machining center, does not exist and collects the dead angle, has collected the sweeps after, only needs to lift even board again after even board and the driven seat separation off even board, can take out the sweeps in the spring, and the clearance operation is also simple swift. In the scheme disclosed in the document, the sweeps are easy to be stuck in the spring to influence the clearing of the sweeps, and the use is inconvenient.

Disclosure of Invention

The invention aims to provide a numerical control center scrap collecting device which is simple to operate and convenient to use.

In order to solve the problems, the invention provides a numerical control center waste collecting device which comprises an operating platform located in the center of a base of a numerical control center, wherein an outer guard plate is further arranged around the base, a rotatable first waste cleaning device is arranged on the lower side of the operating platform, the first waste cleaning device comprises a rotating sleeve, a fixed shifting plate and a telescopic shifting plate, the rotating sleeve is rotatably arranged on the lower side of the operating platform, the fixed shifting plate is fixedly connected with the rotating sleeve, one end of the telescopic shifting plate penetrates through the fixed shifting plate and can stretch and slide in the fixed shifting plate, the other end of the telescopic shifting plate is provided with a guide block, a guide clamping groove matched with the guide block is formed in the inner wall of the outer guard plate, and when the fixed shifting plate rotates along with the rotating sleeve, the guide block slides in the guide clamping groove so that the other end of the telescopic shifting plate stretches and slides in the fixed shifting plate; still be equipped with the sweeps export on the outer casing, the outside of outer casing still be equipped with the sweeps case that the sweeps export corresponds, the accessible when rotating the cover and rotating fixed group board flexible group board will the outer casing sweeps between the operation panel collect extremely the sweeps case.

The numerical control center scrap collecting device provided by the invention also has the following technical characteristics:

further, the outline of base is the rectangle, the sweeps export set up in the middle part of the minor face of outer casing, the outer casing with still be equipped with second sweeps cleaning device between the operation panel, second sweeps cleaning device includes slide rail and electro-magnet, the outer casing with be equipped with between the operation panel and be located sweeps export upside the slide rail, the one end of slide rail with the outer edge of operation panel is fixed to link to each other, the other end of slide rail passes the outer casing extends to the sweeps case, the electro-magnet is installed the slide rail downside just can be followed the slide rail removes extremely the sweeps case.

Further, fixed group board with the lateral wall of rotating the cover is tangent, the corner of the shell of electro-magnet all is equipped with the fillet, fixed group board along rotate the cover rotate and with the electro-magnet can drive when conflicting the electro-magnet is followed the slide rail is to the sweeps export removes.

Furthermore, the inner wall of the outer guard plate is also provided with a ball groove positioned at the upper side of the guide clamping groove, a plurality of balls capable of moving in the ball groove are installed in the ball groove, and the sum of the diameters of the balls is greater than the length of the slide rail in the outer guard plate; an elastic deflector rod which extends downwards into the guide clamping groove is arranged on the ball at the head end, and the ball can be driven to move in the ball groove when the guide block in the guide clamping groove is abutted against the elastic deflector rod; a sliding groove is further formed in the sliding rail, one end, far away from the scrap box, of the electromagnet is fixedly connected with the ball at the tail end in the ball groove through a steel wire rope positioned in the sliding groove, and when the ball at the tail end in the ball groove moves towards the direction far away from the scrap outlet, the electromagnet can be driven to move towards the scrap box through the steel wire rope; when the telescopic shifting plate moves to the scrap outlet, the ball at the tail end moves to the tail end of the ball groove, the electromagnet can be moved to the scrap box outside the outer protective plate through the steel wire rope, and when the telescopic shifting plate continues to rotate along with the fixed shifting plate, the elastic shifting rod contracts upwards and is separated from the guide block, so that the telescopic shifting plate can continue to rotate.

Further, fixed dial be equipped with the flexible groove of dialling the board adaptation, the flexible one end of dialling the board is worn to establish flexible inslot, the flexible other end of dialling the board is equipped with the guide block, the guide block includes connecting rod, guide ball, the guide ball can slide in the guide slot so as to prevent the flexible tip of dialling the board breaks away from the outer casing.

Furthermore, the slide rail is also provided with an avoiding groove corresponding to the guide clamping groove and the ball groove.

Further, the slide rail still be equipped with in the spout and be located the guide bar of wire rope upside, wear to be equipped with reset spring on the guide bar, reset spring's one end is contradicted on the link plate of electro-magnet.

Furthermore, the link plate is kept away from the one end of sweeps export upwards the protrusion has vertical connecting plate, wire rope's tip with vertical connecting plate is fixed to be linked to each other, the upper end of vertical connecting plate be equipped with the perforation of guide bar adaptation, the guide bar is worn to establish in the perforation, reset spring's tip is contradicted on the vertical connecting plate.

The invention has the following beneficial effects: by arranging the first scrap cleaning device comprising the rotating sleeve, the fixed shifting plate and the telescopic shifting plate, when the rotating sleeve rotates, scraps on the bottom plate between the outer protective plate and the operation platform 101 through the fixed shifting plate and the telescopic shifting plate are collected to the scrap outlet and enter the scrap box, so that the automatic collection of the scraps can be realized; the sweeps case sets up in the outside of outer backplate, can clear up the sweeps case at any time.

Drawings

FIG. 1 is a schematic structural diagram of a scrap collecting device of a numerical control center according to an embodiment of the present invention;

FIG. 2 is a schematic view of another view of the scrap collecting device of the NC center in FIG. 1;

FIG. 3 is a schematic diagram of the internal structure of the scrap collecting device of the numerical control center in FIG. 1;

FIG. 4 is a schematic structural diagram of a first scrap cleaning apparatus in an embodiment of the present invention;

FIG. 5 is a partial cross-sectional view of an outer shroud in an embodiment of the present invention;

FIG. 6 is an enlarged view of a portion A of FIG. 5;

FIG. 7 is a partial cross-sectional view of an outer shroud in an embodiment of the present invention;

FIG. 8 is an enlarged partial view of portion B of FIG. 7;

FIG. 9 is a schematic structural diagram of a second scrap cleaning apparatus in an embodiment of the present invention;

FIG. 10 is a partial cross-sectional view of the second scrap removal device of FIG. 9;

fig. 11 is a partially enlarged view of a portion C in fig. 10.

Detailed Description

The invention will be described in detail hereinafter with reference to the accompanying drawings in conjunction with embodiments. It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

In the embodiment of the numerical control center waste collection device shown in fig. 1 to 11, the numerical control center waste collection device includes an operation table 101 located at the center of a base 100 of a numerical control center, an outer guard 102 is further disposed around the base 100, a rotatable first waste cleaning device 10 is mounted at the lower side of the operation table 101, the first waste cleaning device 10 includes a rotating sleeve 11, a fixed shifting plate 12 and a telescopic shifting plate 13, the rotating sleeve 11 is rotatably mounted at the lower side of the operation table 101, the fixed shifting plate 12 is fixedly connected with the rotating sleeve 11, one end of the telescopic shifting plate 13 is inserted into the fixed shifting plate 12 and can slide in the fixed shifting plate 12 in a telescopic manner, the other end of the telescopic shifting plate 13 is provided with a guide block 14, a guide slot 103 adapted to the guide block 14 is disposed on the inner wall of the outer guard 102, when the fixed shifting plate 12 rotates with the rotating sleeve 13, the guide block 14 slides in the guide slot 103 so that the other end of the telescopic shifting plate 13 rotates with the fixed shifting plate 12 and slides in the fixed shifting plate 12 in a telescopic manner; the outer guard plate 102 is further provided with a waste outlet 104, the outer side of the outer guard plate 102 is further provided with a waste box 105 corresponding to the waste outlet 104, and when the rotating sleeve 11 rotates, waste on the bottom plate 106 between the outer guard plate 102 and the operating platform 101 can be collected to the waste box 105 through the fixed shifting plate 12 and the telescopic shifting plate 13.

According to the waste chip collection device, the first waste chip cleaning device comprising the rotating sleeve, the fixed shifting plate and the telescopic shifting plate is arranged, the fixed shifting plate and the telescopic shifting plate can be driven to rotate on the inner side of the outer protection plate when the rotating sleeve rotates, waste chips on the bottom plate 106 between the outer protection plate 102 and the operation table 101 through the fixed shifting plate and the telescopic shifting plate are collected to the waste chip outlet 104 and enter the waste chip box 105 when the rotating sleeve rotates, and automatic collection of the waste chips can be realized through arranging the telescopic shifting plate which can telescopically slide relative to the fixed shifting plate; the sweeps case sets up in the outside of outer backplate, can clear up the sweeps case at any time. Preferably, a dust sink is provided on the bottom plate 106 adjacent to the dust outlet 104 and communicates with the dust tank 105, so that the dust collected at the dust outlet 104 can fall into the dust tank 105 through the dust sink.

In an embodiment of the present application, preferably, the outer contour of the base 100 is rectangular, the waste outlet 104 is disposed in the middle of the short side of the outer protective plate 102, the second waste cleaning device 20 is further disposed between the outer protective plate 102 and the operating platform 101, the second waste cleaning device 20 includes a sliding rail 21 and an electromagnet 22, a sliding rail 21 located on the upper side of the waste outlet 104 is disposed between the outer protective plate 102 and the operating platform 101, one end of the sliding rail 21 is fixedly connected to the outer edge of the operating platform 101, the other end of the sliding rail 21 penetrates through the outer protective plate 102 and extends to the waste bin 105, the electromagnet 22 is mounted on the lower side of the sliding rail 21 and can move to the waste bin 105 along the sliding rail 21, specifically, by disposing the second waste cleaning device, when the electromagnet 22 moves to the waste bin along the sliding rail 21, the electromagnet 22 can absorb waste on the bottom plate 106, after the electromagnet 22 enters the waste bin 105 along the waste outlet 104, the electromagnet 22 is de-energized to make the waste absorbed waste fall into the waste bin.

In an embodiment of the present application, preferably, the fixed dial plate 12 is tangent to the outer side wall of the rotating sleeve 11, the corners of the outer shell of the electromagnet 22 are provided with rounded corners, and the fixed dial plate 12 rotates with the rotating sleeve 11 and is abutted against the electromagnet 22, so that the electromagnet 22 can be driven to move along the sliding rail 21 to the scrap outlet 104; through setting up fixed group board 12 to be tangent with the lateral wall that rotates cover 11, can effectively avoid fixed group board 12 to rotate along with rotating cover 11 and appear the jamming when conflicting with electro-magnet 22, specifically speaking, as shown in fig. 3, wherein fixed group board 12, flexible group board 13 rotate along with rotating cover 11 to the position in fig. 3 the fixed position of dialling board 12 and be the initial position, at this initial position fixed group board 12 begin to conflict with the shell of electro-magnet 22 and drive electro-magnet 22 along slide rail 21 to sweeps export 104 and slide.

In an embodiment of the present application, preferably, a ball groove 107 located at an upper side of the guide slot 103 is further provided on an inner wall of the outer shield 102, a plurality of balls 30 movable in the ball groove 107 are installed in the ball groove 107, and a sum of diameters of the plurality of balls 30 is greater than a length of the slide rail 21 in the outer shield 102; the ball 30 at the head end is provided with an elastic deflector rod 31 which extends downwards into the guide clamping groove 103, and the ball 30 can be driven to move in the ball groove 107 when the guide block 14 in the guide clamping groove 103 is in contact with the elastic deflector rod 31; a sliding groove 201 is further arranged in the sliding rail 21, one end of the electromagnet 22, which is far away from the scrap box 105, is fixedly connected with a ball 30 at the tail end in the ball groove 107 through a steel wire rope 202 positioned in the sliding groove 201, and when the ball 30 at the tail end in the ball groove 107 moves towards the direction far away from the scrap outlet 104, the electromagnet 22 can be driven to move towards the scrap box 105 through the steel wire rope 202; when the retractable shifting plate 13 moves to the scrap outlet 104, the ball 30 at the end moves to the end of the ball groove 107 and can move the electromagnet 22 to the scrap box 105 outside the outer protective plate 102 through the steel wire rope 202, and when the retractable shifting plate 13 continues to rotate along with the fixed shifting plate 12, the elastic shifting rod 31 contracts upwards and is separated from the guide block 14, so that the retractable shifting plate 13 can continue to rotate.

In the above embodiment, specifically, when the fixed dial plate 12 and the retractable dial plate 13 rotate to the positions in fig. 3 along with the rotating sleeve 11, the position of the fixed dial plate 12 is an initial position, and at the initial position, the fixed dial plate 12 starts to abut against the housing of the electromagnet 22 and drives the electromagnet 22 to slide along the sliding rail 21 to the scrap outlet 104; in the position of the fixed dial plate 12 and the telescopic dial plate 13 shown in fig. 3, the guide block 14 at the end of the telescopic dial 13 starts to abut against the elastic dial 31 on the first-end ball 30, the telescopic dial plate 13 rotates with the fixed dial plate 12 and drives each ball 30 to slide in the ball groove 107 through the guide block 14 and the elastic dial 31, the ball 30 at the tail end slides in the ball groove 107 to drive the steel wire rope 202 to move, in the initial stage corresponding to the initial position, the fixed dial 12 drives the electromagnet 22 to move along the slide rail 21 at a speed greater than the moving speed of the ball 30, the steel wire rope 202 between the ball 30 at the tail end and the electromagnet 22 in the ball groove 107 is in a loose state, and the electromagnet 22 is driven by the fixed dial plate 12; the moving speed of the ball 30 is gradually increased along with the continuous rotation of the fixed sleeve 11 and the fixed shifting plate 12, when the moving speed of the ball 30 is greater than the moving speed of the electromagnet 22 along the slide rail 21 and the steel wire rope 202 is straightened, the ball 30 and the steel wire rope 202 drive the electromagnet 22 to move along the slide rail 21 and the electromagnet 22 is separated from the fixed shifting plate 12, namely, the fixed shifting plate 12 drives the electromagnet 22 to move along the slide rail 21 through the telescopic shifting plate 13, the guide block 14, the elastic shifting rod 31, the ball 30 and the steel wire rope 202 when rotating along with the rotating sleeve 11; when the fixed shifting plate 12 and the telescopic shifting plate 13 rotate to the lower side of the slide rail 21, since the sum of the diameters of the plurality of balls 30 is greater than the length of the slide rail 21 in the outer sheath 102, that is, the moving distance of the end of the steel wire rope is greater than the length of the slide rail 21 in the outer sheath 102, at this time, the electromagnet 22 passes through the scrap outlet 104 and enters the scrap box 105, the electromagnet 22 does not influence the fixed shifting plate 12 and the telescopic shifting plate 13 to rotate continuously, at this time, because the ball 30 at the tail end moves to the tail end of the ball groove 107, all the balls 30 in the ball groove 107 cannot move continuously, the rotating sleeve 11 and the fixed shifting plate 12 are driven by the power assembly to rotate continuously, and the elastic shifting rod 31 on the ball 30 at the head end is retracted upwards through the telescopic shifting plate 13 and the guide block 14, so that the elastic shifting rod 31 is separated from the guide block 14, the rotating sleeve 11 and the fixed shifting plate 12 can rotate continuously under the drive of the power assembly, and the waste scraps on the bottom plate 106 are cleaned and collected through the fixed shifting plate 12 and the telescopic shifting plate 13.

In an embodiment of the present application, preferably, a telescopic groove adapted to the telescopic moving plate 13 is formed on the fixed moving plate 12, one end of the telescopic moving plate 13 is inserted into the telescopic groove, a guide block 14 is formed at the other end of the telescopic moving plate 13, the guide block 14 includes a connecting rod 141 and a guide ball 142, and the guide ball 142 can slide in the guide slot 103 to prevent the end of the telescopic moving plate 13 from being separated from the outer shield 102.

In one embodiment of the present application, it is preferable that the slide rail 21 further has an avoiding groove 23 corresponding to the guide slot 103 and the ball groove 107, so that the slide rail 21 does not affect the movement of the ball 30 and the rotation of the retractable dial 13.

In an embodiment of the present application, preferably, a guide rod 24 located on an upper side of the steel wire rope 202 is further disposed in the sliding groove 201 of the sliding rail 21, a return spring 25 is disposed on the guide rod 24 in a penetrating manner, and one end of the return spring 25 abuts against the hanging plate 221 of the electromagnet 22; therefore, after the ball at the end moves to the end of the ball groove 107 and stops moving, so that the guide block 14 is separated from the elastic shift lever 31, the electromagnet 21 can move along the slide rail 21 to the operation table 101 to be reset under the action of the reset spring 25. Preferably, one end of the hanging plate 221, which is far away from the waste outlet 104, protrudes upwards to form a vertical connecting plate 222, the end of the steel wire rope 202 is fixedly connected with the vertical connecting plate 222, a through hole matched with the guide rod 24 is formed in the upper end of the vertical connecting plate 222, the guide rod 24 is arranged in the through hole in a penetrating manner, and the end of the return spring 25 abuts against the vertical connecting plate 222, so that the electromagnet 22 can reliably move to the operating table 101 for return.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims

1. A numerical control center waste chip collecting device comprises an operation table located at the center of a base of a numerical control center, and outer guard plates are further arranged around the base, and the numerical control center waste chip collecting device is characterized in that a first waste chip cleaning device capable of rotating is mounted on the lower side of the operation table, the first waste chip cleaning device comprises a rotating sleeve, a fixed shifting plate and a telescopic shifting plate, the rotating sleeve is rotatably mounted on the lower side of the operation table, the fixed shifting plate is fixedly connected with the rotating sleeve, one end of the telescopic shifting plate penetrates through the fixed shifting plate and can telescopically slide in the fixed shifting plate, the other end of the telescopic shifting plate is provided with a guide block, a guide clamping groove matched with the guide block is formed in the inner wall of the outer guard plate, and when the fixed shifting plate rotates along with the rotating sleeve, the guide block slides in the guide clamping groove to enable the other end of the telescopic shifting plate to telescopically slide in the fixed shifting plate; the outer guard plate is also provided with a waste scrap outlet, the outer side of the outer guard plate is also provided with a waste scrap box corresponding to the waste scrap outlet, and when the rotating sleeve rotates, waste scraps between the outer guard plate and the operating platform can be collected to the waste scrap box through the fixed shifting plate and the telescopic shifting plate; the outline of base is the rectangle, the sweeps export set up in the middle part of the minor face of outer casing, the outer casing with still be equipped with second sweeps cleaning device between the operation panel, second sweeps cleaning device includes slide rail and electro-magnet, the outer casing with be equipped with between the operation panel and be located sweeps export upside the slide rail, the one end of slide rail with the outer edge of operation panel is fixed to link to each other, the other end of slide rail passes the outer casing extends to the sweeps case, the electro-magnet is installed the slide rail downside just can be followed the slide rail removes extremely the sweeps case.

2. The numerical control center scrap collecting device according to claim 1, wherein: the fixed board of dialling with the lateral wall of rotating the cover is tangent, the corner of the shell of electro-magnet all is equipped with the fillet, fixed dial the board along rotate the cover rotate and with can drive when the electro-magnet is contradicted the electro-magnet is followed the slide rail to the sweeps export removes.

3. The numerical control center scrap collecting device according to claim 2, wherein: the inner wall of the outer guard plate is also provided with a ball groove positioned on the upper side of the guide clamping groove, a plurality of balls capable of moving in the ball groove are arranged in the ball groove, and the sum of the diameters of the balls is greater than the length of the slide rail in the outer guard plate; an elastic deflector rod which extends downwards into the guide clamping groove is arranged on the ball at the head end, and the ball can be driven to move in the ball groove when the guide block in the guide clamping groove is abutted against the elastic deflector rod; a sliding groove is further formed in the sliding rail, one end, far away from the scrap box, of the electromagnet is fixedly connected with the ball at the tail end in the ball groove through a steel wire rope positioned in the sliding groove, and the ball at the tail end in the ball groove can drive the electromagnet to move towards the scrap box through the steel wire rope when moving towards the direction far away from the scrap outlet; when the telescopic shifting plate moves to the scrap outlet, the ball at the tail end moves to the tail end of the ball groove, the electromagnet can be moved to the scrap box outside the outer protective plate through the steel wire rope, and when the telescopic shifting plate continues to rotate along with the fixed shifting plate, the elastic shifting rod contracts upwards and is separated from the guide block, so that the telescopic shifting plate can continue to rotate.

4. The numerical control center scrap collecting device according to claim 2, wherein: the fixed board of dialling be equipped with the flexible groove of dialling the board adaptation, the flexible one end of dialling the board is worn to establish flexible inslot, the flexible other end of dialling the board is equipped with the guide block, the guide block includes connecting rod, guide ball, the guide ball is in slide in the guide groove in order to prevent flexible group board's tip breaks away from the outer casing.

5. The numerical control center scrap collecting device according to claim 3, wherein: and the sliding rail is also provided with an avoidance groove corresponding to the guide clamping groove and the ball groove.

6. The numerical control center scrap collecting device according to claim 5, wherein: the slide rail still be equipped with in the spout and be located the guide bar of wire rope upside, wear to be equipped with reset spring on the guide bar, reset spring's one end is contradicted on the link plate of electro-magnet.

7. The numerical control center scrap collecting device according to claim 6, wherein: the link plate is kept away from the one end of sweeps export upwards the protrusion has vertical connecting plate, wire rope's tip with vertical connecting plate is fixed continuous, the upper end of vertical connecting plate be equipped with the perforation of guide bar adaptation, the guide bar is worn to establish in the perforation, reset spring's tip is contradicted on the vertical connecting plate.