CN221185706U - Transfer device capable of automatically feeding and discharging for machining - Google Patents

Abstract

The utility model relates to the technical field of machining, in particular to a transfer device capable of automatically feeding and discharging for machining, which comprises: machining the equipment body; the feeding box, the discharging box, the clamping part and the lubricating part; the beneficial effects are as follows: the material to be processed is placed through the feeding box, then the material to be processed is clamped to the processing area on the machining equipment body through the clamping component, then the material to be processed is processed, then the processed material in the processing area is placed into the discharging box through the clamping component, automatic feeding and discharging are achieved, the potential safety hazard of manual feeding and discharging is reduced, then the clamping component is clamped through the lubricating component, the working efficiency of the clamping component is improved, manual feeding and discharging are not needed, the processing efficiency is improved, and the transferring efficiency is improved.

Description

Transfer device capable of automatically feeding and discharging for machining

Technical Field

The utility model relates to the technical field of machining, in particular to a transfer device capable of automatically feeding and discharging for machining.

Background

Machining refers to the process of changing the external dimensions or properties of a workpiece by a mechanical device, and modern enterprises organize and guide production by using the principles and methods of system engineering, and the production process is regarded as a production system with input and output.

The existing machining can further process a large number of metal parts, the metal parts need to be input through a transfer device, and the metal parts are transferred and output through the transfer device after being processed.

And most of the mechanical processing transfer devices need to be used for manually feeding and discharging parts, when the parts are heavy, operators are easy to fatigue, so that the feeding and discharging efficiency is reduced, and further the transfer efficiency is reduced.

Disclosure of utility model

The utility model aims to provide a transfer device for machining, which can automatically feed and discharge materials, so as to solve the problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

can go up transfer device for machining of unloading automatically, include:

Machining the equipment body;

the feeding box is arranged on the mechanical processing equipment body, and one side of the feeding box is provided with an opening for placing materials to be processed;

the blanking box is arranged on the machining equipment body, and one side of the blanking box is provided with an opening for placing machined materials;

The clamping component is arranged on the machining equipment body and used for placing the materials to be machined in the feeding box into a machining area on the machining equipment body and placing the machined materials in the machining area into the discharging box;

And the lubricating part is arranged on the machining equipment body and is used for lubricating the clamping part.

Preferably, be provided with the material loading on the machining equipment body and keep off the frame, the material loading keeps off the frame and slides and be provided with the material loading fly leaf, and the one end of material loading fly leaf can shelter from the opening part of feed box, is provided with the material loading stopper on the material loading keeps off the frame for place a material of waiting to process, the bottom that the material loading kept off the frame is provided with the second electric telescopic handle, and one side that the material loading fly leaf is close to the second electric telescopic handle is provided with the material loading fixed plate, and the output and the material loading fixed plate of second electric telescopic handle are connected.

Preferably, the clamping part comprises a fixed support, an electric sliding rail, a first electric telescopic rod, a driving motor and an electric clamping jaw, wherein the fixed support is arranged on a machining equipment body, the electric sliding rail is arranged on the fixed support, the first electric telescopic rod is arranged on the electric sliding rail, the output end of the first electric telescopic rod is connected with a long plate, the driving motor is provided with two groups, the driving motor is respectively located at two ends of the long plate, the distance between the two groups of driving motors is the distance between a feeding box and a machining area or the distance between a discharging box and the machining area, the electric clamping jaw is arranged at the bottom of the driving motor, and the driving motor is used for controlling the opening or clamping of the electric clamping jaw.

Preferably, the lubrication component comprises a lubrication box, a lubrication plate, a lubrication sponge, an oil storage part and an oil outlet part, wherein the lubrication box is arranged on two sides of the electric sliding rail, lubricating oil is arranged in the lubrication box, the lubrication plate is arranged on two sides of the first electric telescopic rod, the lubrication sponge is arranged on one side of the corresponding electric sliding rail of the lubrication plate, the oil storage part is arranged in the lubrication plate and used for lubricating the lubrication sponge, and the oil outlet part is arranged on the lubrication box and used for guiding the lubricating oil in the lubrication box into the oil storage part.

Preferably, the oil storage part comprises an oil storage tank and a lubrication tank, the oil storage tank is arranged on the lubrication plate, the lubrication tank is arranged at the bottom of the oil storage tank, and the other end of the lubrication tank is communicated with the lubrication sponge.

Preferably, the oil outlet piece comprises an oil outlet pipe, a positioning hole, a through hole and a jacking piece, wherein the oil outlet pipe is arranged on one side, close to the lubricating plate, of the lubricating box, the positioning hole is formed in the position of the corresponding oil outlet pipe of the lubricating plate, the positioning hole is communicated with the oil storage tank, the through hole penetrates through the top of the oil outlet pipe and is used for enabling lubricating oil in the lubricating box to flow into the oil outlet pipe, and the jacking piece is used for jacking the oil outlet pipe and the through hole to extend out of the lubricating box.

Preferably, the jacking piece comprises a fixed plate, a baffle and a jacking spring, wherein the fixed plate is arranged in the lubrication box, the baffle is arranged on the fixed plate, the jacking spring is arranged between the oil outlet pipe and the baffle, one end of the jacking spring is connected with the baffle, and the other end of the jacking spring is connected with the oil outlet pipe.

Preferably, a sealing ring is arranged in the lubrication box and is used for being matched with the oil outlet pipe in a sealing way.

Preferably, the oil outlet pipe is internally provided with a leakage-proof ring at one side far away from the jacking spring, and the inner wall of the leakage-proof ring is in a circular truncated cone shape.

Compared with the prior art, the utility model has the beneficial effects that:

According to the utility model, the material to be processed is placed through the feeding box, then the material to be processed is clamped to the processing area on the mechanical processing equipment body through the clamping component, further the material to be processed is processed, then the processed material in the processing area is placed into the discharging box through the clamping component, automatic feeding and discharging are realized, the potential safety hazard of manual feeding and discharging is reduced, then the clamping component is clamped through the lubricating component, the working efficiency of the clamping component is improved, the manual feeding and discharging are not needed, the processing efficiency is improved, and the transferring efficiency is improved.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic perspective view of a front view of a loading box;

FIG. 3 is a schematic rear view of a cartridge;

FIG. 4 is a schematic perspective view of an electric slide rail and a lubrication box;

FIG. 5 is a schematic perspective view of a first electric telescopic rod;

FIG. 6 is a schematic cross-sectional perspective view of a lubricating plate;

FIG. 7 is an enlarged schematic view of the structure of FIG. 6 at A;

FIG. 8 is a schematic cross-sectional view of a flowline.

In the figure: machining equipment body 1, fixed bolster 2, material loading box 3, unloading box 4, electronic slide rail 5, driving motor 6, electronic clamping jaw 7, first electric telescopic handle 8, wait to process material 9, lubrication box 10, material loading fender frame 12, material loading stopper 13, material loading fly leaf 14, second electric telescopic handle 15, material loading fixed plate 16, after-processing material 17, lubrication plate 18, locating hole 19, lubrication sponge 20, lubrication groove 21, oil storage tank 22, leak protection ring 23, fixed plate 24, baffle 25, top hold spring 26, sealing washer 27, through-hole 28, oil pipe 29.

Detailed Description

In order to more clearly illustrate the general inventive concept, reference will be made in the following detailed description, by way of example, to the accompanying drawings.

It should be noted that in the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, but that the present utility model may be practiced otherwise than as described herein, and therefore the scope of the present utility model is not limited by the specific embodiments disclosed below.

In addition, in the description of the present utility model, it should be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

In the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. However, it is noted that a direct connection indicates that two bodies connected together do not form a connection relationship by an excessive structure, but are connected to form a whole by a connection structure. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In the present utility model, unless expressly stated or limited otherwise, a first feature "up" or "down" a second feature may be the first and second features in direct contact, or the first and second features in indirect contact via an intervening medium. In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present utility model. In this specification, schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Embodiment one:

Referring to fig. 1 to 8, the present utility model provides a technical solution: can go up transfer device for machining of unloading automatically, include: a machining apparatus body 1; the feeding box 3 is arranged on the machining equipment body 1, and one side of the feeding box is provided with an opening for placing a material 9 to be machined; the blanking box 4 is arranged on the machining equipment body 1, and one side of the blanking box is provided with an opening for placing the machined material 17; the clamping part is arranged on the machining equipment body 1 and is used for placing the material 9 to be machined in the feeding box 3 into a machining area on the machining equipment body 1 and placing the machined material 17 in the machining area into the discharging box 4; and a lubrication member provided on the machining apparatus body 1 for lubricating the clamping member.

Placing the material 9 of waiting to process through material loading box 3, then will wait to process the material 9 centre gripping to the processing district on the machining equipment body 1 through the clamping part, and then will wait to process the material 9 processing, then in the unloading box 4 was put into to the material 17 after the processing in the rethread clamping part will processing district, realize automatic unloading, need not artifical unloading, improve machining efficiency to the potential safety hazard of artifical unloading has been reduced, then to the clamping part through lubricated part, improve the work efficiency of clamping part.

Embodiment two:

as shown in fig. 2-3, the automatic feeding and discharging transfer device disclosed in the second embodiment of the present utility model has a structure substantially the same as that of the first embodiment, and is different in that a feeding blocking frame 12 is provided on the machining device body 1, a feeding movable plate 14 is slidably provided on the feeding blocking frame 12, one end of the feeding movable plate 14 can block an opening of the feeding box 3, a feeding limiting block 13 is provided on the feeding blocking frame 12, for placing a material 9 to be machined, a second electric telescopic rod 15 is provided at the bottom of the feeding blocking frame 12, a feeding fixed plate 16 is provided on one side of the feeding movable plate 14 close to the second electric telescopic rod 15, and an output end of the second electric telescopic rod 15 is connected with the feeding fixed plate 16.

The clamping part includes fixed bolster 2, electronic slide rail 5, first electric telescopic handle 8, driving motor 6 and electronic clamping jaw 7, fixed bolster 2 sets up on machining equipment body 1, electronic slide rail 5 sets up on fixed bolster 2, first electric telescopic handle 8 sets up on electronic slide rail 5, the output of first electric telescopic handle 8 is connected with the longeron, driving motor 6 is provided with two sets of, be located the both ends of longeron respectively, and the interval of two sets of driving motor 6 is the interval of last magazine 3 to the processing district or the interval of unloading magazine 4 to the processing district, electronic clamping jaw 7 sets up in driving motor 6's bottom, driving motor 6 is used for opening or pressing from both sides of control electric clamping jaw 7.

The feeding fixed plate 16 and the feeding movable plate 14 are driven to move downwards through the second electric telescopic rod 15, shielding of the feeding movable plate 14 to the feeding box 3 is canceled, then the material 9 to be processed in the feeding box 3 falls into the feeding limiting block 13, the feeding limiting block 13 can fall into the material 9 to be processed once, then the feeding fixed plate 16 and the feeding movable plate 14 are driven to move upwards through the second electric telescopic rod 15, the feeding movable plate 14 shields the feeding box 3, one material 9 to be processed is taken out once, then the first electric telescopic rod 8 drives the driving motor 6 to move downwards, at the moment, a group of driving motors 6 are located above the material 9 to be processed, a group of driving motors 6 are located above the material 17 to be processed in a processing area, then the driving motor 6 above the material 9 to be processed controls the electric clamping jaw 7 to clamp the material 9, then the electric clamping jaw 7 controls the clamping of the material 17 to be processed, the electric sliding rail 5 drives the first electric telescopic rod 8 to move, the material 9 to be processed is located above the material 9 to be processed in the processing area, the material 4 falls into the processing area after the electric clamping jaw 7 is controlled to fall into the material 17, and then the material processing efficiency is improved when the material is processed in the processing area is clamped by the electric clamping jaw 7.

Embodiment III:

As shown in fig. 4 to 8, the automatic loading and unloading transfer device for machining disclosed in the third embodiment of the present utility model has substantially the same structure as that of the second embodiment, and is different in that the electric slide rail 5 is lubricated, the lubrication means includes a lubrication box 10, a lubrication plate 18, a lubrication sponge 20, an oil storage member and an oil discharge member, the lubrication box 10 is disposed on both sides of the electric slide rail 5, the lubrication box 10 is provided with lubricating oil therein, the lubrication plate 18 is disposed on both sides of the first electric telescopic rod 8, the lubrication sponge 20 is disposed on one side of the lubrication plate 18 corresponding to the electric slide rail 5, the oil storage member is disposed in the lubrication plate 18 for lubricating the lubrication sponge 20, the oil discharge member is disposed on the lubrication box 10 for introducing the lubricating oil in the lubrication box 10 into the oil storage member; the oil storage part comprises an oil storage groove 22 and a lubrication groove 21, wherein the oil storage groove 22 is formed in the lubrication plate 18, the lubrication groove 21 is formed in the bottom of the oil storage groove 22, and the other end of the lubrication groove 21 is communicated with the lubrication sponge 20.

The oil outlet piece comprises an oil outlet pipe 29, a positioning hole 19, a through hole 28 and a propping piece, wherein the oil outlet pipe 29 is arranged on one side of the lubrication box 10 close to the lubrication plate 18, the positioning hole 19 is arranged at the position of the lubrication plate 18 corresponding to the oil outlet pipe 29, the positioning hole 19 is communicated with the oil storage tank 22, the through hole 28 penetrates through the top of the oil outlet pipe 29 and is used for enabling lubricating oil in the lubrication box 10 to flow into the oil outlet pipe 29, and the propping piece is used for propping the oil outlet pipe 29 and the through hole 28 to extend out of the lubrication box 10; the jacking piece comprises a fixed plate 24, a baffle plate 25 and a jacking spring 26, wherein the fixed plate 24 is arranged in the lubrication box 10, the baffle plate 25 is arranged on the fixed plate 24, the jacking spring 26 is arranged between the oil outlet pipe 29 and the baffle plate 25, one end of the jacking spring 26 is connected with the baffle plate 25, and the other end is connected with the oil outlet pipe 29; a sealing ring 27 is arranged in the lubrication box 10 and is used for being matched with an oil outlet pipe 29 in a sealing way; the oil outlet pipe 29 is provided with a leak-proof ring 23 at one side far away from the supporting spring 26, and the inner wall of the leak-proof ring 23 is in a round table shape.

The first electric telescopic rod 8 is driven to move towards the lubrication box 10 through the electric sliding rail 5, the lubrication plate 18 moves towards the lubrication box 10 at the moment, then the oil outlet pipe 29 stretches into the positioning hole 19, when the oil outlet pipe 29 abuts against the bottom of the positioning hole 19, the lubrication plate 18 continues to move so as to push the oil outlet pipe 29 to move towards the supporting spring 26, at the moment, the through hole 28 enters the lubrication box 10, and then lubricating oil in the lubrication box 10 flows into the oil outlet pipe 29 through the through hole 28 and then flows into the oil storage tank 22, the lubricating oil in the oil storage tank 22 flows into the lubrication sponge 20 through the lubrication groove 21, and when the lubrication plate 18 moves, the lubrication sponge 20 moves away from the lubrication box 10, the lubrication plate 18 moves away from the lubrication box 10 when the electric sliding rail 5 drives the first electric telescopic rod 8, the supporting spring 26 abuts against the oil outlet pipe 29 to stretch out of the lubrication box 10, at the moment, the through hole 28 is separated from the lubrication box 10, oil outlet is stopped, and the leakage of the lubricating oil in the oil outlet pipe 29 can be prevented by the leakage-proof ring 23, the lubrication efficiency is ensured, and the work stability of the electric sliding rail 5 is ensured.

The scheme is specifically as follows:

The feeding fixed plate 16 and the feeding movable plate 14 are driven to move downwards through the second electric telescopic rod 15, shielding of the feeding movable plate 14 to the feeding box 3 is canceled, then the material 9 to be processed in the feeding box 3 falls into the feeding limiting block 13, the feeding limiting block 13 can fall into the material 9 to be processed once, then the feeding fixed plate 16 and the feeding movable plate 14 are driven to move upwards through the second electric telescopic rod 15, the feeding movable plate 14 shields the feeding box 3, one material 9 to be processed is taken out once, then the first electric telescopic rod 8 drives the driving motor 6 to move downwards, at the moment, a group of driving motors 6 are located above the material 9 to be processed, a group of driving motors 6 are located above the material 17 to be processed in a processing area, then the driving motor 6 above the material 9 to be processed controls the electric clamping jaw 7 to clamp the material 9, then the electric clamping jaw 7 controls the clamping of the material 17 to be processed, the electric sliding rail 5 drives the first electric telescopic rod 8 to move, the material 9 to be processed is located above the material 9 to be processed in the processing area, the material 4 falls into the processing area after the electric clamping jaw 7 is controlled to fall into the material 17, and then the material processing efficiency is improved when the material is processed in the processing area is clamped by the electric clamping jaw 7.

The first electric telescopic rod 8 is driven to move towards the lubrication box 10 through the electric sliding rail 5, the lubrication plate 18 moves towards the lubrication box 10 at the moment, then the oil outlet pipe 29 stretches into the positioning hole 19, when the oil outlet pipe 29 abuts against the bottom of the positioning hole 19, the lubrication plate 18 continues to move so as to push the oil outlet pipe 29 to move towards the supporting spring 26, at the moment, the through hole 28 enters the lubrication box 10, and then lubricating oil in the lubrication box 10 flows into the oil outlet pipe 29 through the through hole 28 and then flows into the oil storage tank 22, the lubricating oil in the oil storage tank 22 flows into the lubrication sponge 20 through the lubrication groove 21, and when the lubrication plate 18 moves, the lubrication sponge 20 moves away from the lubrication box 10, the lubrication plate 18 moves away from the lubrication box 10 when the electric sliding rail 5 drives the first electric telescopic rod 8, the supporting spring 26 abuts against the oil outlet pipe 29 to stretch out of the lubrication box 10, at the moment, the through hole 28 is separated from the lubrication box 10, oil outlet is stopped, and the leakage of the lubricating oil in the oil outlet pipe 29 can be prevented by the leakage-proof ring 23, the lubrication efficiency is ensured, and the work stability of the electric sliding rail 5 is ensured.

Those of ordinary skill in the art will appreciate that: the discussion of any of the embodiments above is merely exemplary and is not intended to suggest that the scope of the utility model (including the claims) is limited to these examples; the technical features of the above embodiments or in the different embodiments may also be combined within the idea of the utility model, the steps may be implemented in any order and there are many other variations of the different aspects of the utility model as described above, which are not provided in detail for the sake of brevity.

The present utility model is intended to embrace all such alternatives, modifications and variances which fall within the broad scope of the appended claims. Therefore, any omission, modification, equivalent replacement, improvement, etc. of the present utility model should be included in the scope of the present utility model.

Claims (9)

1. Can go up transfer device for machining of unloading automatically, its characterized in that includes:

A machining device body (1);

The feeding box (3) is arranged on the machining equipment body (1), and one side of the feeding box is provided with an opening for placing a material (9) to be machined;

The blanking box (4) is arranged on the machining equipment body (1), and one side of the blanking box is provided with an opening for placing the machined material (17);

the clamping component is arranged on the machining equipment body (1) and is used for placing the material (9) to be machined in the feeding box (3) into a machining area on the machining equipment body (1) and placing the machined material (17) in the machining area into the discharging box (4);

and the lubricating part is arranged on the machining equipment body (1) and is used for lubricating the clamping part.

2. The transfer device for automatic feeding and discharging machining according to claim 1, wherein a feeding baffle frame (12) is arranged on the machining equipment body (1), a feeding movable plate (14) is arranged on the feeding baffle frame (12) in a sliding manner, one end of the feeding movable plate (14) can shield an opening of the feeding box (3), a feeding limiting block (13) is arranged on the feeding baffle frame (12) and used for placing a material (9) to be machined, a second electric telescopic rod (15) is arranged at the bottom of the feeding baffle frame (12), a feeding fixed plate (16) is arranged on one side, close to the second electric telescopic rod (15), of the feeding movable plate (14), and the output end of the second electric telescopic rod (15) is connected with the feeding fixed plate (16).

3. The transfer device for automatic feeding and discharging machining according to claim 2, wherein the clamping component comprises a fixed support (2), an electric sliding rail (5), a first electric telescopic rod (8), a driving motor (6) and an electric clamping jaw (7), the fixed support (2) is arranged on the machining equipment body (1), the electric sliding rail (5) is arranged on the fixed support (2), the first electric telescopic rod (8) is arranged on the electric sliding rail (5), the output end of the first electric telescopic rod (8) is connected with a long plate, the driving motor (6) is provided with two groups which are respectively arranged at two ends of the long plate, the distance between the two groups of driving motors (6) is the distance between the feeding box (3) and the machining area or the distance between the discharging box (4) and the machining area, the electric clamping jaw (7) is arranged at the bottom of the driving motor (6), and the driving motor (6) is used for controlling the opening or clamping of the electric clamping jaw (7).

4. A transfer device for automatic feeding and discharging machining according to claim 3, wherein the lubrication means comprises a lubrication box (10), a lubrication plate (18), a lubrication sponge (20), an oil storage part and an oil discharge part, the lubrication box (10) is arranged on both sides of the electric slide rail (5), the lubrication box (10) is internally provided with lubricating oil, the lubrication plate (18) is arranged on both sides of the first electric telescopic rod (8), the lubrication sponge (20) is arranged on one side of the lubrication plate (18) corresponding to the electric slide rail (5), the oil storage part is arranged in the lubrication plate (18) for lubricating the lubrication sponge (20), and the oil discharge part is arranged on the lubrication box (10) for guiding the lubricating oil in the lubrication box (10) into the oil storage part.

5. The transfer device for automatic feeding and discharging machining according to claim 4, wherein the oil storage part comprises an oil storage tank (22) and a lubrication tank (21), the oil storage tank (22) is arranged on the lubrication plate (18), the lubrication tank (21) is arranged at the bottom of the oil storage tank (22), and the other end of the lubrication tank (21) is communicated with the lubrication sponge (20).

6. The transfer device for automatic feeding and discharging machining according to claim 5, wherein the oil outlet piece comprises an oil outlet pipe (29), a positioning hole (19), a through hole (28) and a jacking piece, the oil outlet pipe (29) is arranged on one side, close to the lubricating plate (18), of the lubricating box (10), the positioning hole (19) is formed in the position, corresponding to the oil outlet pipe (29), of the lubricating plate (18), the positioning hole (19) is communicated with the oil storage tank (22), the through hole (28) penetrates through the top of the oil outlet pipe (29) and is used for enabling lubricating oil in the lubricating box (10) to flow into the oil outlet pipe (29), and the jacking piece is used for jacking the oil outlet pipe (29) and the through hole (28) to extend out of the lubricating box (10).

7. The transfer device for automatic feeding and discharging machining according to claim 6, wherein the jacking piece comprises a fixed plate (24), a baffle plate (25) and a jacking spring (26), the fixed plate (24) is arranged in the lubrication box (10), the baffle plate (25) is arranged on the fixed plate (24), the jacking spring (26) is arranged between the oil outlet pipe (29) and the baffle plate (25), one end of the jacking spring (26) is connected with the baffle plate (25), and the other end of the jacking spring is connected with the oil outlet pipe (29).

8. The automatic feeding and discharging transfer device for machining according to claim 7, wherein a sealing ring (27) is arranged in the lubrication box (10) and is used for being in sealing fit with an oil outlet pipe (29).

9. The transfer device for automatic feeding and discharging machining according to claim 8, wherein a leakage-proof ring (23) is provided in the oil outlet pipe (29) at a side far from the supporting spring (26), and an inner wall of the leakage-proof ring (23) is in a shape of a circular truncated cone.