CN220347652U - Upper cover refuels equipment mechanism - Google Patents

Abstract

The utility model relates to the field of machining of upper covers of synchronous reboundes, in particular to an upper cover oiling assembly mechanism. Technical problems: in the assembly process of the upper cover assembly mechanism, the upper cover is firstly arranged on the base, and the problem that the staff is difficult to detect the grease entering the synchronous rebound device when the upper cover is refueled. The technical scheme is as follows: the utility model provides an upper cover refuels equipment mechanism, includes material loading subassembly, removal subassembly, refuels subassembly, rotates adjusting part, upset subassembly and transfer subassembly. According to the utility model, the oiling structure is arranged to replace the original post oiling structure, and the upper cover of the synchronous rebound device which is turned over is oiled, so that a worker can fully observe the oiling amount, and the problem that the worker is difficult to detect grease entering the synchronous rebound device when the upper cover is oiled because the upper cover is firstly arranged on the base in the assembling process of the upper cover assembling mechanism is solved.

Description

Upper cover refuels equipment mechanism

Technical Field

The utility model relates to the field of machining of upper covers of synchronous reboundes, in particular to an upper cover oiling assembly mechanism.

Background

The synchronous rebound device is an elastic connecting piece, is commonly used for a hidden sliding rail, stores energy when the hidden sliding rail is closed by pressing the synchronous rebound device, and leaves a space for pressing and unlocking, and the drawer and other drawing furniture is unlocked and rebounded by pressing the drawer, so that the drawing furniture can be automatically sprung out, and when the synchronous rebound device is produced, a plurality of parts of the synchronous rebound device are spliced together, wherein an upper cover of the synchronous rebound device can be an important part of a plurality of parts of the synchronous rebound device, the upper cover of the traditional synchronous rebound device is mainly formed by directly installing the upper cover on a base of the synchronous rebound device through an upper cover assembling mechanism, and oiling treatment is carried out on the whole synchronous rebound device, but because after the assembly is completed, oiling operation is carried out, a worker can not observe the capacity of grease entering the synchronous rebound device easily, and the production efficiency of the whole synchronous rebound device is influenced.

Disclosure of Invention

In order to overcome the problem that in the assembly process of the upper cover assembly mechanism, the upper cover is firstly arranged on the base, and the problem that the grease entering the synchronous rebound device is difficult to detect by a worker when the upper cover assembly mechanism is refueled is solved.

The technical scheme of the utility model is as follows: the upper cover oiling assembly mechanism comprises a feeding assembly, a moving assembly, an oiling assembly, a rotation adjusting assembly, a turnover assembly and a transfer assembly; the front end of the feeding component is provided with a moving component; the rear end of the movable assembly is provided with a refueling assembly for refueling the upper cover; one side of the oiling component is provided with a turnover component for turning over the upper cover; the front end of the overturning component is provided with a transfer component for transferring the upper cover; one side of the middle rotating component is provided with a rotating adjusting component.

Preferably, a large number of synchronous rebound device upper covers are moved through the feeding assembly, the synchronous rebound device upper covers are placed on the rotation adjusting assembly through the moving assembly, the synchronous rebound device upper covers are refueled through the refueled assembly, the refueled synchronous rebound device upper covers are overturned through the overturning assembly, the processed synchronous rebound device upper covers are moved to the transferring assembly, and therefore the synchronous rebound device upper covers are stored.

Preferably, the feeding assembly comprises a material accumulation block, a fixed seat, a feeding frame, a connecting sheet, a sliding frame, a meshing box, a stepping motor, a travelling roller, a fixed plate and a mounting frame; a fixed seat is arranged at the lower end of the accumulation block; the front end of the fixed seat is provided with a feeding frame; connecting sheets are arranged on two sides of the feeding frame; a sliding frame is arranged at one side of the feeding frame; a meshing box is arranged on one side of the sliding frame; a stepping motor is arranged at one side of the meshing box; the rear end of the stepping motor is provided with a travelling roller; the front end of the feeding frame is provided with a fixed plate; the mounting frame is installed to the fixed plate lower extreme, when needs carry synchronous rebound ware upper cover, can drive the roller of marcing through step motor and rotate, makes the carriage that compresses tightly on synchronous rebound ware can drive a large amount of synchronous rebound ware upper covers and remove.

Preferably, the moving assembly comprises a material moving frame, a first air cylinder, a first sliding block, a second air cylinder, a lifting block and a first electric clamping jaw; the upper end of the fixed plate is provided with a material moving frame; a first cylinder is arranged on the material moving frame; a first sliding block is arranged on one side of the first air cylinder; the first sliding block is provided with a second cylinder; the lower end of the second cylinder is provided with a lifting block; the first electric clamping jaw is arranged at the rear end of the lifting block, when the upper cover of the multi-synchronous rebound device is required to move, the first sliding block can be driven to move through the first air cylinder, and the lifting block is driven to move through the second air cylinder, so that the first electric clamping jaw on the lifting block can grab and move the upper cover of the synchronous rebound device.

Preferably, the oiling component comprises a connecting seat, a third cylinder, a second sliding block, a fourth cylinder, a fixed needle cylinder and an oil brush; the rear end of the first electric clamping jaw is provided with a connecting seat; a third cylinder is arranged on the connecting seat; the front end of the third cylinder is provided with a second sliding block; a fourth cylinder is arranged on one side of the second sliding block; the fourth cylinder is provided with a fixed needle cylinder; the front end of the fixed needle cylinder is provided with an oil brush, and when the upper cover of the synchronous rebound device is required to be refueled, an oil body can be added on the upper cover of the synchronous rebound device through the fixed needle cylinder and the oil brush.

Preferably, the rotation adjusting assembly comprises a driving motor, a rotating wheel, a connecting plate, a cam divider, a rotating disc, a first mounting seat and a second mounting seat; the cam divider is arranged on the fixed plate; the lower end of the cam divider is provided with a connecting plate; the rear end of the connecting plate is provided with a driving motor; the front end of the driving motor is rotationally connected with a rotating wheel through a rotating shaft; the rotating wheel is connected with the cam divider through a conveyor belt; the upper end of the cam divider is provided with a rotating disc; the upper end of the rotating disc is provided with a plurality of first mounting seats; a plurality of second mount pads are installed in the first mount pad outside, when needs are processed a large amount of synchronous bounce-back ware upper covers, can rotate through driving motor drive rotation wheel to make the cam divider drive the rolling disc and rotate through the conveyer belt, in order to realize the rotation regulation to the rolling disc.

Preferably, the overturning assembly comprises a combined seat, a fifth cylinder, a third sliding block, a revolving cylinder and a second electric clamping jaw; a combined seat is arranged at one side of the fixed needle cylinder; a fifth cylinder is arranged on the combined seat; a third sliding block is arranged at the lower end of the fifth cylinder; the lower end of the third sliding block is provided with a rotary cylinder; the front end of the rotary cylinder is provided with a second electric clamping jaw, and when the synchronous rebound device upper cover is required to rotate, the synchronous rebound device upper cover can be overturned by driving the second electric clamping jaw to rotate through the rotary cylinder.

Preferably, the transfer assembly comprises a transfer frame and a transfer seat; the front end of the combined seat is provided with a middle rotating frame; the upper end of the middle rotating frame is provided with a middle rotating seat, and the shell of the synchronous rebound device after overturning and oiling can be placed through the middle rotating seat

For example, there are many components, which are mentioned only; there is no analysis with no logic.

1. The oiling structure is arranged to replace the original post oiling structure, and the upper cover of the synchronous rebound device which is turned over is oiled, so that a worker can fully observe the oiling amount, and the problem that the worker is difficult to detect the oil body entering the synchronous rebound device when the upper cover is oiled because the upper cover is firstly arranged on the lower cover in the assembling process of the upper cover assembling mechanism is solved;

2. the upper cover of the synchronous rebound device is refueled through the fixed needle cylinder and the oil brush, so that an oil body can be added in the upper cover of the synchronous rebound device in advance, the upper cover of the synchronous rebound device can be directly arranged on the lower cover of the synchronous rebound device, and the working efficiency of the whole upper cover refueled assembly mechanism can be improved to a certain extent;

3. the rotating disc fixed on the cam divider is driven to rotate by the driving motor to rotate by the rotating wheel, so that the upper cover of the synchronous rebound device can be processed in a rotating mode, the effect of reducing the occupied area is achieved, and the convenience in use of the whole upper cover oiling assembly mechanism can be improved to a certain extent.

Drawings

FIG. 1 shows a first perspective view of the cap fuel assembly mechanism of the present utility model;

FIG. 2 is a schematic view showing a partial perspective construction of the cap up refueling assembly mechanism of the present utility model;

FIG. 3 shows a second perspective view of the cap fuel assembly mechanism of the present utility model;

fig. 4 shows a third perspective view of the cap fuel assembly mechanism of the present utility model.

Reference numerals illustrate: the feeding device comprises a 1-feeding assembly, a 2-moving assembly, a 3-oiling assembly, a 4-rotation adjusting assembly, a 5-overturning assembly, a 6-transit assembly, a 101-accumulation block, a 102-fixed seat, a 103-feeding frame, a 104-connecting sheet, a 105-sliding frame, a 106-meshing box, a 107-stepping motor, a 108-traveling roller, a 109-fixed plate, a 110-mounting frame, a 201-moving frame, a 202-first cylinder, a 203-first sliding block, a 204-second cylinder, a 205-lifting block, a 206-first electric clamping jaw, a 301-connecting seat, a 302-third cylinder, a 303-second sliding block, a 304-fourth cylinder, a 305-fixed cylinder, a 306-brush, a 401-driving motor, a 402-rotating wheel, a 403-connecting plate, a 404-cam divider, a 405-rotating disc, a 406-first mounting seat, a 407-second mounting seat, a 501-combining seat, a 502-fifth cylinder, a 503-third sliding block, a 504-rotating cylinder, a 505-second electric clamping jaw, a 601-middle rotating frame and 602-rotating clamp.

Detailed Description

The utility model is further described below with reference to the drawings and examples.

Referring to fig. 1-2, the present utility model provides an embodiment: the upper cover oiling assembly mechanism comprises a feeding assembly 1, a moving assembly 2, an oiling assembly 3, a rotation adjusting assembly 4, a turnover assembly 5 and a transfer assembly 6; the front end of the feeding component 1 is provided with a moving component 2; the rear end of the movable assembly 2 is provided with a oiling assembly 3 for oiling the upper cover; one side of the oiling component 3 is provided with a turnover component 5 for turning over the upper cover; the front end of the overturning component 5 is provided with a transferring component 6 for transferring the upper cover; one side of the transfer assembly 6 is provided with a rotation adjusting assembly 4, and the feeding assembly 1 comprises a material accumulation block 101, a fixed seat 102, a feeding frame 103, a connecting sheet 104, a sliding frame 105, a meshing box 106, a stepping motor 107, a travelling roller 108, a fixed plate 109 and a mounting frame 110; a fixed seat 102 is arranged at the lower end of the accumulation block 101; the front end of the fixed seat 102 is provided with a feeding frame 103; connecting sheets 104 are arranged on two sides of the feeding frame 103; a sliding frame 105 is arranged on one side of the feeding frame 103; an engagement box 106 is arranged on one side of the sliding frame 105; a stepping motor 107 is arranged on one side of the meshing box 106; the rear end of the stepping motor 107 is provided with a traveling roller 108; the front end of the feeding frame 103 is provided with a fixing plate 109; the lower end of the fixed plate 109 is provided with a mounting frame 110, when the synchronous rebound device upper cover is required to be conveyed, the travelling roller 108 can be driven to rotate by the stepping motor 107, so that the sliding frame 105 pressed on the synchronous rebound device can drive a large number of synchronous rebound device upper covers to move, and the rotation adjusting assembly 4 comprises a driving motor 401, a rotating wheel 402, a connecting plate 403, a cam divider 404, a rotating disc 405, a first mounting seat 406 and a second mounting seat 407; the fixed plate 109 is mounted with a cam divider 404; the lower end of the cam divider 404 is provided with a connecting plate 403; the rear end of the connecting plate 403 is provided with a driving motor 401; the front end of the driving motor 401 is rotatably connected with a rotating wheel 402 through a rotating shaft; the rotating wheel 402 is connected with the cam divider 404 through a conveyor belt; a rotating disc 405 is arranged at the upper end of the cam divider 404; a plurality of first mounting seats 406 are mounted on the upper end of the rotating disc 405; a plurality of second mounting seats 407 are arranged on the outer side of the first mounting seat 406, when a large number of synchronous rebound device upper covers are required to be processed, the rotating wheels 402 can be driven to rotate through the driving motor 401, so that the cam divider 404 drives the rotating disc 405 to rotate through the conveying belt, the rotating adjustment of the rotating disc 405 is realized, and the overturning assembly 5 comprises a combined seat 501, a fifth cylinder 502, a third sliding block 503, a rotary cylinder 504 and a second electric clamping jaw 505; a combined seat 501 is arranged on one side of the fixed needle cylinder 305; a fifth cylinder 502 is mounted on the combined seat 501; a third sliding block 503 is arranged at the lower end of the fifth cylinder 502; a revolving cylinder 504 is arranged at the lower end of the third sliding block 503; the front end of the rotary cylinder 504 is provided with a second electric clamping jaw 505, when the synchronous rebound device upper cover is required to rotate, the rotary cylinder 504 can drive the second electric clamping jaw 505 to rotate so as to realize the overturning of the synchronous rebound device upper cover, and the transfer assembly 6 comprises a transfer frame 601 and a transfer seat 602; the front end of the combined seat 501 is provided with a transfer frame 601; the upper end of the middle rotating frame 601 is provided with a middle rotating seat 602, and a synchronous rebound device shell after overturning and oiling can be placed through the middle rotating seat 602.

Referring to fig. 3 to 4, in the present embodiment, the moving assembly 2 includes a material moving frame 201, a first cylinder 202, a first sliding block 203, a second cylinder 204, a lifting block 205 and a first electric clamping jaw 206; a material moving frame 201 is arranged at the upper end of the fixed plate 109; a first cylinder 202 is arranged on the material moving frame 201; a first sliding block 203 is arranged on one side of the first cylinder 202; the first sliding block 203 is provided with a second cylinder 204; a lifting block 205 is arranged at the lower end of the second cylinder 204; the rear end of the lifting block 205 is provided with a first electric clamping jaw 206, when the multi-synchronous rebound device upper cover is required to move, the first sliding block 203 can be driven to move through the first air cylinder 202, and the lifting block 205 is driven to move through the second air cylinder 204, so that the first electric clamping jaw 206 on the lifting block 205 can grab and move the synchronous rebound device upper cover, and the oiling assembly 3 comprises a connecting seat 301, a third air cylinder 302, a second sliding block 303, a fourth air cylinder 304, a fixed needle cylinder 305 and an oil brush 306; the rear end of the first electric clamping jaw 206 is provided with a connecting seat 301; a third cylinder 302 is mounted on the connecting seat 301; a second sliding block 303 is arranged at the front end of the third cylinder 302; a fourth cylinder 304 is installed at one side of the second sliding block 303; the fourth cylinder 304 is provided with a fixed syringe 305; the front end of the fixed needle cylinder 305 is provided with an oil brush 306, and when the synchronous rebound device upper cover needs to be refueled, an oil body can be added on the synchronous rebound device upper cover through the fixed needle cylinder 305 and the oil brush 306.

During working, a large number of synchronous rebound device upper covers are placed in the accumulation block 101, a gear in the meshing box 106 is driven by the stepping motor 107 to drive the traveling roller 108 to rotate, the synchronous rebound device upper covers pressed down by the sliding frame 105 are driven by the rotating traveling roller 108 to move to the position of the moving assembly 2, the first sliding block 203 is driven by the first air cylinder 202 to move, and the lifting block 205 is driven by the second air cylinder 204 to move, so that the first electric clamping jaw 206 on the lifting block 205 can grab and move the synchronous rebound device upper covers to the first mounting seat 406 and the second mounting seat 407 on the rotating disc 405;

then the rotating wheel 402 is driven to rotate by the driving motor 401, so that the cam divider 404 drives the rotating disc 405 to rotate by the conveying belt, thereby realizing the rotation adjustment of the synchronous rebound device upper cover, when the synchronous rebound device upper cover moves to the oiling component 3, the oil body can be added on the synchronous rebound device upper cover through the fixed needle cylinder 305 and the oil brush 306, and the synchronous rebound device upper cover after oiling is moved to the rotation adjustment component 4;

then the third sliding block 503 is driven to move downwards by the fifth air cylinder 502, and then the second electric clamping jaw 505 is driven to rotate by the revolving air cylinder 504 fixed on the third sliding block 503, so that the second electric clamping jaw 505 can clamp and overturn the synchronous rebound device upper cover, and finally the synchronous rebound device upper cover is moved to the position of the transit component 6 by the revolving disc 405 and then is moved to the transit seat 602.

Through the steps, a large number of synchronous rebound device upper covers are moved through the feeding assembly 1, the synchronous rebound device upper covers are placed on the rotation adjusting assembly 4 through the moving assembly 2, the synchronous rebound device upper covers are refueled through the refueled assembly 3, the refueled synchronous rebound device upper covers are overturned through the overturning assembly 5, and finally the processed synchronous rebound device upper covers are moved to the transferring assembly 6, so that the synchronous rebound device upper covers are stored, and therefore a worker can fully observe the refueled amount, and the problem that the worker is difficult to detect oil bodies entering the synchronous rebound device in the process of assembling the upper cover assembly mechanism is solved because the upper covers are firstly installed on the lower covers when the worker refueled.

The embodiments of the present utility model have been described in detail with reference to the drawings, but the present utility model is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present utility model.

Claims (7)

1. An upper cover oiling assembly mechanism comprises a feeding component (1); the method is characterized in that: the device also comprises a moving assembly (2), a oiling assembly (3), a rotation adjusting assembly (4), a turnover assembly (5) and a transfer assembly (6); the front end of the feeding component (1) is provided with a moving component (2); the rear end of the moving component (2) is provided with a refueling component (3) for refueling the upper cover; one side of the oiling component (3) is provided with a turnover component (5) for turning over the upper cover; the front end of the overturning component (5) is provided with a transit component (6) for transit of the upper cover; one side of the transfer component (6) is provided with a rotation adjusting component (4).

2. The cap up refueling assembly mechanism according to claim 1, wherein: the feeding assembly (1) comprises a material accumulation block (101), a fixed seat (102), a feeding frame (103), a connecting sheet (104), a sliding frame (105), a meshing box (106), a stepping motor (107), a travelling roller (108), a fixed plate (109) and a mounting frame (110); a fixed seat (102) is arranged at the lower end of the accumulation block (101); the front end of the fixed seat (102) is provided with a feeding frame (103); connecting sheets (104) are arranged on two sides of the feeding frame (103); a sliding frame (105) is arranged at one side of the feeding frame (103); a meshing box (106) is arranged on one side of the sliding frame (105); a stepping motor (107) is arranged at one side of the meshing box (106); the rear end of the stepping motor (107) is provided with a travelling roller (108); the front end of the feeding frame (103) is provided with a fixed plate (109); the mounting frame (110) is installed at the lower extreme of fixed plate (109).

3. The cap up refueling assembly mechanism according to claim 2, wherein: the moving assembly (2) comprises a material moving frame (201), a first air cylinder (202), a first sliding block (203), a second air cylinder (204), a lifting block (205) and a first electric clamping jaw (206); the upper end of the fixed plate (109) is provided with a material moving frame (201); a first cylinder (202) is arranged on the material moving frame (201); a first sliding block (203) is arranged on one side of the first cylinder (202); a second cylinder (204) is arranged on the first sliding block (203); a lifting block (205) is arranged at the lower end of the second cylinder (204); the rear end of the lifting block (205) is provided with a first electric clamping jaw (206).

4. A cap up refueling assembly mechanism according to claim 3, wherein: the oiling component (3) comprises a connecting seat (301), a third cylinder (302), a second sliding block (303), a fourth cylinder (304), a fixed needle cylinder (305) and an oil brush (306); the rear end of the first electric clamping jaw (206) is provided with a connecting seat (301); a third cylinder (302) is arranged on the connecting seat (301); the front end of the third cylinder (302) is provided with a second sliding block (303); a fourth cylinder (304) is arranged on one side of the second sliding block (303); the fourth cylinder (304) is provided with a fixed needle cylinder (305); the front end of the fixed needle cylinder (305) is provided with an oil brush (306).

5. The cap up refueling assembly mechanism according to claim 2, wherein: the rotation adjusting assembly (4) comprises a driving motor (401), a rotation wheel (402), a connecting plate (403), a cam divider (404), a rotation disc (405), a first mounting seat (406) and a second mounting seat (407); the fixed plate (109) is provided with a cam divider (404); the lower end of the cam divider (404) is provided with a connecting plate (403); the rear end of the connecting plate (403) is provided with a driving motor (401); the front end of the driving motor (401) is rotationally connected with a rotating wheel (402) through a rotating shaft; the rotating wheel (402) is connected with the cam divider (404) through a conveyor belt; a rotating disc (405) is arranged at the upper end of the cam divider (404); the upper end of the rotating disc (405) is provided with a plurality of first mounting seats (406); a plurality of second mounting seats (407) are arranged on the outer side of the first mounting seat (406).

6. The cap fuel assembly mechanism of claim 4, wherein: the overturning assembly (5) comprises a combined seat (501), a fifth cylinder (502), a third sliding block (503), a revolving cylinder (504) and a second electric clamping jaw (505); a combined seat (501) is arranged on one side of the fixed needle cylinder (305); a fifth cylinder (502) is arranged on the combined seat (501); a third sliding block (503) is arranged at the lower end of the fifth cylinder (502); a rotary cylinder (504) is arranged at the lower end of the third sliding block (503); the front end of the rotary cylinder (504) is provided with a second electric clamping jaw (505).

7. The overcap refueling assembly mechanism of claim 6, wherein: the transfer assembly (6) comprises a transfer frame (601) and a transfer seat (602); the front end of the combined seat (501) is provided with a middle rotating frame (601);

the upper end of the middle rotating frame (601) is provided with a middle rotating seat (602).