CN219787267U - Be used for profile of tooth spare equipment mechanism - Google Patents

Abstract

The utility model discloses a tooth-shaped part assembling mechanism which comprises two vibrating discs, wherein the front end of one vibrating disc is connected with a first direct vibrating channel, the front end of the other vibrating disc is connected with a second direct vibrating channel, the front ends of the first direct vibrating channel and the second direct vibrating channel are connected with a receiving plate belt, the outer parts of the two vibrating discs are connected with a working bench, one side of the front end of the working bench is connected with a movable bench through a bolt, and the movable bench is connected with a transverse track. In the utility model, the gear and the gear shaft of the tooth-shaped component are primarily combined and matched on the assembling extrusion table, the upper jacking cylinder can drive the assembling extrusion table to move up and down, and the lower extrusion cylinder and the upper jacking cylinder can move relatively, so that the assembling extrusion table and the extrusion block can extrude and move, and the gear shaft of the tooth-shaped component can be in interference extrusion and matched.

Description

Be used for profile of tooth spare equipment mechanism

Technical Field

The utility model relates to the technical field of tooth-shaped part assembly, in particular to an assembly mechanism for tooth-shaped parts.

Background

The tooth-shaped member has various structures, and the general assembly similar to a gear can be called a tooth-shaped member, for example, the simplest tooth-shaped member structure is a combination of a gear and a gear shaft, the two parts can be combined into a most basic tooth-shaped member structure, and the general assembly of the tooth-shaped member is basically combined by manual operation;

however, the manual assembly efficiency is too slow, the productivity is low, and in order to improve the assembly efficiency, a mechanism is provided for automatically carrying out assembly production; in this kind of mechanism, connect through connector, feeding mechanism and air pump and cylinder generally, then need use the sucking disc to absorb the profile of tooth spare, and the sucking disc can lead to its wearing and tearing state that appears after long-time use, then need change the processing, in order to realize above function to satisfy actual demand, put forward a kind of assembly mechanism that is used for the profile of tooth spare to this we.

Disclosure of Invention

The utility model aims to provide a tooth-shaped part assembling mechanism which is used for solving the problems that the manual assembling efficiency is too low and the productivity is low in the prior art, and in order to improve the assembling efficiency, the mechanism can automatically perform assembling production; in this kind of mechanism, connect through connector, feeding mechanism and air pump and cylinder generally, then need use the sucking disc to absorb the profile of tooth spare, and the sucking disc can lead to its wearing and tearing state after long-time use, then need to change the scheduling problem of handling.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a be used for profile of tooth spare equipment mechanism, includes two vibration dish, one of them the front end connection of vibration dish is provided with first direct vibration material way, and one of them the front end connection of vibration dish is provided with the direct vibration material way of second, the front end connection of first direct vibration material way and the direct vibration material way of second is provided with the joint board area, the external connection of two vibration dish has the work rack, one side bolted connection of work rack front end has the movable rack, the connection is provided with horizontal track on the movable rack, the top of accepting the board area is provided with down the cylinder, one side of cylinder is provided with the extracting mechanism down, the below of cylinder corresponds and is provided with the equipment extrusion platform, the lower extreme of equipment extrusion platform is connected with the cylinder that pushes up, the upper end connection of extracting mechanism is provided with the connector, the fixed connection cartridge that is provided with of lower extreme of extracting mechanism, the fixed middle part of connection cartridge is provided with the cartridge mouth, the inside cartridge mouth that is equipped with the sucking disc.

Preferably, the rails at two sides inside the connecting plug block are provided with movable open cavities, the movable open cavities are movably provided with movable blocks, one ends of the movable blocks are welded with connecting columns, and one ends of the connecting columns are welded with positioning blocks.

Preferably, the diameter of the movable block is larger than that of the connecting column, and the periphery of the inner end surface of the movable block and one end of the inner part of the movable cavity are connected with contraction springs.

Preferably, clamping grooves are fixedly formed in two sides of the upper section of the sucker, and the positioning block is inserted and arranged in the positioning block.

Preferably, the positioning block is arranged in a trapezoid structure.

Preferably, a through hole is arranged between the movable open cavity and the insertion port inside the connecting insertion block in a penetrating way, and the positioning block is transversely movably positioned in the through hole.

Preferably, the movable rack is provided with the movable rail in a front-back connection manner at one end, the movable rail is provided with a first movable rack in a front-back transverse manner, the lower pressure cylinder and the material taking mechanism are fixedly arranged on the first movable rack, the front end of the first movable rack is provided with a first pneumatic column in a connection manner, the rear side of the first movable rack is provided with a second movable rack in a connection manner, the lower pressure cylinder and the material taking mechanism are also fixedly arranged on the second movable rack, and the upper end of the second movable rack is provided with a second pneumatic column in a connection manner.

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

1. the utility model respectively conveys two tooth-shaped components to the first direct vibration material channel and the second direct vibration material channel through the two vibration plates, the tooth-shaped components have various structures, the common tooth-shaped components are divided into the gear and the gear shaft, the first direct vibration material channel and the second direct vibration material channel respectively convey the gear and the gear shaft to the bearing plate belt, the first pneumatic column on the supporting rack is used for transversely moving the lower pressure cylinder and the material taking mechanism back and forth, the integral material taking mechanism and the connecting port can be moved to the upper end of the bearing plate belt, the connecting port at the upper end of the material taking mechanism can be connected with the cylinder and the air pump, the sucker connected with the lower end of the material taking mechanism has suction force, the gear and the gear shaft of the tooth-shaped component are subjected to preliminary combined fit in the above operation mode, then the lower side of the front end of the working bench can be fixedly connected with the jacking cylinder through the connecting frame, the jacking cylinder can drive the assembly extrusion table to move up and down, the pressing block is arranged at the lower end of the lower pressing cylinder in a connecting manner, the lower pressing cylinder and the jacking cylinder can move relatively, the assembly extrusion table and the pressing block can carry out extrusion movement, and therefore the gear and the gear shaft of the tooth-shaped component can be subjected to interference extrusion fit;

2. according to the utility model, the pulling plate at the outer side of the movable block is pulled to enable the integral movable block to move outwards against the shrinkage elasticity of the shrinkage spring, so that the integral movable block, the connecting column and the positioning block move outwards, and further the inner positioning block can be separated from the clamping groove on the sucker, the limiting fixation of the positioning block on the integral sucker is relieved, the integral sucker can be detached from the connecting plug, a new sucker can be directly and vertically inserted into the insertion port in the connecting plug, the positioning block is of a trapezoid structure, the vertical movement of the sucker is firstly propped against the bevel edge position on the positioning block, the positioning block automatically moves into the movable opening cavity, and finally the positioning block is clamped in the clamping groove through the shrinkage elasticity of the shrinkage spring, so that the integral sucker can be rapidly detached and installed by adopting the technical scheme.

Drawings

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

FIG. 2 is a front view of the entirety of the present utility model;

FIG. 3 is an enlarged view of the structure of FIG. 2A in accordance with the present utility model;

fig. 4 is an enlarged view of the present utility model in section at B in fig. 3.

In the figure: 1. a first direct vibrating channel; 2. a second direct vibration material channel; 3. a receiving plate belt; 4. a connection port; 5. assembling an extrusion table; 6. a clamping groove; 7. a pressing cylinder; 8. an upper jacking cylinder; 9. a material taking mechanism; 10. a suction cup; 11. a vibration plate; 12. connecting the plug blocks; 13. a movable block; 14. a retraction spring; 15. a connecting column; 16. and (5) positioning blocks.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to fig. 1 to 4, an embodiment of the present utility model provides: in the tooth-shaped part assembling mechanism, a first direct vibration material channel 1 is connected and arranged at the front end of one vibration disc 11, a second direct vibration material channel 2 is connected and arranged at the front end of the other vibration disc 11, a bearing plate belt 3 is connected and arranged at the front ends of the first direct vibration material channel 1 and the second direct vibration material channel 2, a workbench frame is connected to the outer parts of the two vibration discs 11, a movable rack is connected to one side of the front end of the workbench frame through bolts, a transverse track is connected and arranged on the movable rack, a lower pressing cylinder 7 is arranged above the bearing plate belt 3, a material taking mechanism 9 is arranged at one side of the lower pressing cylinder 7, an assembling pressing table 5 is correspondingly arranged below the lower pressing cylinder 7, an upper top cylinder 8 is connected to the lower end of the assembling pressing table 5, a connecting port 4 is connected and arranged at the upper end of the material taking mechanism 9, a connecting plug block 12 is fixedly arranged at the lower end of the material taking mechanism 9, a plug-in port is fixedly arranged at the middle part of the connecting plug block 12, and a sucker 10 is inserted into the plug-in port inside the connecting plug-in block 12;

the front end of the first movable frame is connected with a first pneumatic column, the rear side of the first movable frame is connected with a second movable frame, the lower pressure cylinder 7 and the material taking mechanism 9 are also fixedly arranged on the second movable frame, and the upper end of the second movable frame is connected with a second pneumatic column;

firstly, two kinds of tooth-shaped components are respectively transported to a first direct vibration material channel 1 and a second direct vibration material channel 2 by two vibration plates 11, the structures of the tooth-shaped components are various, the common tooth-shaped components are divided into a gear and a gear shaft, the first direct vibration material channel 1 and the second direct vibration material channel 2 respectively transport the gear and the gear shaft to a bearing plate belt 3, a first pneumatic column on a supporting rack is used for transversely moving a lower pressing cylinder 7 and a material taking mechanism 9 back and forth, so that the integral material taking mechanism 9 and a connecting port 4 can be moved to the upper end of the bearing plate belt 3, the connecting port 4 at the upper end of the material taking mechanism 9 can be connected with the cylinder and an air pump, suction cups 10 connected with the lower end of the material taking mechanism 9 can have suction force to fixedly suck the tooth-shaped components placed on the bearing plate belt 3, and then the suction cups 10 at the lower end of the material taking mechanism 9 can be transported to the upper end of the assembling extrusion table 5 through the operation of a first pneumatic column;

through the operation mode, the gear and the gear shaft of the tooth-shaped assembly are subjected to preliminary combined fit, then the lower side of the front end of the working bench can be fixedly connected with the upper jacking cylinder 8 through the connecting frame, so that the upper jacking cylinder 8 can drive the assembly extrusion table 5 to move up and down, the lower end of the lower extrusion cylinder 7 can be connected with a pressing block, the lower extrusion cylinder 7 and the upper jacking cylinder 8 can move relatively, extrusion movement is carried out between the assembly extrusion table 5 and the pressing block, and interference extrusion fit is carried out on the gear and the gear shaft of the tooth-shaped assembly;

the lower pressure cylinder 7 and the material taking mechanism 9 are also connected and positioned on a second movable frame, the second movable frame is positioned on the first movable frame, the upper end of the second movable frame is connected and provided with a second pneumatic column, and the second pneumatic column can enable the lower pressure cylinder 7 and the material taking mechanism 9 to vertically move up and down, so that the lower pressure cylinder 7 and the material taking mechanism 9 can be adjusted in height;

further, movable open cavities are formed in the rails on two sides of the inside of the connecting plug block 12, movable blocks 13 are movably arranged in the movable open cavities, connecting columns 15 are welded at one ends of the movable blocks 13, positioning blocks 16 are welded at one ends of the connecting columns 15, the diameters of the movable blocks 13 are larger than those of the connecting columns 15, contraction springs 14 are connected to the periphery of the inner end surfaces of the movable blocks 13 and one end of the inside of the movable open cavities, clamping grooves 6 are fixedly formed in two sides of the upper section of the sucker 10, the positioning blocks 16 are inserted into the positioning blocks 16, the positioning blocks 16 are of trapezoid structures, through holes are formed between the movable open cavities and insertion ports in the connecting plug block 12 in a penetrating mode, and the positioning blocks 16 are transversely movably located in the through holes;

through the pulling plate outside pulling movable block 13 for holistic movable block 13 overcomes the shrink elasticity outside activity of shrink spring 14, this makes holistic movable block 13, spliced pole 15 and locating piece 16 outside activity, and then inboard locating piece 16 can break away from joint groove 6 on sucking disc 10, the spacing fixed of locating piece 16 to whole sucking disc 10 has been released, this holistic sucking disc 10 can dismantle from connecting the inserted block 12 that says, new sucking disc 10 can direct vertical cartridge is in the inside cartridge mouth of connecting the inserted block 12, locating piece 16 wherein sets up to trapezium structure, then sucking disc 10 vertical activity pushes up earlier the hypotenuse position on locating piece 16 for locating piece 16 automatic to activity open the intracavity activity, last locating piece 16 is through shrink elasticity joint of shrink spring 14 in joint groove 6, through adopting above-mentioned technical scheme, make holistic sucking disc 10 can carry out quick dismantlement and install.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (7)

1. Tooth assembly mechanism for tooth assembly, comprising two vibrating discs (11), characterized in that: one of them the front end connection of vibration dish (11) is provided with first material way (1) that shakes always, and wherein another the front end connection of vibration dish (11) is provided with second material way (2) that shakes always, the front end connection that shakes always material way (1) and second directly shakes material way (2) is provided with and holds board area (3), the external connection of two vibration dishes (11) has work rack, one side bolted connection of work rack front end has movable rack, the connection is provided with horizontal track on the movable rack, the top of holding board area (3) is provided with down cylinder (7), one side of cylinder (7) is provided with extracting mechanism (9) down, the below of cylinder (7) corresponds and is provided with equipment extrusion platform (5), the lower extreme connection of equipment extrusion platform (5) is provided with top cylinder (8), the upper end connection of mechanism (9) is provided with connector (4), the lower extreme fixedly provided with of mechanism (9) is connected with cartridge (12), cartridge (12) are inserted in the fixed connection, cartridge is equipped with middle part (10) and is inserted.

2. A tooth assembly machine as claimed in claim 1, wherein: the movable cavity is formed in the rails on two sides of the inside of the connecting plug block (12), the movable block (13) is movably arranged in the movable cavity, a connecting column (15) is welded at one end of the movable block (13), and a positioning block (16) is welded at one end of the connecting column (15).

3. A tooth assembly machine as claimed in claim 2, wherein: the diameter of the movable block (13) is larger than that of the connecting column (15), and the periphery of the inner end surface of the movable block (13) and one end of the inner part of the movable cavity are connected with a contraction spring (14).

4. A tooth assembly machine as claimed in claim 3, wherein: clamping grooves (6) are fixedly formed in two sides of the upper section of the sucker (10), and the positioning block (16) is inserted and arranged in the positioning block (16).

5. A tooth assembly machine as claimed in claim 4, wherein: the positioning block (16) is arranged in a trapezoid structure.

6. A tooth assembly machine as claimed in claim 5, wherein: through holes are formed between the movable open cavity and the insertion opening in the connecting insertion block (12), and the positioning blocks (16) are transversely movably positioned in the through holes.

7. A tooth assembly machine as claimed in claim 1, wherein: the movable rack is characterized in that a movable rail is arranged on one end of the movable rack in a front-back connection mode, a first movable rack is transversely arranged on the movable rail in a front-back transverse mode, a lower pressing cylinder (7) and a material taking mechanism (9) are fixedly arranged on the first movable rack, a first pneumatic column is arranged at the front end of the first movable rack in a connection mode, a second movable rack is arranged at the rear side of the first movable rack in a connection mode, the lower pressing cylinder (7) and the material taking mechanism (9) are fixedly arranged on the second movable rack, and a second pneumatic column is arranged at the upper end of the second movable rack in a connection mode.