CN106586502B - Tool shunting device - Google Patents

Abstract

The invention provides a tool shunting device which comprises a lower slideway guide mechanism, a lower slideway main body connected with the lower slideway guide mechanism, an air cylinder connected with the lower slideway main body, and an air cylinder push plate connected with the air cylinder, wherein the lower slideway main body is provided with a plurality of grooves; wherein, lower slide guiding mechanism sets up the one side at the last assembly line body, the lower slide main part includes first main part slide and second main part slide, first main part slide and second main part slide are fixed respectively on two line bodies of assembly line down, the frock that the assembly line bore is gone up is in the leading-in lower slide main part of slide guiding mechanism, the cylinder promotes the cylinder push pedal and pushes away the frock in the leading-in lower slide main part in first main part slide and the second main part slide in turn, make the frock enter into on two line bodies of assembly line down in turn through first main part slide and second main part slide, in order to realize the automatic reposition of redundant personnel to the frock. The invention can ensure that the tool orderly enters the lower assembly line, greatly lightens the labor intensity of operators and has high working efficiency.

Description

Tool shunting device

Technical Field

The invention relates to the technical field of electronic device processing, in particular to a tool shunting device.

Background

In a production line, in the process that the tooling is transferred from an upper production line to a lower production line, the tooling needs to be shunted sometimes in order to enable workers on the lower production line to assemble products more conveniently. Take the production of earphone as an example, because the earphone has left earphone and right earphone to constitute, consequently, in order to assemble the earphone conveniently, need a black piece frock and a white piece frock to bear left earphone shell and right earphone shell respectively.

In the existing earphone assembling process, when the black block tool and the white block tool are transferred to the lower production line from the upper production line, workers need to manually take the black block tool and the white block tool from the upper production line and then carry out an earphone shell penetrating process. Because the workman needs a large amount of actions to get the frock and shunt, consequently, has that intensity of labour is big, work efficiency is low and the frock is chaotic problem.

Disclosure of Invention

In view of the above problems, an object of the present invention is to provide a tool shunting device, so as to solve the problems of high labor intensity, low working efficiency and tool confusion existing in the prior art of shunting by manually taking a tool.

The invention provides a tool shunting device which comprises a lower slideway guide mechanism, a lower slideway main body connected with the lower slideway guide mechanism, an air cylinder connected with the lower slideway main body, and an air cylinder push plate connected with the air cylinder; wherein, lower slide guiding mechanism sets up the one side at the last assembly line body, the lower slide main part includes first main part slide and second main part slide, first main part slide and second main part slide are fixed respectively on two line bodies of assembly line down, the frock that the assembly line bore is gone up is in the leading-in lower slide main part of slide guiding mechanism, the cylinder promotes the cylinder push pedal and pushes away the frock in the leading-in lower slide main part in first main part slide and the second main part slide in turn, make the frock enter into on two line bodies of assembly line down in turn through first main part slide and second main part slide, in order to realize the automatic reposition of redundant personnel to the frock.

Further, a preferable structure is: the lower slideway guide mechanism comprises a lower slideway guide groove, a lower slideway guide plate and a lower slideway sliding plate which are respectively connected with the lower slideway guide groove; wherein, the lower slide guide way is fixed in one side of the last assembly line body, and in the leading-in lower slide guide way of frock that will go up the assembly line and bear through the lower slide deflector, in with leading-in lower slide main part of frock by the lower slide.

Further, a preferable structure is: the lower slideway main body also comprises a lower slideway platform, the first main body sliding plate and the second main body sliding plate are respectively arranged at two sides of the lower slideway platform, and the air cylinder push plate are both arranged on the lower slideway platform; wherein, on the frock is led into the glide slope platform by the glide slope slide, the cylinder promoted the cylinder push pedal will be led into the frock on the glide slope platform and push into in first main part slide and the second main part slide in turn.

Further, a preferable structure is: the lower slideway guide plate is of a V-shaped structure.

Further, a preferable structure is: the lower slideway guide groove is fixed on one side of the upper production line body in a bolt connection mode or a welding mode.

Further, a preferable structure is: first main part slide and second main part slide are fixed respectively on two lines bodies of low assembly line through the self-tapping.

Further, a preferable structure is: the controller is connected with the electromagnetic valve; wherein, the controller pushes the cylinder push plate to move through the electromagnetic valve control cylinder.

Further, a preferable structure is: the black and white earphone shell assembling tool is automatically shunted through the lower slide guide mechanism, the lower slide main body, the air cylinder and the air cylinder push plate.

Further, a preferable structure is: the fixture comprises an upper assembly line body, a lower assembly line body and a lower assembly line body, wherein the upper assembly line body is provided with an upper assembly line body and a lower assembly line body; the sub-tool slide plate is arranged on the upper assembly line body and is opposite to the lower slide guide mechanism, one end of the sub-tool slide plate is connected with the sub-tool slide plate, the other end of the sub-tool slide plate is fixed on one line body of the lower assembly line, the sub-tool is guided into the sub-tool slide plate through the sub-tool slide plate, and the sub-tool is guided into the line body of the lower assembly line through the sub-tool slide plate.

Further, a preferable structure is: the sub-tool guide plate is of an arc-shaped structure.

By utilizing the tool shunting device, the lower slideway main body is respectively connected with the lower slideway guide mechanism and the lower assembly line body by arranging the lower slideway guide mechanism at one side of the upper assembly line body, the tool is guided into the lower slideway main body by the lower slideway guide mechanism, and then the cylinder pushes the cylinder push plate so as to guide the tool guided into the lower slideway main body into the lower assembly line alternately, thereby realizing automatic shunting of the tool. The invention can ensure that the tool orderly enters the lower assembly line, greatly lightens the labor intensity of operators and has high working efficiency.

Drawings

Other objects and results of the present invention will become more apparent and more readily appreciated by reference to the following description taken in conjunction with the accompanying drawings, and as the invention is more fully understood. In the drawings:

fig. 1 is a schematic front structural view of a tool shunting device according to an embodiment of the present invention;

fig. 2 is a schematic back structure view of a tool shunting device according to an embodiment of the present invention.

The same reference numbers in all figures indicate similar or corresponding features or functions.

In the figure: the device comprises a lower slide guide groove 11, a lower slide guide plate 12, a lower slide sliding plate 13, a lower slide platform 21, a first main body sliding plate 22, a second main body sliding plate 23, a cylinder 3, a cylinder push plate 4, an upper assembly line body 5, a black-and-white earphone shell assembling tool 6, a lower assembly line 7, an insert tool guide plate 81, an insert tool sliding plate 82 and an insert tool 9.

Detailed Description

Specific embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Aiming at the problem that the tool which is transferred to a lower assembly line from an upper assembly line can be shunted only by manually taking the tool, the lower slide guide mechanism is arranged on one side of an upper assembly line body, the lower slide main body is respectively connected with the lower slide guide mechanism and the lower assembly line body, the tool is guided into the lower slide main body through the lower slide guide mechanism, and then the cylinder pushes a cylinder push plate so as to alternately guide the tool guided into the lower slide main body into the lower assembly line, so that the automatic shunting of the tool is realized. The invention can ensure that the tool orderly enters the lower assembly line, greatly lightens the labor intensity of operators and has high working efficiency.

Specifically, the tool shunting device provided by the invention comprises a lower slideway guide mechanism, a lower slideway main body connected with the lower slideway guide mechanism, an air cylinder connected with the lower slideway main body, and an air cylinder push plate connected with the air cylinder; wherein, lower slide guiding mechanism sets up the one side at the last assembly line body, lower slide main part includes two main part slides (be first main part slide and second main part slide) respectively, two main part slides are fixed respectively on two line bodies of assembly line down, the frock that the assembly line bore is gone up is in by the leading-in lower slide main part of lower slide guiding mechanism, the frock in cylinder promotion cylinder push pedal will leading-in lower slide main part is pushed into in two main part slides in turn, make the frock enter into on two line bodies of assembly line down in turn through two main part slides, in order to realize the automatic reposition of redundant personnel to the frock.

It should be noted that all the tools which are transferred from the upper assembly line to the lower assembly line can be distributed through the mutual matching of the lower slide guide mechanism, the lower slide main body, the air cylinder and the air cylinder push plate. For example, black and white earphone shell assembling tools which are transferred from an upper assembly line to a lower assembly line can be automatically shunted. The black and white earphone shell assembling tool provided by the invention refers to a black block tool and a white block tool, and the black block tool and the white block tool respectively carry a left earphone shell and a right earphone shell of an earphone.

In addition, in order to further expand the functions of the tool shunting device provided by the invention, an auxiliary shunting tool can be arranged on the other side of the upper assembly line body and is used for shunting other tools which need to be moved from the upper assembly line to the lower assembly line, for example, an incoming sub-tool shunting mechanism can be arranged on the other side of the upper assembly line body to shunt incoming sub-tools which are moved from the upper assembly line to the lower assembly line.

Specifically, to describe the tool shunting device provided by the present invention in detail, fig. 1 shows a front structure of the tool shunting device according to an embodiment of the present invention, and fig. 2 shows a back structure of the tool shunting device according to an embodiment of the present invention.

As shown in fig. 1 and 2, the tool shunting device provided by the invention comprises a lower slideway guide mechanism, a lower slideway main body connected with the lower slideway guide mechanism, an air cylinder 3 connected with the lower slideway main body, and an air cylinder push plate 4 connected with the air cylinder. The lower slideway guide mechanism comprises a lower slideway guide groove 11, a lower slideway guide plate 12 and a lower slideway sliding plate 13; the lower slideway guide plate 12 and the lower slideway sliding plate 13 are respectively connected with the lower slideway guide groove 11.

Specifically, lower slide guide way 11 is fixed in one side of last assembly line body, specifically, lower slide guide way 11 can be fixed in one side of last assembly line body 5 through bolted connection mode or welded mode, of course, also can fix through other modes, no longer gives unnecessary details here.

The lower slideway guide plate 12 is arranged in the upper assembly line and is of a V-shaped structure, when the tooling born by the upper assembly line flows through the lower slideway guide plate 12, the lower slideway guide plate 12 guides the black-and-white earphone shell tooling 6 born by the upper assembly line body 5 into the lower slideway guide groove 11 through the inertia effect on the assembly line, and the lower slideway slide plate 13 is connected with the lower slideway guide groove 11 to form an inclined plane, so that the black-and-white earphone shell tooling 6 can inevitably slide into the lower slideway main body along the lower slideway slide plate 13 after being guided into the lower slideway guide groove 11.

The glide slope main part includes glide slope platform 21, respectively is equipped with a main part slide in the both sides of glide slope platform, promptly: the first main body sliding plate 22 and the second main body sliding plate 23, the cylinder 3 and the cylinder push plate 4 connected with the cylinder 3 are all arranged on the lower slideway platform 21; the black-and-white earphone shell assembling tool 6 slides into the lower slide rail platform 21 along the lower slide rail sliding plate 13, and the cylinder 3 pushes the cylinder push plate 4 to alternately push the black-and-white earphone shell assembling tool 6 sliding into the lower slide rail platform 21 into the first main body sliding plate 22 and the second main body sliding plate 23.

Specifically, the first body sliding plate 22 and the second body sliding plate 23 may be respectively fixed on two lines of the lower pipeline 7 by self-tapping, and the first body sliding plate 22 and the second body sliding plate 23 are both inclined planes after being connected with the lower slide platform. After the black-and-white earphone shell assembling tool 6 is pushed into the first body sliding plate 22 or the second body sliding plate 23, the black-and-white earphone shell assembling tool inevitably slides along the first body sliding plate 22 or the second body sliding plate 23 to the lower production line 7; and because black and white dress earphone shell frock is pushed into first main part slide 22 and second main part slide 23 in turn, consequently, can make black and white dress earphone shell frock enter into on two line bodies of low assembly line in turn through first main part slide 22 and second main part slide 23 to realize the automatic reposition of redundant personnel to the frock.

Further, in order to enable the cylinder push plate to accurately push the black-and-white earphone shell assembling tool guided to the lower slide platform in an alternating mode, the tool shunting device provided by the invention further comprises an electromagnetic valve connected with the cylinder and a controller connected with the electromagnetic valve. Wherein, control the solenoid valve through the controller, the solenoid valve is controlled the cylinder, and flexible promotion cylinder push pedal through the cylinder moves to make leading-in first main part slide and the second main part slide of being pushed into that black and white dress earphone shell frock can be in turn on the lower slideway platform.

In addition, the tool shunting device provided by the invention further comprises a sub-tool guiding mechanism arranged on the other side of the upper production line body 5, wherein the sub-tool guiding mechanism comprises a sub-tool guiding plate 81 and a sub-tool sliding plate 82 connected with the sub-tool guiding plate 81. Wherein, go into sub-frock deflector 81 and set up on last assembly line body 5, and relative with lower slide guiding mechanism. Specifically, the sub-tool-entering guide plate 81 is of an arc-shaped structure, two ends of the sub-tool-entering guide plate 81 are respectively fixed to two sides of the upper assembly line body, one end of the sub-tool-entering sliding plate 82 is connected with the sub-tool-entering guide plate 81, the other end of the sub-tool-entering sliding plate is fixed to one line body of the lower assembly line 7, the sub-tool-entering sliding plate 82 guides the sub-tool 9 carried by the upper assembly line body 5 into the sub-tool-entering sliding plate 82 through the sub-tool-entering guide plate 81 when the sub-tool-entering guide mechanism flows through, and the sub-tool-entering sliding plate 82 is connected with the sub-tool-entering guide plate and the lower assembly line to form an inclined plane, so that the sub-tool 9 can be guided into one line body of the lower assembly line 7 through the sub-tool-entering sliding plate 82.

It should be noted that, in the tooling split-flow device provided by the present invention, if the lower slide guide mechanism and the sub-tooling guide mechanism are provided on the upper production line body at the same time, an auxiliary split-flow mechanism is further provided on the upper production line body and in front of the lower slide guide mechanism and the sub-tooling guide mechanism, and the sub-tooling and the tooling (for example, a black-and-white headphone shell tooling) to be inserted into the lower slide guide mechanism are split-flow by the auxiliary split-flow mechanism.

Specifically, a baffle can be arranged at the center of the upper assembly line body to serve as an auxiliary flow distribution mechanism, the baffle is used for separating the upper assembly line into two running rails, and the sub-assembling tool and the black-and-white earphone shell assembling tool are respectively placed into the respective running rails manually. On one hand, when the black and white headphone shell tooling flows through the lower slide way guide mechanism, the black and white headphone shell tooling is guided into the lower slide way main body through the lower slide way guide mechanism, at the moment, the air cylinder pushes the air cylinder push plate to alternately push the black and white headphone shell tooling guided into the lower slide way main body into the first main body slide plate and the second main body slide plate, and the black and white headphone shell tooling alternately enters the two line bodies of the lower flow line through the first main body slide plate and the second main body slide plate, so that the automatic shunting of the black and white headphone shell tooling is realized; on the other hand, when the sub-tool flow enters the sub-tool guide mechanism, the sub-tool is guided into the sub-tool slide plate by the sub-tool guide plate, and the sub-tool is guided into one line body of the lower assembly line by the sub-tool slide plate.

Therefore, the tool shunting device provided by the invention has the following advantages:

1. the operator does not need to lift the hand to take the tool from the upper assembly line for shunting, so that the workload of the operator can be greatly reduced, the working time can be saved, and the working efficiency can be improved;

2. the air cylinder pushes the air cylinder push plate to realize the shunting of the tools, so that the probability of the tools distributed by the operation stations on two sides of the lower assembly line body is equal;

3. because two main part slides in the glide slope main part to and go into sub-frock slide all fix on lower assembly line, consequently, can guarantee that the whereabouts position of frock is fixed.

The tooling flow distribution device according to the present invention is described above by way of example with reference to the accompanying drawings. However, it should be understood by those skilled in the art that various modifications may be made to the tooling flow distribution device provided by the present invention without departing from the scope of the present invention. Therefore, the scope of the present invention should be determined by the contents of the appended claims.

Claims (6)

1. A tool shunting device comprises a lower slideway guide mechanism, a lower slideway main body connected with the lower slideway guide mechanism, an air cylinder connected with the lower slideway main body, and an air cylinder push plate connected with the air cylinder; wherein the content of the first and second substances,

the lower slideway guide mechanism is arranged on one side of the upper assembly line body, the lower slideway main body comprises a first main body sliding plate and a second main body sliding plate, the first main body sliding plate and the second main body sliding plate are respectively fixed on the two line bodies of the lower assembly line, a tool carried by the upper assembly line is guided into the lower slideway main body by the lower slideway guide mechanism, the cylinder pushes the cylinder push plate to push the tool guided into the lower slideway main body into the first main body sliding plate and the second main body sliding plate alternately, and the tool enters the two line bodies of the lower assembly line alternately through the first main body sliding plate and the second main body sliding plate so as to realize automatic shunting of the tool;

the lower slideway guide mechanism comprises a lower slideway guide groove, and a lower slideway guide plate and a lower slideway sliding plate which are respectively connected with the lower slideway guide groove; the lower slideway guide plate is of a V-shaped structure;

the lower slideway guide groove is fixed on one side of the upper assembly line body, a tool carried by the upper assembly line is guided into the lower slideway guide groove by the lower slideway guide plate under the action of inertia on the upper assembly line, and the tool is guided into the lower slideway main body by the lower slideway sliding plate; the lower slideway main body further comprises a lower slideway platform, the first main body sliding plate and the second main body sliding plate are respectively arranged on two sides of the lower slideway platform, and the air cylinder push plate are both arranged on the lower slideway platform;

the tool is guided into the lower slideway platform by the lower slideway sliding plate, and the cylinder pushes the cylinder push plate to alternately push the tool guided into the lower slideway platform into the first main body sliding plate and the second main body sliding plate;

the tool shunting device also comprises an electromagnetic valve connected with the air cylinder and a controller connected with the electromagnetic valve; wherein the content of the first and second substances,

the controller controls the air cylinder to push the air cylinder push plate to move through the electromagnetic valve.

2. The tool shunting device of claim 1, wherein the lower slideway guide slot is fixed on one side of the upper production line body by a bolt connection manner or a welding manner.

3. The tool shunting device of claim 2, wherein the first body sliding plate and the second body sliding plate are respectively fixed on two line bodies of the lower assembly line through self-tapping.

4. The tooling shunt device of any one of claims 1~3, wherein black and white headphone housing tooling is automatically shunted by the glidepath guide mechanism, the glidepath body, the cylinder, and the cylinder push plate.

5. The tool shunting device of claim 1, further comprising a sub-tool guiding mechanism arranged on the other side of the upper assembly line body, wherein the sub-tool guiding mechanism comprises a sub-tool guiding plate and a sub-tool sliding plate connected with the sub-tool guiding plate; wherein the content of the first and second substances,

the sub-tool slide plate is arranged on the upper assembly line body and opposite to the lower slide way guide mechanism, one end of the sub-tool slide plate is connected with the sub-tool slide plate, the other end of the sub-tool slide plate is fixed on one line body of the lower assembly line, the sub-tool is guided into the sub-tool slide plate through the sub-tool slide plate, and the sub-tool is guided onto the line body of the lower assembly line through the sub-tool slide plate.

6. The tooling shunt device of claim 5, wherein the insert tooling guide plate is of an arc-shaped structure.

Images