CN212024004U

CN212024004U - Spring feed divider

Info

Publication number: CN212024004U
Application number: CN202020142874.1U
Authority: CN
Inventors: 吴海洋; 玉发其
Original assignee: World Precision Manufacturing Dongguan Co Ltd
Current assignee: World Precision Manufacturing Dongguan Co Ltd
Priority date: 2020-01-21
Filing date: 2020-01-21
Publication date: 2020-11-27
Anticipated expiration: 2030-01-21

Abstract

The utility model discloses a spring feed divider, which comprises a base, divide the material pipe, the joint of blowing, divide the material subassembly and connect the material subassembly, divide the material pipe to install on the base vertically, the joint of blowing is installed on the base and is separated from dividing the material pipe along the horizontal direction, divide the material unit mount on the base and locate the side of dividing the material pipe, divide the material subassembly to include two along the spaced branch material spares of upper and lower direction, divide the material spare to insert along the horizontal direction alternately and divide the material pipe, connect the material unit mount on the base and lie in the below of dividing the material subassembly, connect the material subassembly including connecing the material pipe, connect the material pipe just to divide the first position of material pipe below and just to blowing to connect between the second. The utility model discloses a spring feed divider is with the help of dividing the material subassembly and connecing the cooperation between the material subassembly for the spring arrives the required position of next process fast after falling into the material receiving pipe orderly, time interval fixedly, has that degree of automation is high, reduce the cost of labor, the advantage of reliable operation and simple structure compactness.

Description

Spring feed divider

Technical Field

The utility model relates to an elastic component equipment field especially relates to a spring feed divider.

Background

Along with the development of science and technology and the progress of humanity, in order to adapt to the needs in market and people to the requirement of product constantly improve, current assembly line progressively replaces manual operation by intelligent automation equipment, so not only can improve work efficiency, can also reduce the cost of labor.

In the existing automatic production line of products, particularly on an assembly line of a five-hole socket, a spring and a two-plug protection door need to be assembled and then are installed in a mounting frame of the socket. Before the spring and the protective door are assembled, the spring needs to be divided, so that subsequent assembly is facilitated.

Therefore, a spring material-separating device with high automation degree and improved working efficiency is urgently needed to overcome the defects.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a degree of automation is high, improve work efficiency's spring feed divider.

In order to achieve the above object, the utility model discloses a spring feed divider includes base, branch material pipe, blowing joint, divides the material subassembly and connects the material subassembly, divide the material pipe vertically install in on the base, blowing joint install in on the base and along the horizontal direction with divide the material pipe spaced apart, divide the material subassembly install in on the base and locate divide the side of material pipe, divide the material subassembly to include two along upper and lower spaced apart branch material spares, divide the material spare to insert along the horizontal direction in turn divide the material pipe, connect the material subassembly install in on the base and be located divide the below of material subassembly, connect the material subassembly including connecing the material pipe, connect the material pipe just right divide the first position of material pipe below and just right it moves the switching between the second position of blowing joint below.

Preferably, the distributing member is a sheet structure or a columnar structure.

Preferably, the distributing pipe is provided with a slot for inserting the distributing part.

Preferably, the material distributing assembly further comprises material distributing cylinders for respectively driving the material distributing members to move along the horizontal direction, the material distributing cylinders are spaced apart in the up-down direction, one material distributing cylinder is correspondingly connected with one material distributing member, and the material distributing cylinders alternately drive the material distributing members so that the material distributing members are alternately inserted into the material distributing pipes.

Preferably, the material receiving assembly further comprises a material receiving cylinder for driving the material receiving pipe to move between the first position and the second position, and the material receiving cylinder is connected with the material receiving pipe.

Preferably, the material receiving assembly comprises a clamping block for clamping the material receiving pipe, the material receiving pipe is arranged on the clamping block in a penetrating mode, and the material receiving cylinder is connected with the clamping block.

Preferably, the number of the material distributing pipes is at least two, and the number of the blowing joints and the number of the material receiving pipes are the same as that of the material distributing pipes.

Preferably, all the material distributing pipes are spaced from each other in the horizontal direction, and the spacing direction of the adjacent material distributing pipes is staggered with the spacing direction of the material distributing pipes and the air blowing joints.

Preferably, a group of material distributing parts spaced from each other in the up-down direction is correspondingly arranged beside each material distributing pipe, all the material distributing parts positioned above move synchronously, all the material distributing parts positioned below move synchronously, and all the material receiving pipes move synchronously.

Preferably, the distributing assembly further comprises two mounting blocks spaced apart in the up-down direction, and the distributing member is fixedly connected to the mounting blocks.

Compared with the prior art, the spring distributing device of the utility model has the advantages that the base, the distributing pipe, the blowing joint, the distributing component and the receiving component are mutually coordinated and matched, the distributing component is arranged beside the distributing pipe and comprises two distributing components which are spaced along the vertical direction, and the distributing components are alternately inserted into the distributing pipe so that the springs orderly and fixedly fall into the receiving pipe at time intervals; the material receiving assembly is positioned below the material distributing assembly, and the material receiving pipe in the material receiving assembly is moved and switched between a first position and a second position, so that when the material receiving pipe is positioned at the first position, the material receiving pipe is positioned below the material distributing pipe, and a spring falling from the material distributing pipe can be received; when the material receiving pipe moves to the second position, the material receiving pipe is located below the blowing connector, so that gas enters the material receiving pipe, and the spring can be accelerated to reach the position required by the next procedure. The event the utility model discloses a spring feed divider has degree of automation height, reduces the cost of labor, divides the advantage of reliable operation and simple structure compactness of material.

Drawings

Fig. 1 is a schematic perspective view of the spring separator of the present invention.

Fig. 2 is a front view schematic diagram of the spring material-distributing device of the present invention.

Fig. 3 is a schematic sectional view taken along section line a-a in fig. 2.

Detailed Description

In order to explain technical contents and structural features of the present invention in detail, the following description is made with reference to the embodiments and the accompanying drawings.

Referring to fig. 1 to 3, the spring distributing device 100 of the present invention includes a base 1, a distributing pipe 2, a blowing joint 3, a distributing assembly 4 and a receiving assembly 5. The material distributing pipe 2 is vertically installed on the base 1, the air blowing connector 3 is installed on the base 1 and is spaced from the material distributing pipe 2 along the horizontal direction, the material distributing assembly 4 is installed on the base 1 and is arranged beside the material distributing pipe 2, the material distributing assembly 4 is used for distributing materials for the spring 200 in the material distributing pipe 2, the material receiving assembly 5 is installed on the base 1 and is located below the material distributing assembly 4, and the material receiving assembly 5 selectively moves to the position aligned with the material distributing assembly 4 or the air blowing connector 3. It will be appreciated that the blow connector 3 is in communication with an external air source. The material distributing pipe 2 is communicated with an external spring 200 feeding machine, and the spring 200 is conveyed to the material distributing pipe 2 through the spring 200 feeding machine. The material distributing assembly 4 distributes the material to the springs 200 in the material distributing pipe 2, and the material receiving assembly 5 is used for receiving the springs 200 from the material distributing pipe 2 and conveying the springs 200 to the next process by means of the air blowing joint 3. More specifically, the following:

referring to fig. 1 to 3, the distributing assembly 4 includes two distributing members 41 spaced apart in the up-down direction and distributing cylinders 42 for driving the distributing members 41 to move in the horizontal direction, the distributing cylinders 42 are spaced apart in the up-down direction, and one distributing cylinder 42 is correspondingly connected to one distributing member 41. Specifically, the distributing cylinder 42 alternately drives the distributing member 41 so that the distributing member 41 is alternately inserted into the distributing pipe 2 in the horizontal direction. For example, when the upper distributing member 41 (hereinafter, referred to as a first distributing member 41a) is driven to be inserted into the distributing pipe 2, the lower distributing member 41 (hereinafter, referred to as a second distributing member 41b) is driven to be separated from the distributing pipe 2. Similarly, when the second distributing member 41b is driven to be inserted into the distributing pipe 2, the first distributing member 41a is driven to be separated from the distributing pipe 2. Specifically, in the embodiment, the material distributing member 41 is a cylindrical structure, the material distributing pipe 2 is provided with an insertion slot (not shown) for inserting the material distributing member 41, and the insertion hole is a hole-shaped structure. Of course, in other embodiments, when the dispensing member 41 is a sheet-like structure, the slot is an unclosed annular slot structure, and therefore the invention is not limited thereto. For example, when the material distributing assembly 4 distributes the material to the springs 200 in the material distributing pipe 2, when the first spring 200 enters the material distributing pipe 2, the first material distributing part 41a contracts, the second material distributing part 41b extends to receive the springs 200, and the material receiving mechanism receives the materials; when the second spring 200 enters the material distributing pipe 2, the first distributing member 41a extends to block the spring 200, after the material receiving mechanism receives the first spring 200, the first distributing member 41a contracts, the second distributing member 41b inserts to block the second spring 200, and after the material receiving assembly 5 is in place and the second spring 200 leaves the material distributing pipe 2, the third spring 200 can be blocked by the second distributing member 41 b. By analogy, the aim of distributing the springs 200 one by one is fulfilled.

Referring to fig. 1 to 3, the receiving assembly 5 includes a receiving tube 51 and a receiving cylinder 52 for driving the receiving tube 51 to move between a first position and a second position, and the receiving cylinder 52 is connected to the receiving tube 51. When the material receiving pipe 51 is located at the first position, the material receiving pipe 51 is opposite to the lower part of the material separating pipe 2, and when the material receiving pipe 51 is located at the second position, the material receiving pipe 51 is opposite to the lower part of the air blowing joint 3. For example, when the receiving cylinder 52 drives the receiving tube 51 to move to the position below the distributing tube 2, the second distributing member 41b is driven to leave the distributing tube 2, so that the spring 200 leaves the distributing tube 2 and falls into the receiving tube 51, and then the receiving tube 51 moves to the position below the blowing connector 3, and the spring 200 is blown to the required position of the next process along the receiving tube 51 by the action of the air flow.

Referring to fig. 1 to 3, the number of the material distributing pipes 2 is two, and the number of the blowing joints 3 and the material receiving pipes 51 is the same as that of the material distributing pipes 2. Of course, in other embodiments, the number of the material distributing pipes 2 may be one, three, four or five, and therefore, the present invention is not limited thereto. Specifically, all the distributing pipes 2 are spaced apart from each other in the horizontal direction, and the spacing direction of the adjacent distributing pipes 2 is staggered with the spacing direction of the distributing pipes 2 and the blowing joints 3. More specifically, the material distribution pipe 2 is spaced from the air-blowing joint 3 in the left-right direction, and adjacent material pipes 51 are spaced from each other in the front-rear direction. Preferably, a set of material dividing pieces 41 spaced apart from each other in the up-down direction is correspondingly arranged beside each material dividing pipe 2, all the material dividing pieces 41 positioned above move synchronously, all the material dividing pieces 41 positioned below move synchronously, and all the material receiving pipes 51 move synchronously. For the purpose of synchronously moving all the first distributing members 41a and synchronously moving all the second distributing members 41b, the distributing assembly 4 further includes two mounting blocks 43, wherein one mounting block 43 is connected to the distributing cylinder 42 located above, and the other mounting block 43 is connected to the distributing cylinder 42 located below, so that the two mounting blocks 43 are spaced apart in the up-down direction. The first distributing member 41a is fixedly connected to the upper mounting block 43, and the second distributing member 41b is fixedly connected to the lower mounting block 43. All the first distributing members 41a can be driven to move by one distributing cylinder 42, and all the second distributing members 41b can be driven to move by one distributing cylinder 42. Similarly, the receiving assembly 5 further includes a clamping block 53 for clamping the receiving tubes 51, all the receiving tubes 51 are spaced apart in the front-back direction and penetrate through the clamping block 53, and the receiving cylinder 52 is connected to the clamping block 53. By means of the connection of the material receiving cylinder 52 and the clamping block 53, the effect that one material receiving cylinder 52 simultaneously drives two material receiving pipes 51 to move can be achieved. Of course, in other embodiments, one, three or four different distributing members 41 may be disposed on one mounting block 43, and one, three or four material receiving pipes 51 may be disposed on one clamping block 53, so that the disclosure is not limited thereto. Preferably, in this embodiment, the mounting block 43 is a T-shaped block structure, so as to facilitate the compact structure and the reasonable space utilization, and can support more material distributing members 41 and facilitate the installation with the material distributing cylinder 42. Preferably, in the present embodiment, the material receiving assembly 5 further includes a connecting block 54, the connecting block 54 is connected to the output end of the material receiving cylinder 52 and is located below the clamping block 53, the connecting block 54 is provided with a through hole 541 for a connecting pipe (not shown) to pass through, the connecting pipe is communicated with the material receiving pipe 51, and the connecting pipe is used for connecting to a required position of a next process of the spring 200. It is understood that, in other embodiments, the connecting block 54 and the connecting tube can be eliminated, and the material receiving tube 51 is directly connected to the desired position of the spring 200 in the next process, so the invention is not limited thereto.

The working principle of the spring distributing device 100 of the present invention is explained with reference to the accompanying drawings: the springs 200 enter the distributing pipe 2 in sequence, the distributing cylinder 42 drives the distributing parts 41 to be alternately inserted into the distributing pipe 2, and when the first distributing part 41a is inserted into the distributing pipe 2 and the second distributing part 41b is separated from the distributing pipe 2, the lower spring 200 is allowed to fall into the receiving pipe 51 and the upper spring 200 is resisted; when the first distributing member 41a leaves the distributing pipe 2 and the second distributing member 41b is inserted into the distributing pipe 2, the upper spring 200 is allowed to fall until the second distributing member 41b is abutted, and the operation is circulated so that the spring 200 falls into the receiving pipe 51 orderly and fixedly at intervals; when the material receiving pipe 51 is opposite to the material distributing pipe 2, the second material distributing part 41b leaves the material distributing pipe 2 to enable the spring 200 to fall into the material receiving pipe 51; then, the material receiving cylinder 52 drives the material receiving pipe 51 to move from the first position to the second position, at this time, the material receiving pipe 51 is opposite to the air blowing connector 3, and the air blowing connector 3 blows air to make the spring 200 fall into a required position of a next process along the material receiving pipe 51 and the connecting pipe.

Compared with the prior art, by means of the mutual coordination and matching among the base 1, the material distributing pipe 2, the air blowing joint 3, the material distributing assembly 4 and the material receiving assembly 5, the material distributing assembly 4 is arranged beside the material distributing pipe 2, the material distributing assembly 4 comprises two material distributing pieces 41 which are spaced along the up-down direction, and the material distributing pieces 41 are alternately inserted into the material distributing pipe 2, so that the springs 200 are orderly and fixedly dropped into the material receiving pipe 51 at intervals; moreover, because the material receiving assembly 5 is positioned below the material distributing assembly 4, and the material receiving pipe 51 in the material receiving assembly 5 is moved and switched between the first position and the second position, when the material receiving pipe 51 is positioned at the first position, the material receiving pipe 51 is positioned below the material distributing pipe 2, so that the spring 200 falling from the material distributing pipe 2 can be received; when the material receiving pipe 51 is moved to the second position, the material receiving pipe 51 is positioned below the gas blowing connector 3, so that gas enters the material receiving pipe 51, thereby accelerating the spring 200 to reach a position required by the next process. The event the utility model discloses a spring feed divider 100 has degree of automation height, reduces the cost of labor, divides the advantage of reliable and simple structure compactness of material work.

The above disclosure is only a preferred embodiment of the present invention, and the scope of the claims of the present invention should not be limited thereby, and all the equivalent changes made in the claims of the present invention are intended to be covered by the present invention.

Claims

1. The spring distributing device is characterized by comprising a base, a distributing pipe, a blowing connector, a distributing assembly and a receiving assembly, wherein the distributing pipe is vertically arranged on the base, the blowing connector is arranged on the base and is spaced from the distributing pipe along the horizontal direction, the distributing assembly is arranged on the base and is arranged beside the distributing pipe, the distributing assembly comprises two distributing parts spaced along the vertical direction, the distributing parts are alternately inserted into the distributing pipe along the horizontal direction, the receiving assembly is arranged on the base and is positioned below the distributing assembly, the receiving assembly comprises a receiving pipe, and the receiving pipe is movably switched between a first position right below the distributing pipe and a second position right below the blowing connector.

2. The spring distribution device of claim 1, wherein the distribution member is a sheet structure or a column structure.

3. The spring feed divider of claim 1, wherein the feed divider is provided with an insertion slot into which the feed divider is inserted.

4. The spring material distribution device according to claim 1, wherein the material distribution assembly further comprises material distribution cylinders for driving the material distribution members to move in the horizontal direction, the material distribution cylinders are spaced apart in the vertical direction, one material distribution cylinder is correspondingly connected to one material distribution member, and the material distribution cylinders alternately drive the material distribution members so that the material distribution members are alternately inserted into the material distribution pipes.

5. The spring material distribution device according to claim 1, wherein the material receiving assembly further comprises a material receiving cylinder for driving the material receiving pipe to move between the first position and the second position, and the material receiving cylinder is connected with the material receiving pipe.

6. The spring material distribution device according to claim 5, wherein the material receiving assembly comprises a clamping block for clamping the material receiving pipe, the material receiving pipe is arranged on the clamping block in a penetrating mode, and the material receiving cylinder is connected with the clamping block.

7. The spring distributing device according to claim 1, wherein the number of the distributing pipes is at least two, and the number of the blowing joints and the number of the receiving pipes are the same as that of the distributing pipes.

8. The spring distribution device of claim 7, wherein all the distribution pipes are horizontally spaced from each other, and the spacing direction of the adjacent distribution pipes is staggered with the spacing direction of the distribution pipes and the blowing joints.

9. The spring distribution device according to claim 7, wherein a set of distribution members spaced apart from each other in the up-down direction is correspondingly disposed beside each distribution tube, all the distribution members above move synchronously, all the distribution members below move synchronously, and all the receiving tubes move synchronously.

10. The spring divider of claim 9 wherein the divider assembly further comprises two vertically spaced mounting blocks, the divider member being fixedly attached to the mounting blocks.