CN212952707U

CN212952707U - Multi-power roller type conveying line and material conveying testing device thereof

Info

Publication number: CN212952707U
Application number: CN202021869342.4U
Authority: CN
Inventors: 王文龙; 张磊
Original assignee: Shenzhen Lihexing Co ltd
Current assignee: Shenzhen Lihexing Co ltd
Priority date: 2020-08-31
Filing date: 2020-08-31
Publication date: 2021-04-13
Anticipated expiration: 2030-08-31

Abstract

The utility model discloses a multi-power roller type conveying line, which comprises two parallel conveying frames which are arranged at intervals, wherein a plurality of driving wheel modules and a plurality of driven wheel modules are arranged on the opposite sides of the two conveying frames in the length direction; the driving wheel modules and the driven wheel modules on each conveying frame are arranged in a staggered mode, and the driving wheel modules on one side of one conveying frame and the driven wheel modules on one side of the other conveying frame are arranged in a one-to-one corresponding mode. The utility model discloses a transfer chain is equipped with a plurality of action wheel modules and a plurality of from the driving wheel module, mutual independence, mutual noninterference between each action wheel module, and then can transmit polytype material to different test positions respectively, and the transmission is stable, transmission efficiency is high, in addition, the utility model discloses still provide a material and carry testing arrangement, can be quick through this testing arrangement with material transmission to test station to accomplish the test to the material through connecting testing arrangement, simple and convenient, the practicality is strong.

Description

Multi-power roller type conveying line and material conveying testing device thereof

Technical Field

The utility model relates to a material transmission technical field especially relates to a many power roller type transfer chain and testing arrangement is carried to material thereof.

Background

In the automated production technical field, most equipment need carry out automated transmission to the material, and the current mechanism that is used for automated transmission material is mostly belt (conveyer belt), chain formula mechanism, this type of transmission mechanism is whole one-way conveying basically when material transmission, and can't stop wantonly, and simultaneously, when adopting the belt conveying material, can produce relative frictional force between belt and the material, and then wearing and tearing belt, reduce life, and belt or chain formula transmission mechanism are whole single motion's mechanism, power energy consumption is great, and the cost is higher.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a many power roller type transfer chain, this transfer chain are equipped with a plurality of action wheel modules and a plurality of from the driving wheel module, mutual independence between each action wheel module, mutual noninterference, and then can transmit polytype material to different test positions respectively, and the transmission is stable, and transmission efficiency is high, simultaneously, because mutual independence between the action wheel module, at one of them action wheel module during operation, all the other action wheel modules can stop by oneself, and then practice thrift power resource, reduce cost, economic benefits are high, in addition, the utility model also provides a testing arrangement is carried to material, can be quick through this testing arrangement transmit the material to test station to accomplish the test to the material through connecting testing arrangement, simple and convenient, the practicality is strong.

In order to realize the purpose, the following technical scheme is adopted:

a multi-power roller type conveying line comprises two conveying frames which are arranged in parallel at intervals, wherein a plurality of driving wheel modules and a plurality of driven wheel modules are arranged on the length direction of the opposite sides of the two conveying frames; the driving wheel modules and the driven wheel modules on each conveying frame are arranged in a staggered mode, and the driving wheel modules on one side of one conveying frame and the driven wheel modules on one side of the other conveying frame are arranged in a one-to-one corresponding mode.

Furthermore, each driving wheel module comprises a plurality of driving wheel assemblies, and the driving wheel assemblies are arranged on one side of the conveying frame at intervals along the length direction of the conveying frame; each driving wheel assembly comprises a first motor arranged on the conveying frame and a first roller in driving connection with the first motor.

Furthermore, each driven wheel module comprises a plurality of driven wheel assemblies arranged on one side of the conveying frame at intervals along the length direction of the conveying frame, and each driven wheel assembly comprises a second roller arranged on the conveying frame.

Furthermore, a plurality of support columns are arranged at intervals in the length direction of the bottom of each conveying frame.

In addition, a material conveying testing device is also provided, and comprises a plurality of jacking blocking mechanisms, a connecting testing mechanism, the two conveying frames, a plurality of driving wheel modules and a plurality of driven wheel modules; the jacking blocking mechanisms are arranged between the two conveying frames at intervals, and the connection testing mechanism is arranged at the top of each conveying frame; the jacking blocking mechanism is used for blocking and stopping the materials and jacking the materials to one side of the connection testing mechanism from the driving wheel module and the driven wheel module, and the connection testing mechanism is used for testing the materials.

Further, jacking stop gear is including arranging in the installation riser between two conveying framves, along vertical direction arrange in the first slip module of installation riser one side, arrange the jacking board on first slip module to and install on the installation riser and with the first jacking cylinder of jacking board drive connection.

Furthermore, jacking barrier mechanism still including install the cylinder that blocks on the installation riser to and block the pole with blocking cylinder drive connection.

Adopt above-mentioned scheme, the beneficial effects of the utility model are that:

be equipped with a plurality of action wheel modules and a plurality of from the driving wheel module, mutually independent, mutual noninterference between each action wheel module, and then can transmit polytype material to different test positions respectively, the transmission is stable, transmission efficiency is high, simultaneously, because mutual independence between the action wheel module, at one of them action wheel module during operation, all the other action wheel modules can stop by oneself, and then practice thrift power resource, reduce cost, economic benefits is high, in addition, the utility model also provides a testing arrangement is carried to the material, through this testing arrangement can be quick transmit the material to test station to accomplish the test to the material through connecting testing arrangement, simple and convenient, the practicality is strong.

Drawings

FIG. 1 is a perspective view of the multi-power roller conveyor line of the present invention;

FIG. 2 is a perspective view from another perspective of FIG. 1;

fig. 3 is a perspective view of the material conveying testing device of the present invention;

fig. 4 is a perspective view of the jacking blocking mechanism of the present invention;

wherein the figures identify the description:

1-a transfer rack; 2-driving wheel module;

3, a driven wheel module; 4-a support column;

5, jacking a barrier mechanism; 6, connecting a testing mechanism;

51, installing a vertical plate; 52-a jacking plate;

53-first jacking cylinder; 54-blocking cylinder;

55-blocking the rod.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1 to 2, the utility model provides a multi-power roller conveyor line, which comprises two parallel conveying frames 1 arranged at intervals, wherein a plurality of driving wheel modules 2 and a plurality of driven wheel modules 3 are arranged on the opposite sides of the two conveying frames 1 in the length direction; the driving wheel modules 2 and the driven wheel modules 3 on each conveying frame 1 are arranged in a staggered mode, and the driving wheel modules 2 on one side of one conveying frame 1 and the driven wheel modules 3 on one side of the other conveying frame 1 are arranged in a one-to-one corresponding mode.

Wherein, each driving wheel module 2 comprises a plurality of driving wheel components which are arranged at one side of the conveying frame 1 at intervals along the length direction thereof; each driving wheel assembly comprises a first motor arranged on the conveying frame 1 and a first roller in driving connection with the first motor; each driven wheel module 3 comprises a plurality of driven wheel assemblies arranged on one side of the transmission frame 1 at intervals along the length direction of the transmission frame, and each driven wheel assembly comprises a second roller arranged on the transmission frame 1; a plurality of support columns 4 are arranged at intervals in the length direction of the bottom of each conveying frame 1.

In addition, as shown in fig. 3 to 4, the present invention further provides a material conveying testing device, which includes a plurality of jacking blocking mechanisms 5, a connection testing mechanism 6, and the two conveying frames 1, a plurality of driving wheel modules 2, and a plurality of driven wheel modules 3; the jacking blocking mechanisms 5 are arranged between the two conveying frames 1 at intervals, and the connection testing mechanism 6 is arranged at the top of each conveying frame 1; the jacking blocking mechanism 5 is used for blocking and stopping the materials and jacking the materials to one side of the connection testing mechanism 6 from the driving wheel module 2 and the driven wheel module 3, and the connection testing mechanism 6 is used for testing the materials.

The jacking blocking mechanism 5 comprises an installation vertical plate 51 arranged between the two conveying frames 1, a first sliding module arranged on one side of the installation vertical plate 51 along the vertical direction, a jacking plate 52 arranged on the first sliding module, and a first jacking cylinder 53 which is arranged on the installation vertical plate 51 and is in driving connection with the jacking plate 52; the jacking blocking mechanism 5 further comprises a blocking air cylinder 54 mounted on the mounting vertical plate 51, and a blocking rod 55 in driving connection with the blocking air cylinder 54.

The utility model discloses the theory of operation:

with reference to fig. 1 to 2, in the present embodiment, two driven wheel modules 3 and a driving wheel module 2 disposed between the two driven wheel modules 3 are disposed on one of the transmission frames 1, and two driving wheel modules 2 and a driven wheel module 3 disposed between the two driving wheel modules 2 are disposed on the other transmission frame 1; two sides of the materials are respectively placed on the driving wheel module 2 and the driven wheel module 3 to finish transportation, and the distance between the two conveying frames 1 is adjustable so as to adapt to the transportation of different types of materials; the driving wheel modules 2 are independent from each other, do not interfere with each other, and can be started and stopped at will, so that materials can be conveyed to different testing positions, and meanwhile, the distance between the driving wheel modules 2 and the driven wheel modules 3 can be freely adjusted according to practical application scenes, so that the driving wheel modules are suitable for different use requirements, and the universality is high; because the driving wheel modules 2 are mutually independent, when one driving wheel module 2 works, other driving wheel modules 2 can automatically stop, so that the power resource is saved, the cost is reduced, the economic benefit is high, and meanwhile, the conveying line is reasonable in overall design and compact in structure, can be suitable for different technical fields needing to convey materials, and is high in universality.

In addition, as shown by continuing to refer to fig. 3 to 4, a material testing device designed based on the conveying line is further provided, when the material testing device works, materials can be placed into the carrier firstly, then the carrier is placed on the conveying line to be conveyed, the testing device is provided with a plurality of testing stations, each testing station is provided with a corresponding jacking blocking mechanism 5, the carrier is conveyed to the jacking blocking mechanisms 5 and stopped through blocking rods 55, meanwhile, the driving wheel module 2 on the corresponding conveying line stops working, then, a first jacking cylinder 53 drives a jacking plate 52 to jack the carrier, and then the testing mechanism 6 is connected to insert the materials to complete the testing work; a plurality of test stations are independent each other, do not influence each other, can test a plurality of materials, and efficiency of software testing is high, the practicality is strong.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims

1. A multi-power roller type conveying line is characterized by comprising two conveying frames which are arranged in parallel at intervals, wherein a plurality of driving wheel modules and a plurality of driven wheel modules are arranged on the opposite sides of the two conveying frames in the length direction; the driving wheel modules and the driven wheel modules on each conveying frame are arranged in a staggered mode, and the driving wheel modules on one side of one conveying frame and the driven wheel modules on one side of the other conveying frame are arranged in a one-to-one corresponding mode.

2. The multi-power roller conveyor line according to claim 1 wherein each drive wheel module includes a plurality of drive wheel assemblies mounted on one side of the conveyor frame at spaced intervals along the length of the conveyor frame; each driving wheel assembly comprises a first motor arranged on the conveying frame and a first roller in driving connection with the first motor.

3. The multi-powered roller conveyor line according to claim 2 wherein each driven wheel module includes a plurality of driven wheel assemblies spaced apart along the length of the conveyor frame on one side thereof, and each driven wheel assembly includes a second roller mounted on the conveyor frame.

4. The multi-power roller conveyor line according to claim 1, wherein a plurality of support columns are further provided at intervals in the longitudinal direction of the bottom of each conveyor frame.

5. A material conveying testing device is characterized by comprising a plurality of jacking blocking mechanisms, a connection testing mechanism, two conveying frames, a plurality of driving wheel modules and a plurality of driven wheel modules, wherein the two conveying frames, the driving wheel modules and the driven wheel modules are as claimed in any one of claims 1 to 4; the jacking blocking mechanisms are arranged between the two conveying frames at intervals, and the connection testing mechanism is arranged at the top of each conveying frame; the jacking blocking mechanism is used for blocking and stopping the materials and jacking the materials to one side of the connection testing mechanism from the driving wheel module and the driven wheel module, and the connection testing mechanism is used for testing the materials.

6. The material conveying testing device of claim 5, wherein the jacking blocking mechanism comprises a mounting vertical plate arranged between the two conveying frames, a first sliding module arranged on one side of the mounting vertical plate in the vertical direction, a jacking plate arranged on the first sliding module, and a first jacking cylinder arranged on the mounting vertical plate and in driving connection with the jacking plate.

7. The material handling test device of claim 6, wherein the jacking barrier mechanism further comprises a barrier cylinder mounted on the mounting riser, and a barrier rod drivingly connected to the barrier cylinder.