CN112777342A

CN112777342A - Heat preservation silver feed divider

Info

Publication number: CN112777342A
Application number: CN202011538294.5A
Authority: CN
Inventors: 刘锋利
Original assignee: Liaoning Xinshuo Intelligent Machinery Co ltd
Current assignee: Liaoning Xinshuo Intelligent Machinery Co ltd
Priority date: 2020-12-23
Filing date: 2020-12-23
Publication date: 2021-05-11
Anticipated expiration: 2040-12-23
Also published as: CN112777342B

Abstract

A heat-preservation cotton sliver distributing device comprises a conveying mechanism, a translation mechanism which is arranged on a conveying mechanism rack and moves back and forth, and a material taking mechanism which is arranged on the translation mechanism rack and moves left and right, wherein the material taking mechanism comprises a plurality of pin modules which are arranged left and right and are slidably mounted on the translation mechanism rack, and a power source which is arranged on the translation mechanism rack and is used for enabling the pin modules on two sides to move left and right relatively, the pin modules are divided into two groups or three groups, a material pushing mechanism which moves back and forth is mounted above the material taking mechanism on the translation mechanism, and the directions of the pin modules and the directions of the material pushing mechanism in the material taking mechanism are opposite to the. In the production process of the color steel heat-insulating plate, the heat-insulating cotton strips can be automatically laid on the left side and the right side of the two color steel plates, so that the labor intensity of operators is reduced, time and labor are saved, the production efficiency is improved, and the requirement of mass production of the color steel heat-insulating plate can be met.

Description

Heat preservation silver feed divider

Technical Field

The invention relates to heat preservation cotton sliver distributing equipment in a color steel heat preservation plate production process, in particular to a heat preservation cotton sliver distributing device.

Background

The color steel heat insulation board is composed of two color steel plates and heat insulation cotton slivers adhered between the two color steel plates, and the heat insulation cotton slivers in the color steel heat insulation board are fully distributed between the two color steel plates. In order to enhance the strength of the color steel heat-insulation plate and meet the use requirements of users, the heat-insulation cotton slivers are laid on the left side and the right side of the two color steel plates, and vertically-placed steel bands are filled between the heat-insulation cotton slivers on the left side and the right side at equal intervals. The heat preservation cotton sliver of the color steel heat preservation plate with the structure adopts a manual laying mode, the labor intensity of operators is high, time and labor are wasted, the production efficiency is low, and the requirement of mass production of the color steel heat preservation plate cannot be met.

Disclosure of Invention

The invention aims to solve the technical problems and provides the heat-insulation cotton sliver distributing device which can automatically lay the heat-insulation cotton slivers on the left side and the right side of two color steel plates in the production process of the color steel heat-insulation plates, reduce the labor intensity of operators, save time and labor, improve the production efficiency and meet the requirement of mass production of the color steel heat-insulation plates.

The technical solution of the invention is as follows:

the utility model provides a heat preservation silver feed divider, includes conveying mechanism, its special character lies in: the pin pushing mechanism comprises a conveying mechanism, a material taking mechanism and a pin pushing mechanism, wherein the conveying mechanism is provided with a translation mechanism which moves back and forth, the material taking mechanism is arranged on the translation mechanism and comprises a plurality of pin modules which are arranged left and right and are slidably arranged on a frame of the translation mechanism, and a power source which is arranged on the frame of the translation mechanism and is used for enabling the pin modules on two sides to move left and right relatively, the plurality of pin modules are divided into two groups or three groups, the material pushing mechanism which moves back and forth is arranged above the material taking mechanism on the translation mechanism, and the direction of the pin modules in the material taking mechanism and the direction.

Preferably, separable connectors are arranged between two adjacent pin modules in each group of pin modules and between two adjacent pin modules between groups, and the pin modules are grouped through the separable connectors.

Further preferably, each group of pin modules is equal in number.

Further preferably, a balance frame which slides left and right is arranged on the conveying mechanism rack, tension springs are respectively connected between the left side and the right side of the conveying mechanism rack and the balance frame, the translation mechanism is arranged on the balance frame, and the material taking mechanism and the heat preservation cotton sliver are self-adaptively aligned under the action of the tension springs on the left side and the right side.

Further preferably, the separable connector is formed by a latch hook hinged to one of the pin modules and a latch pin mounted to an adjacent pin module.

Preferably, the pushing mechanism comprises a push plate slidably mounted on the translation mechanism rack and a third cylinder connected between the translation mechanism rack and the push plate.

Further preferably, the translation mechanism comprises a translation mechanism frame which is slidably mounted on the conveying mechanism frame, and a first air cylinder which is connected between the conveying mechanism frame and the translation mechanism frame.

Further preferably, the power source is a second cylinder connected between two sides of the translation mechanism rack and the pin module on the corresponding side.

The invention has the beneficial effects that:

drive extracting mechanism through translation mechanism and snatch the heat preservation silver, realize through extracting mechanism that the heat preservation silver is divided into groups, rethread pushing equipment with the heat preservation silver propelling movement of grouping to conveying mechanism on, realize that the heat preservation silver is automatic to be divided the material, replaced traditional artifical material distribution mode, reduced operation workman's intensity of labour, labour saving and time saving has improved production efficiency, has reduced manufacturing cost, has satisfied various steel heated board mass production requirement.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a top view of FIG. 1;

FIG. 3 is a schematic view of the structure of the connector;

in the figure: 1-conveying mechanism frame, 2-first slideway, 3-balancing frame, 4-tension spring, 5-second slideway, 6-translation mechanism frame, 7-first cylinder, 8-third slideway, 9-pin module, 10-connecting piece, 11-second cylinder, 12-fourth slideway, 13-push plate, 14-third cylinder, 1001-lock hook and 1002-lock pin.

Detailed Description

As shown in fig. 1-3, a heat preservation cotton sliver distributing device comprises a conveying mechanism, a balancing stand 3 which slides left and right is arranged on a conveying mechanism frame 1 through a first slide way 2, tension springs 4 are respectively connected between two sides of the conveying mechanism frame 1 and the balancing stand 3, a translation mechanism which moves back and forth is arranged on the balancing stand 3, the translation mechanism comprises a translation mechanism frame 6 which is arranged on the conveying mechanism frame 1 through a second slide way 5 and a first air cylinder 7 which is connected between the conveying mechanism frame 1 and the translation mechanism frame 6, a material taking mechanism which moves left and right is arranged on the translation mechanism frame 6, the material taking mechanism comprises six pin modules 9 which are arranged left and right and are arranged on the translation mechanism frame 6 through a third slide way 8, a separable connecting piece 10 which is connected between two adjacent pin modules 9, and a second air cylinder 11 which is connected between two sides of the translation mechanism frame 6 and the pin module 9 at the corresponding side, the pin inserting modules 9 are divided into a left group and a right group, the number of the pin inserting modules 9 in the two groups is equal, the connecting piece 10 is composed of a locking hook 1001 hinged on one pin inserting module 9 through a pin shaft and a locking pin 1002 arranged on the adjacent pin inserting module 9, a pushing mechanism moving back and forth is arranged above the material taking mechanism on the translation mechanism, the pushing mechanism comprises a pushing plate 13 arranged on a translation mechanism rack 6 through a fourth slide rail 12, and a third air cylinder 14 connected between the translation mechanism rack 6 and the pushing plate 13, and the direction of the material taking mechanism and the direction of the pushing mechanism are opposite to the conveying direction of the conveying mechanism.

During operation, firstly, the heat preservation cotton sliver stack is suspended above the conveying mechanism rack 1 through the heat preservation cotton sliver feeding machine, the first air cylinder 7 is started, the contact pins on the left group of contact pin modules 9 and the right group of contact pin modules are inserted into the heat preservation cotton slivers corresponding to the bottom layer of the heat preservation cotton sliver stack, the heat preservation cotton slivers at the bottom layer of the heat preservation cotton sliver stack are released by the heat preservation cotton sliver feeding machine, then the second air cylinder 11 is started, the heat preservation cotton slivers at the bottom layer of the heat preservation cotton sliver stack are equally moved to the left side and the right side through the left group of contact pin modules and the right group of contact pin modules 9, the third air cylinder 14 is started again, the push plate 13 pushes the heat preservation cotton slivers which are.

The above description is only exemplary of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a heat preservation silver feed divider, includes conveying mechanism, its characterized in that: the pin pushing mechanism comprises a conveying mechanism, a material taking mechanism and a pin pushing mechanism, wherein the conveying mechanism is provided with a translation mechanism which moves back and forth, the material taking mechanism is arranged on the translation mechanism and comprises a plurality of pin modules which are arranged left and right and are slidably arranged on a frame of the translation mechanism, and a power source which is arranged on the frame of the translation mechanism and is used for enabling the pin modules on two sides to move left and right relatively, the plurality of pin modules are divided into two groups or three groups, the material pushing mechanism which moves back and forth is arranged above the material taking mechanism on the translation mechanism, and the direction of the pin modules in the material taking mechanism and the direction.

2. The insulated tampon separating device of claim 1, wherein: and separable connecting pieces are arranged between two adjacent pin modules in each group of pin modules and between two adjacent pin modules between groups, and the pin modules are grouped through the separable connecting pieces.

3. The insulated tampon separating device of claim 1, wherein: each group of pin modules is equal in number.

4. The insulated tampon separating device of claim 1, wherein: the conveying mechanism is characterized in that a balancing frame which slides left and right is arranged on the conveying mechanism rack, tension springs are respectively connected between the left side and the right side of the conveying mechanism rack and the balancing frame, and the translation mechanism is arranged on the balancing frame.

5. The insulated tampon separating device of claim 2, wherein: the separable connector is composed of a latch hook hinged on one pin module and a latch pin mounted on the adjacent pin module.

6. The insulated tampon separating device of claim 1, wherein: the pushing mechanism comprises a push plate and a third air cylinder, wherein the push plate is slidably mounted on the translation mechanism rack, and the third air cylinder is connected between the translation mechanism rack and the push plate.

7. The insulated tampon separating device of claim 1, wherein: the translation mechanism comprises a translation mechanism frame which is slidably mounted on the conveying mechanism frame and a first air cylinder which is connected between the conveying mechanism frame and the translation mechanism frame.

8. The insulated tampon separating device of claim 1, wherein: the power source is a second cylinder connected between two sides of the translation mechanism rack and the corresponding side pin module.