CN217703581U

CN217703581U - Heat preservation piece cutting machine

Info

Publication number: CN217703581U
Application number: CN202220340548.0U
Authority: CN
Inventors: 谢土根; 仲珏亮
Original assignee: Zhejiang Xingfeng Tech Co ltd
Current assignee: Zhejiang Xingfeng Tech Co ltd
Priority date: 2022-02-18
Filing date: 2022-02-18
Publication date: 2022-11-01
Anticipated expiration: 2032-02-18

Abstract

The utility model provides a heat preservation piece cutting machine belongs to the cutting field. It includes the support, the support on be equipped with the cutting passageway, the upside of cutting passageway be equipped with conveying component, the downside of cutting passageway be equipped with down conveying component, last conveying component and conveying component are the same with the conveying face direction of transfer that the cutting passageway laminated mutually down, the top of cutting passageway still be equipped with cutting component, cutting component extend into in the cutting passageway. Its advantage lies in that the staff only need place the entrance of cutting passageway with the heat preservation piece, does not need manual cutting heat preservation piece, reduces the human cost. And the working efficiency is increased by replacing manual work with machines.

Description

Heat preservation piece cutting machine

Technical Field

The utility model belongs to the cutting field especially relates to a heat preservation piece cutting machine.

Background

In the process of installing heating appliances such as an air conditioner, a warmer and the like, the heat preservation sheet needs to be wrapped outside the device for heat preservation, so that the heat production and the working efficiency are improved. In the actual process, the workman transports the heat preservation piece to the machine limit and carries out the field installation, but because the device has a plurality of sides in a plurality of end angles, and the heat preservation piece is in complete state, in the installation, the heat preservation piece need buckle along the machine surface, but the heat preservation piece has certain intensity, produce the uplift easily at the in-process of buckling, the line strip of buckling is unobvious and the line slope of buckling does not match with the device, or need the workman can be attached on the machine after the heat preservation piece buckles when carrying out the on-the-spot cutting heat preservation piece according to the machine, but its inefficiency and cost of labor are big. Therefore, a technical scheme for solving the problem of easy bending of the heat preservation sheet before installation is needed.

Disclosure of Invention

The utility model aims at the above-mentioned problem, provide a heat preservation piece cutting machine.

In order to achieve the above purpose, the utility model adopts the following technical proposal:

the utility model provides a heat preservation piece cutting machine, includes the support, the support on be equipped with the cutting passageway, the upside of cutting passageway be equipped with conveying assembly, the downside of cutting passageway be equipped with down conveying assembly, last conveying assembly and lower conveying assembly be parallel to each other with the part that the cutting passageway was laminated mutually, the top of cutting passageway still be equipped with cutting assembly, cutting assembly's cutting sword extend into in the cutting passageway.

In foretell heat preservation piece cutting machine, last transmission assembly including rotate the first roller of last transmission and last transmission second roller that sets up in the support, last transmission first roller and last transmission second roller between the cover be equipped with a plurality of head-to-tail first line push away silk, lower transmission assembly including rotate the first roller of lower transmission and the second roller of lower transmission that sets up in the support, lower transmission first roller and lower transmission second roller between the cover be equipped with a plurality of head-to-tail second line push away silk.

In the heat preservation sheet cutting machine, the contact parts of the first pushing wires and the second pushing wires and the cutting channel are arranged in parallel.

In the heat preservation piece cutting machine, the cutting assembly comprises a cutting roller which is rotatably arranged in the bracket, two cutting round pieces are arranged on the cutting roller, and the lower ends of the cutting round pieces extend into the cutting channel.

In the above thermal insulation sheet cutting machine, the lower transfer second roller is located directly below the cutting roller.

In the heat-insulating sheet cutting machine, the upper conveying second roller and the lower conveying second roller are respectively provided with a plurality of ring limiting grooves, and the first pushing wire and the second pushing wire are respectively sleeved in the corresponding limiting grooves.

In the heat-insulating sheet cutting machine, the outer surfaces of the upper conveying second roller and the lower conveying second roller are arranged roughly, and the outer surfaces of the first pushing wire and the second pushing wire, which are positioned in the limiting grooves, are flush with the outer surfaces of the corresponding first pushing wire and the corresponding second pushing wire.

In the heat preservation piece cutting machine, the upper conveying assembly further comprises a pressing roller rotatably arranged in the support, the pressing roller is located between the upper conveying first roller and the upper conveying second roller, and the first pushing wire is in contact with the lower end of the pressing roller.

In the heat-insulating sheet cutting machine, a pressing strip is further arranged at the inlet of the cutting channel, the pressing strip is arranged in an arc shape, and the pressing strip is positioned above the lower conveying first roller.

In foretell heat preservation piece cutting machine, the both sides of support be equipped with first drive case and second drive case respectively, last transmission first roller and last transmission second roller rotate and extend into first drive incasement, first drive incasement be equipped with first conveying chain, first conveying chain link to each other and with last transmission first roller and last transmission second roller meshing connection, first roller of lower transmission, second roller of lower transmission and cutting roller rotate and extend into the second drive incasement, the second drive incasement be equipped with the second conveying chain, second conveying chain rotate the motor with the electricity two and link to each other and with the first roller of lower transmission, the second roller of lower transmission and cutting roller meshing connection.

Compared with the prior art, the utility model has the advantages of:

1. the staff only need place the entrance of cutting passageway with the heat preservation piece, does not need manual cutting heat preservation piece, reduces the human cost. And the working efficiency is increased by replacing manual work with machines.

2. The second conveying roller is arranged right below the cutting position, so that the situation that the cutting depth is insufficient due to the fact that the heat preservation sheet moves downwards is prevented.

Drawings

FIG. 1 is a schematic view of an operating state;

FIG. 2 is a schematic structural view;

FIG. 3 is a schematic view of a first drive housing;

fig. 4 is a schematic view of a second drive housing.

In the figure: the cutting device comprises a support 10, a cutting channel 11, an upper conveying assembly 12, a lower conveying assembly 13, a cutting assembly 14, an upper conveying first roller 15, an upper conveying second roller 16, a first push wire 17, a lower conveying first roller 18, a lower conveying second roller 19, a second push wire 20, a cutting roller 21, a cutting wafer 22, a limiting groove 23, a pressing roller 24, a pressing strip 25, a first driving box 26, a second driving box 27, a first conveying chain 28 and a second conveying chain 29.

Detailed Description

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

Referring to fig. 1-4, the heat-insulating sheet cutting machine comprises a support 10, a cutting channel 11 is arranged on the support 10, an upper conveying assembly 12 is arranged on the upper side of the cutting channel 11, a lower conveying assembly 13 is arranged on the lower side of the cutting channel 11, the upper conveying assembly 12, the lower conveying assembly 13 and the cutting channel 11 are parallel to each other, a cutting assembly 14 is arranged above the cutting channel 11, and a cutting edge of the cutting assembly 14 extends into the cutting channel 11.

In this embodiment, the upper conveying assembly 12 and the lower conveying assembly 13 are conveyed under the operation of a power supply, the conveying directions of conveying surfaces of the upper conveying assembly 12 and the lower conveying assembly 13, which are attached to the cutting channel 11, are the same, and the conveying speeds are the same, in the cutting process, the heat preservation sheet is plugged into the inlet of the cutting channel 11, the heat preservation sheet is driven by the upper conveying assembly 12 and the lower conveying assembly 13 to move towards the outlet of the cutting channel 11, in the moving process of the heat preservation sheet, because the cutting part in the cutting assembly 14 extends into the cutting channel 11, the heat preservation sheet is cut by the cutting assembly 14, so that a plurality of bending grooves are cut in the heat preservation sheet, and the heat preservation sheet can be bent along the bending grooves in the subsequent process of installing the heat preservation sheet. In the process, the staff only need place the entrance of cutting passageway 11 with the heat preservation piece, need not manual cutting heat preservation piece, reduces the human cost.

Last transmission assembly 12 including rotate and set up the first roller 15 of last transmission and go up transmission second roller 16 in support 10, last transmission first roller 15 and last transmission second roller 16 between the cover be equipped with the first line push away silk 17 of a plurality of end to end, lower transmission assembly 13 including rotate the first roller 18 of lower transmission and the second roller 19 of lower transmission that sets up in support 10, the first roller 18 of lower transmission and the second roller 19 of lower transmission between the cover be equipped with a plurality of end to end second line push away silk 20.

In this embodiment, the upper conveying first roller 15 and the upper conveying second roller 16 are rolled by the operation of the power source, and the first ejector wire 17 is circularly conveyed by this operation; the lower conveying first roller 18 and the lower conveying second roller 19 are rolled under the operation of the power supply, and the second pushing wire 20 is circularly conveyed under the action of the rolling. In the process, the conveying speed of the first pushing wires 17 is equal to that of the second pushing wires 20, so that in the process of conveying the heat preservation piece, the plurality of first pushing wires 17 and the plurality of second pushing wires 20 respectively abut against the upper side and the lower side of the heat preservation piece, and the heat preservation piece is pushed to move through friction force.

The contact parts of the first push wires 17 and the second push wires 20 with the cutting channel 11 are arranged in parallel.

In this embodiment, the directions of the portions of the plurality of first push wires 17 and the plurality of second push wires 20 contacting the cutting channel 11 are directed from the inlet of the cutting channel 11 to the outlet of the cutting channel 11, that is, the conveying directions of the portions of the first push wires 17 and the plurality of second push wires 20 contacting the cutting channel 11 are the same as the moving direction of the heat-insulating sheet, so as to prevent the heat-insulating sheet from being damaged by pulling or changing the moving direction of the heat-insulating sheet due to the inconsistency between the conveying directions of the first push wires 17 and the plurality of second push wires 20 and the moving direction of the heat-insulating sheet, thereby changing the cutting position.

The cutting assembly 14 comprises a cutting roller 21 rotatably arranged in the support 10, two cutting disks 22 are arranged on the cutting roller 21, and the lower ends of the cutting disks 22 extend into the cutting channel 11.

In the present embodiment, two cut wafers 22 for cutting the thermal insulation sheet extend into the cutting passage 11, and during the movement of the thermal insulation sheet, the thermal insulation sheet may hit the cut wafers 22, and the cut wafers 22 may be embedded in the thermal insulation sheet for cutting.

Said lower second transfer roller 19 is located directly below the cutting roller 21.

In this embodiment, since the cut wafer 22 is pressed downward due to the pressing during the cutting process, the second transfer roller 19 is disposed immediately below the cutting position to prevent the heat retaining sheet from moving downward due to the pressing and the insufficient cutting depth.

The upper conveying second roller 16 and the lower conveying second roller 19 are respectively provided with a plurality of limiting grooves 23, and the first pushing wire 17 and the second pushing wire 20 are respectively sleeved in the corresponding limiting grooves 23.

In this embodiment, the stopper groove 23 can prevent the first push wire 17 and the second push wire 20 from being displaced during the circulation.

The outer surfaces of the upper conveying second roller 16 and the lower conveying second roller 19 are arranged in a rough manner, and the outer surfaces of the first pushing wires 17 and the second pushing wires 20, which are positioned in the limiting grooves 23, are flush with the outer surfaces of the corresponding first pushing wires 17 and the corresponding second pushing wires 20.

In this embodiment, the upper and lower

second transfer rollers

16, 19 also generate friction to move the warming sheet when they come into contact with the warming sheet.

The upper conveying assembly 12 further comprises a pressing roller 24 rotatably arranged in the support 10, the pressing roller 24 is positioned between the upper conveying first roller 15 and the upper conveying second roller 16, and the first push wire 17 is in contact with the lower end of the pressing roller 24.

In this embodiment, the function of the pressure roller 24 is to keep the first push wire 17 under tension, so that the first push wire 17 can tightly fit with the heat-insulating sheet to generate sufficient friction.

The entrance of the cutting channel 11 is also provided with a pressing strip 25, the pressing strip 25 is arranged in an arc shape, and the pressing strip 25 is positioned above the lower conveying first roller 18.

In this embodiment, the bottom of the bead 25 is smooth arc-shaped, so that the end of the insulation sheet can be pushed to move accurately to the entrance of the cutting channel 11 and enter the cutting channel 11, and the insulation sheet is prevented from abutting on the upper conveying first roller 15 or the lower conveying first roller 18.

Support 10's both sides be equipped with first drive case 26 and second drive case 27 respectively, last transmission first roller 15 and last transmission second roller 16 rotate and extend into first drive case 26 in, first drive case 26 in be equipped with first transfer chain 28, first transfer chain 28 link to each other with electric rotating motor and with last transmission first roller 15 and last transmission second roller 16 mesh and be connected, lower transmission first roller 18, lower transmission second roller 19 and cutting roller 21 rotate and extend into second drive case 27 in, second drive case 27 in be equipped with second transfer chain 29, second transfer chain 29 rotate the motor with electric two and link to each other and with lower transmission first roller 18, lower transmission second roller 19 and cutting roller 21 mesh and be connected.

The utility model discloses a theory of operation does: the first rotating motor operates to rotate the upper first transfer roller 15 and the upper second transfer roller 16, thereby circulating the first pusher wire 17, and the second rotating motor operates to rotate the lower first transfer roller 18, the lower second transfer roller 19, and the cutting roller 21, thereby rotating the second pusher wire 20 and the cut disc 22. The heat preservation sheet is moved to the inlet of the cutting channel 11, the heat preservation sheet is moved towards the outlet of the cutting channel 11 under the driving of friction force generated by the first pushing wire 17 and the second pushing wire 20, and the cutting wafer 22 cuts the heat preservation sheet in the moving process.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although the support 10, the cutting tunnel 11, the upper transfer assembly 12, the lower transfer assembly 13, the cutting assembly 14, the upper transfer first roller 15, the upper transfer second roller 16, the first push wire 17, the lower transfer first roller 18, the lower transfer second roller 19, the second push wire 20, the cutting roller 21, the cutting disc 22, the stopper groove 23, the pressing roller 24, the pressing bar 25, the first drive case 26, the second drive case 27, the first drive case 26, the first conveyor chain 28, the second conveyor chain 29, etc., are used more extensively herein, these terms are used only for the purpose of more conveniently describing and explaining the essence of the present invention; they are to be construed in a manner that is inconsistent with the spirit of the invention.

Claims

1. The utility model provides a heat preservation piece cutting machine, includes support (10), characterized in that, support (10) on be equipped with cutting passageway (11), the upside of cutting passageway (11) be equipped with transport assembly (12), the downside of cutting passageway (11) be equipped with down transport assembly (13), last transport assembly (12) and lower transport assembly (13) be parallel to each other with the part that cutting passageway (11) laminated, the top of cutting passageway (11) still be equipped with cutting assembly (14), the cutting blade of cutting assembly (14) extend into in cutting passageway (11).

2. The insulation sheet cutting machine according to claim 1, wherein the upper conveying assembly (12) comprises an upper conveying first roller (15) and an upper conveying second roller (16) which are rotatably arranged in the bracket (10), a plurality of head-to-tail first push wires (17) are sleeved between the upper conveying first roller (15) and the upper conveying second roller (16), the lower conveying assembly (13) comprises a lower conveying first roller (18) and a lower conveying second roller (19) which are rotatably arranged in the bracket (10), and a plurality of head-to-tail second push wires (20) are sleeved between the lower conveying first roller (18) and the lower conveying second roller (19).

3. The heat-insulating sheet cutting machine according to claim 2, wherein the first push wire (17) and the second push wire (20) are arranged in parallel with a portion of the cutting passage (11) in contact therewith.

4. The insulation-sheet cutting machine according to claim 2, wherein the cutting assembly (14) comprises a cutting roller (21) rotatably disposed in the frame (10), two cutting disks (22) are disposed on the cutting roller (21), and the lower ends of the cutting disks (22) extend into the cutting channel (11).

5. Insulation sheeting cutting machine according to claim 4, wherein the lower transfer second roller (19) is located directly below the cutting roller (21).

6. The insulation sheet cutting machine according to claim 2, wherein the upper conveying second roller (16) and the lower conveying second roller (19) are respectively provided with a plurality of ring limiting grooves (23), and the first pushing wire (17) and the second pushing wire (20) are respectively sleeved in the corresponding limiting grooves (23).

7. The insulation sheet cutting machine according to claim 6, wherein the outer surfaces of the upper conveying second roller (16) and the lower conveying second roller (19) are rough, and the outer surfaces of the first pushing wire (17) and the second pushing wire (20) in the limiting groove (23) are flush with the outer surfaces of the corresponding first pushing wire (17) and the corresponding second pushing wire (20).

8. The insulation sheet cutting machine according to claim 2, wherein the upper conveying assembly (12) further comprises a pressing roller (24) rotatably disposed in the frame (10), the pressing roller (24) is disposed between the upper conveying first roller (15) and the upper conveying second roller (16), and the first push wire (17) is in contact with a lower end of the pressing roller (24).

9. The insulation sheet cutting machine according to claim 1, wherein a bead (25) is further provided at the entrance of the cutting channel (11), the bead (25) is disposed in an arc shape, and the bead (25) is located above the lower conveying first roller (18).

10. The heat-insulating sheet cutting machine according to claim 4, wherein a first driving box (26) and a second driving box (27) are respectively arranged on two sides of the support (10), the first upper conveying roller (15) and the second upper conveying roller (16) rotatably extend into the first driving box (26), a first conveying chain (28) is arranged in the first driving box (26), the first conveying chain (28) is connected with an electric rotating motor and is engaged with the first upper conveying roller (15) and the second upper conveying roller (16), the first lower conveying roller (18), the second lower conveying roller (19) and the cutting roller (21) rotatably extend into the second driving box (27), a second conveying chain (29) is arranged in the second driving box (27), and the second conveying chain (29) is connected with the electric rotating motor and is engaged with the first lower conveying roller (18), the second lower conveying roller (19) and the cutting roller (21).