CN110983524A

CN110983524A - Method for manufacturing biphenyl heat box

Info

Publication number: CN110983524A
Application number: CN201911344585.8A
Authority: CN
Inventors: 沈波; 吴允平
Original assignee: Suzhou Xinyuda Precision Machinery Co ltd
Current assignee: Suzhou Xinyuda Precision Machinery Co ltd
Priority date: 2019-12-24
Filing date: 2019-12-24
Publication date: 2020-04-10
Anticipated expiration: 2039-12-24
Also published as: CN110983524B

Abstract

The invention discloses a manufacturing method of a biphenyl hot box, which comprises a hot box shell and a hot rail arranged in the hot box shell; rock wool is filled in the hot box shell, heat insulation assemblies are respectively arranged on two sides of the hot rail, each heat insulation assembly comprises glass fiber cloth and a heat insulation protective film which are mutually bonded through high-temperature glue, and the glass fiber cloth is arranged close to the hot rail; the manufacturing method of the biphenyl hot box comprises the following steps: step one, manufacturing a heat preservation assembly matched with the size of a hot rail through a cutting and bonding device; step two, respectively attaching the prepared heat insulation components to two sides of the hot rail; and step three, filling rock wool in the hot box shell. According to the manufacturing method of the biphenyl hot box, the heat preservation assembly is manufactured through the cutting and bonding device, so that the manufacturing efficiency of the hot box is improved.

Description

Method for manufacturing biphenyl heat box

Technical Field

The invention relates to a method for manufacturing a biphenyl heat box.

Background

The texturing machine is a textile machine which can process untwisted yarn of terylene, polypropylene fiber and the like into elastic yarn with medium elasticity and low elasticity through false twist texturing. In the use process of the texturing machine, the heating link has great influence on the quality of the final finished silk yarn. At present, when making the biphenyl hot box that is used for adding the bullet machine, the thermal insulation component need laminate respectively in the both sides of hot rail in the hot box, but present preparation thermal insulation component's mode is mostly tailor and bond heat preservation raw and other materials through the manual work, consequently greatly reduced thermal insulation component's preparation efficiency to finally influence the manufacturing efficiency of hot box, be unfavorable for the enterprise and practice thrift manufacturing cost.

Disclosure of Invention

The invention aims to provide a method for manufacturing a biphenyl hot box, which is beneficial to improving the manufacturing efficiency of the hot box by manufacturing a heat insulation component through a cutting and bonding device.

In order to achieve the purpose, the technical scheme of the invention is to design a manufacturing method of a biphenyl hot box, wherein the biphenyl hot box comprises a hot box shell and a hot rail arranged inside the hot box shell; rock wool is filled in the hot box shell, heat insulation assemblies are respectively arranged on two sides of the hot rail, each heat insulation assembly comprises glass fiber cloth and a heat insulation protective film which are mutually bonded through high-temperature glue, and the glass fiber cloth is arranged close to the hot rail;

the manufacturing method of the biphenyl hot box comprises the following steps:

step one, a heat preservation assembly adaptive to the size of a hot rail is manufactured through a cutting and bonding device, the cutting and bonding device comprises a workbench, a first cutting mechanism and a second cutting mechanism which are symmetrically arranged on two sides of the workbench, the first cutting mechanism and the second cutting mechanism respectively comprise a conveying frame and a cutting frame arranged between the conveying frame and the workbench, a conveying belt is arranged on the conveying frame, the cutting frame comprises a cutting table connected with the discharge end of the conveying belt, a first support is arranged at the top of the cutting table, the first support comprises a pair of stand columns and a cross beam connected between the top ends of the stand columns, a first air cylinder with an output shaft facing downwards is arranged at the top of the cross beam, the output shaft of the first air cylinder penetrates through the cross beam and is connected with a lifting plate, a sliding groove is formed in the bottom of the lifting plate, a first sliding block is connected to the sliding groove in a sliding manner, and a mounting plate is arranged at the bottom, the bottom of the mounting plate is provided with a cutting knife mounting frame and a first motor, the cutting knife mounting frame is provided with a cutting knife through a rotating shaft, the output shaft of the first motor is connected with the rotating shaft through a transmission belt, the bottom of the lifting plate is also provided with two screw rod seats which are respectively arranged at two ends of a chute, a screw rod which penetrates through a first sliding block along the horizontal direction is connected between the two screw rod seats, the first sliding block is provided with a threaded hole which is used for the screw rod to penetrate through and is in threaded connection with the screw rod, one end of the screw rod penetrates through the screw rod seats and is connected with a second motor which is fixed at the bottom of the lifting plate, the workbench is provided with a positioning groove, a glue dispensing mechanism and a pressing mechanism which are respectively arranged at two sides of the positioning groove, the glue dispensing mechanism comprises a sliding rail, the length direction of the sliding rail is consistent with the length direction of the positioning groove, and, the second sliding block is provided with a second support, the second support is provided with a second air cylinder with an output shaft facing downwards, the output shaft of the second air cylinder is connected with a dispensing head positioned above the positioning groove, the side part of the second sliding block, which is back to the positioning groove, is provided with a third motor with an output shaft facing downwards, the output shaft of the third motor is connected with a gear, the side part of the sliding rail, which is back to the positioning groove, is provided with a rack positioned below the second sliding block, the length direction of the rack is consistent with the length direction of the sliding rail, the gear is meshed with the rack, the pressing mechanism comprises a third support, the third support is provided with a third air cylinder with an output shaft facing downwards, and the output shaft of the third air cylinder is connected with a pressing plate positioned above the; the specific process for manufacturing the heat preservation assembly by cutting and bonding the device is as follows:

firstly, respectively placing glass fiber cloth raw materials and heat insulation protective film raw materials on a conveying frame of a first cutting mechanism and a second cutting mechanism, conveying the raw materials to a cutting table through a conveying belt arranged on the conveying frame, stopping the operation of the conveying belt after the operation is finished, starting a first motor to operate, driving a cutting knife to rotate through a transmission belt, then starting a piston rod of a first air cylinder to extend out and enabling the cutting knife to be in contact with the raw materials, then starting a second motor to operate, driving a screw rod to rotate, driving a first sliding block and the cutting knife to move through the screw rod, cutting the raw materials to obtain the glass fiber cloth and the heat insulation protective film which are adaptive to the size of a hot rail, then placing the obtained glass fiber cloth in a positioning groove by an operator, driving a dispensing head to lift through the expansion and contraction of the piston rod of a second air cylinder, and driving a second sliding block to slide on the sliding rail through the operation of, the glass fiber cloth is subjected to glue dispensing, the second sliding block is reset after the glue dispensing is finished, the obtained heat insulation protective film is stacked above the glass fiber cloth by an operator, and finally, a piston rod of a third air cylinder is started to extend out and drive a pressing plate to move downwards so as to press the heat insulation protective film in the positioning groove and the glass fiber cloth, so that the heat insulation assembly is manufactured;

step two, respectively attaching the prepared heat insulation components to two sides of the hot rail;

and step three, filling rock wool in the hot box shell.

In above-mentioned scheme, tailor the bonding device through the setting, can tailor glass fiber cloth raw and other materials and thermal-insulated protection film raw and other materials respectively, obtain with the glass fiber cloth and the thermal-insulated protection film of hot rail size adaptation to carry out the point through the glass fiber cloth of point gum machine mechanism in putting into the constant head tank and glue the operation, the concrete process of point glue operation is: starting a piston rod of a second cylinder to extend out and drive a dispensing head to move downwards, dispensing by the dispensing head, retracting the piston rod of the second cylinder after the completion and driving the dispensing head to move upwards, then starting a third motor to operate for a set time, enabling a second sliding block to slide on a sliding rail for a set distance by meshing of a gear and a rack, then extending the piston rod of the second cylinder again and driving the dispensing head to move downwards, dispensing at another dispensing position of the glass fiber cloth by the dispensing head, and then repeating the process until the second sliding block is reset after the completion of the whole dispensing operation; and finally, laminating the heat-insulating protective film and the glass fiber cloth through a laminating mechanism so as to firmly bond the heat-insulating protective film and the glass fiber cloth. By adopting the scheme, the manufacturing efficiency of the heat insulation assembly is effectively improved, and the manufacturing efficiency of the hot box is further improved.

Preferably, four guide rods vertically penetrate through the lifting plate and are arranged in a rectangular shape, the upper end of each guide rod penetrates through the cross beam, a material pressing block is arranged at the lower end of each guide rod, and a spring sleeved on each guide rod is connected between each material pressing block and the lifting plate. By adopting the scheme, in the descending process of the lifting plate, the material pressing block is in contact with the raw material led into the cutting table by the cutting knife, so that the raw material is pressed by the elastic force of the spring, and the raw material is better cut.

Preferably, the lifting plate and the cross beam are provided with sliding holes for the guide rods to pass through. Through adopting above-mentioned scheme to the guide bar can slide relative lifter plate and crossbeam.

Preferably, the cutting table is positioned above the workbench, and a guide chute which is obliquely arranged is connected between the cutting table and the workbench. Through adopting above-mentioned scheme, after raw and other materials accomplish to tailor on the tailoring table, can push the baffle box by the raw and other materials of continuation transport to slide to the workstation on through self gravity, so that operating personnel takes.

Preferably, the second support and the third support are both L-shaped structures, the second support and the third support respectively comprise a vertical plate and a transverse plate which are integrally connected, the second cylinder is arranged on the transverse plate of the second support, and the third cylinder is arranged on the transverse plate of the third support. Through adopting above-mentioned scheme, made things convenient for the installation of second cylinder and third cylinder.

Drawings

Fig. 1 is a schematic view of a biphenyl heat box of the present invention.

FIG. 2 is a schematic view of a cutting and bonding apparatus according to the present invention.

Fig. 3 is a schematic view of a cutting frame according to the present invention.

Fig. 4 is a side view of the lifter plate of fig. 3.

Fig. 5 is a schematic view of the glue dispensing mechanism of the present invention.

Fig. 6 is a schematic view of the pressing mechanism of the present invention.

Fig. 7 is a schematic top view of the table of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

The technical scheme of the specific implementation of the invention is as follows:

as shown in fig. 1 to 7, a method for manufacturing a biphenyl heat box, the biphenyl heat box comprises a heat box shell 1 and a heat rail 2 arranged inside the heat box shell 1; rock wool 3 is filled in the hot box shell 1, heat insulation assemblies are respectively arranged on two sides of the hot rail 2, each heat insulation assembly comprises glass fiber cloth 4 and a heat insulation protective film 5 which are mutually bonded through high-temperature glue, and the glass fiber cloth 4 is arranged close to the hot rail 2;

the manufacturing method of the biphenyl hot box comprises the following steps:

step one, preparing a heat preservation assembly matched with the size of the hot rail 2 through a cutting and bonding device, wherein the cutting and bonding device comprises a workbench 6, a first cutting mechanism 7 and a second cutting mechanism 8 which are symmetrically arranged at two sides of the workbench 6, the first cutting mechanism 7 and the second cutting mechanism 8 both comprise a conveying frame 9 and a cutting frame 10 arranged between the conveying frame 9 and the workbench 6, a conveying belt is arranged on the conveying frame 9, the cutting frame 10 comprises a cutting table 11 connected with the discharge end of the conveying belt, a first support is arranged at the top of the cutting table 11, the first support comprises a pair of stand columns 12 and a cross beam 13 connected between the top ends of the stand columns 12, a first air cylinder 14 with an output shaft facing downwards is arranged at the top of the cross beam 13, the output shaft of the first air cylinder 14 penetrates through the cross beam 13 and is connected with a lifting plate 15, and a sliding groove is arranged at the bottom of the lifting plate 15, the sliding chute is connected with a first sliding block 16 in a sliding manner, the bottom of the first sliding block 16 is provided with a mounting plate 17, the bottom of the mounting plate 17 is provided with a cutting knife mounting frame 18 and a first motor 19, the cutting knife mounting frame 18 is provided with a cutting knife 21 through a rotating shaft 20, the output shaft of the first motor 19 is connected with the rotating shaft 20 through a transmission belt 22, the bottom of the lifting plate 15 is further provided with two screw rod seats 23, the two screw rod seats 23 are respectively positioned at two ends of the sliding chute, a screw rod 24 penetrating through the first sliding block 16 along the horizontal direction is connected between the two screw rod seats 23, the first sliding block 16 is provided with a threaded hole for the screw rod 24 to penetrate through and is in threaded connection with the screw rod 24, one end of the screw rod 24 penetrates through the screw rod seat 23 and is connected with a second motor 25, the second motor 25 is fixed at the bottom of the lifting plate 15, the worktable 6 is provided with a positioning groove, and a glue dispenser 26, the dispensing mechanism 26 includes a slide rail 28, the length direction of the slide rail 28 is the same as the length direction of the positioning slot, a second slide block 29 is slidably connected to the slide rail 28, a second support 30 is provided on the second slide block 29, a second cylinder 31 with a downward output shaft is provided on the second support 30, a dispensing head 32 located above the positioning slot is connected to the output shaft of the second cylinder 31, a third motor 33 with a downward output shaft is provided on the side of the second slide block 29 facing away from the positioning slot, a gear 34 is connected to the output shaft of the third motor 33, a rack 35 located below the second slide block 29 is provided on the side of the slide rail 28 facing away from the positioning slot, the length direction of the rack 35 is the same as the length direction of the slide rail 28, the gear 34 is engaged with the rack 35, the pressing mechanism 27 includes a third support 36, a third cylinder 37 with a downward output shaft is provided on the third support 36, a press plate 38 positioned above the positioning groove is connected to the output shaft of the third cylinder 37; the specific process for manufacturing the heat preservation assembly by cutting and bonding the device is as follows:

firstly, respectively placing glass fiber cloth raw materials and heat insulation protective film raw materials on a conveying frame 9 of a first cutting mechanism 7 and a second cutting mechanism 8, conveying the raw materials to a cutting table 11 through a conveying belt arranged on the conveying frame 9, stopping the operation of the conveying belt after the operation is finished, starting a first motor 19 to operate, driving a cutting knife 21 to rotate through a transmission belt 22, then starting a piston rod of a first air cylinder 14 to extend out, enabling the cutting knife 21 to be in contact with the raw materials, then starting a second motor 25 to operate, driving a screw rod 24 to rotate, driving a first sliding block 16 and the cutting knife 21 to move through the screw rod 24, cutting the raw materials to obtain the glass fiber cloth and the heat insulation protective film which are matched with the size of a hot rail 2, then placing the obtained glass fiber cloth in a positioning groove by an operator, driving a dispensing head 32 to lift through the expansion and contraction of the piston rod of a second air cylinder 31, the third motor 33 is started to operate to drive the second sliding block 29 to slide on the sliding rail 28, so that glue dispensing is performed on the glass fiber cloth, the second sliding block 29 is reset after the glue dispensing is completed, an operator stacks the obtained heat insulation protective film above the glass fiber cloth, and finally the piston rod of the third air cylinder 37 is started to extend out and drive the pressing plate 38 to move downwards so as to press the heat insulation protective film and the glass fiber cloth in the positioning groove, so that the heat insulation assembly is manufactured;

step two, respectively attaching the prepared heat insulation components to two sides of the hot rail 2;

and step three, filling rock wool 3 in the hot box shell 1.

In above-mentioned scheme, tailor bonding device through setting up, can tailor glass fiber cloth raw and other materials and thermal-insulated protection film raw and other materials respectively, obtain with 2 size adaptations of hot rail glass fiber cloth and thermal-insulated protection film to carry out the point glue operation through the glass fiber cloth that gluing mechanism 26 opposition entered the constant head tank, the concrete process of point glue operation is: starting a piston rod of the second cylinder 31 to extend out and drive the dispensing head 32 to move downwards, dispensing by the dispensing head 32, retracting the piston rod of the second cylinder 31 and driving the dispensing head 32 to move upwards after completion, then starting a third motor 33 to operate for a set time, enabling the second sliding block 29 to move on the sliding rail 28 for a set distance by meshing a gear 34 and a rack 35, then extending the piston rod of the second cylinder 31 again and driving the dispensing head 32 to move downwards, dispensing by the dispensing head 32 at another dispensing position of the glass fiber cloth, and then repeating the process until the second sliding block 29 is reset after the completion of the whole dispensing operation; and finally, the heat-insulating protective film and the glass fiber cloth are pressed by a pressing mechanism 27, so that the heat-insulating protective film and the glass fiber cloth are firmly bonded. By adopting the scheme, the manufacturing efficiency of the heat insulation assembly is effectively improved, and the manufacturing efficiency of the hot box is further improved.

Four guide rods 39 vertically penetrate through the lifting plate 15, the four guide rods 39 are arranged in a rectangular shape, the upper end of each guide rod 39 penetrates through the cross beam 13, a material pressing block 40 is arranged at the lower end of each guide rod 39, and a spring 41 sleeved on the guide rods 39 is connected between the material pressing block 40 and the lifting plate 15. By adopting the above scheme, in the descending process of the lifting plate 15, the raw material guided into the cutting table 11 is contacted by the material pressing block 40 before the cutting knife 21, so that the raw material is pressed by the elastic force of the spring 41, and the raw material is cut better.

The lifting plate 15 and the cross beam 13 are provided with slide holes for the guide rods 39 to pass through. By adopting the above scheme, the guide rod 39 can slide relative to the lifting plate 15 and the cross beam 13.

The cutting table 11 is positioned above the worktable 6, and a guide chute 42 is connected between the cutting table 11 and the worktable 6. By adopting the above scheme, after the raw material is cut on the cutting table 11, the raw material which can be continuously conveyed is pushed into the material guide groove 42 and slides onto the workbench 6 by the self gravity, so that the operator can take the raw material.

The second bracket 30 and the third bracket 36 are both L-shaped, the second bracket 30 and the third bracket 36 both include a vertical plate and a horizontal plate which are integrally connected, the second cylinder 31 is disposed on the horizontal plate of the second bracket 30, and the third cylinder 37 is disposed on the horizontal plate of the third bracket 36. By adopting the scheme, the installation of the second cylinder 31 and the third cylinder 37 is facilitated.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the technical principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims

1. The manufacturing method of the biphenyl hot box is characterized in that the biphenyl hot box comprises a hot box shell and a hot rail arranged inside the hot box shell; rock wool is filled in the hot box shell, heat insulation assemblies are respectively arranged on two sides of the hot rail, each heat insulation assembly comprises glass fiber cloth and a heat insulation protective film which are mutually bonded through high-temperature glue, and the glass fiber cloth is arranged close to the hot rail;

the manufacturing method of the biphenyl hot box comprises the following steps:

and step three, filling rock wool in the hot box shell.

2. The manufacturing method of the biphenyl heat box according to claim 1, wherein four guide rods are vertically penetrated through the lifting plate, the four guide rods are arranged in a rectangular shape, the upper end of each guide rod penetrates through the cross beam, the lower end of each guide rod is provided with a material pressing block, and a spring sleeved on the guide rods is connected between the material pressing block and the lifting plate.

3. The method for manufacturing a biphenyl hot box according to claim 2, wherein the lifting plate and the cross beam are provided with sliding holes for the guide rods to pass through.

4. The manufacturing method of the biphenyl hot box according to claim 3, wherein the cutting table is located above the workbench, and a material guide chute is connected between the cutting table and the workbench and is obliquely arranged.

5. The manufacturing method of the biphenyl heat box according to claim 4, wherein the second support and the third support are both L-shaped structures, and each of the second support and the third support comprises a vertical plate and a horizontal plate which are integrally connected, the second cylinder is arranged on the horizontal plate of the second support, and the third cylinder is arranged on the horizontal plate of the third support.