阅读说明：本技术 面料热定型的预处理装置 (Pretreatment device for fabric heat setting ) 是由 王建明 于 2019-11-14 设计创作，主要内容包括：本发明提供了一种面料热定型的预处理装置,属于机械技术领域。它解决了现有技术存在着稳定性差的问题。本面料热定型的预处理装置包括内部为空腔的壳体,所述壳体两端具有与其内腔相通的进口和出口,还包括输送板、喷淋组件和驱动组件,上述输送板的长度大于壳体长度,所述输送板位于壳体内且输送板的两端分别伸出进口和出口,上述喷淋组件位于壳体内的上部处且喷淋组件与输送板上部正对,上述驱动组件位于壳体内的下部处且驱动组件能使位于输送板上的面料稳定平移。本面料热定型的预处理装置稳定性高。(The invention provides a pretreatment device for fabric heat setting, and belongs to the technical field of machinery. It has solved prior art and has had the poor problem of stability. The pretreatment device for fabric heat setting comprises a shell with a cavity inside, wherein an inlet and an outlet communicated with the inner cavity of the shell are formed in two ends of the shell, the pretreatment device further comprises a conveying plate, a spraying assembly and a driving assembly, the length of the conveying plate is larger than that of the shell, the conveying plate is positioned in the shell, the two ends of the conveying plate respectively extend out of the inlet and the outlet, the spraying assembly is positioned at the upper part in the shell and is right opposite to the upper part of the conveying plate, and the driving assembly is positioned at the lower part in the shell and can enable the fabric positioned on the conveying plate to stably translate. The pretreatment device for fabric heat setting has high stability.)

1. The utility model provides a preprocessing device of surface fabric heat setting, includes that inside is the casing of cavity, the casing both ends have rather than communicating import and export of inner chamber, its characterized in that still includes delivery board, spray assembly and drive assembly, the length of above-mentioned delivery board is greater than casing length, the delivery board is located the casing and the both ends of delivery board stretch out import and export respectively, above-mentioned spray assembly is located upper portion department in the casing and spray assembly and delivery board upper portion just right, above-mentioned drive assembly is located lower part department in the casing and drive assembly enables the surface fabric that is located the delivery board and stably translate.

2. A fabric heat-setting pretreatment device according to claim 1, wherein the spray unit comprises a first tubular section and a second tubular section, the first tubular section is arranged in parallel with the conveyor plate and the first tubular section is located right above the conveyor plate, the lower end of the second tubular section is connected with the middle of the first tubular section, the upper end of the second tubular section is used for being connected with a water source, and the first tubular section is provided with a plurality of nozzles along the length direction thereof.

3. A fabric heat-setting pretreatment device as claimed in claim 2, wherein the driving assembly comprises a motor, a driving wheel and a conveyor belt, the conveyor belt has a recessed connection groove, the conveyor belt is sleeved on the conveyor belt and embedded in the connection groove, the conveyor belt partially extends out of the conveyor belt, the motor is fixedly connected to the lower portion of the housing, the driving wheel is fixedly connected to the rotating shaft of the motor, and the driving wheel abuts against the lower portion of the conveyor belt.

4. The device of claim 3, wherein the driving wheel comprises a wheel body having a disc shape and a contact sleeve fixedly connected to an outer side of the wheel body.

5. A fabric heat-setting pretreatment device as claimed in claim 4, wherein the contact sleeve is a rubber material.

6. A fabric heat-setting pretreatment device as claimed in claim 5, wherein the end of the transfer plate is provided with a transition groove which is concavely curved, and both ends of the transition groove are respectively communicated with the connecting groove at the upper part of the transfer plate and the connecting groove at the lower part of the transfer plate.

7. A fabric heat-setting pretreatment device as claimed in claim 6, wherein a first limiting plate is provided outside the shell near the inlet, the first limiting plate is provided with a first concave positioning groove, and the end of the conveying plate is embedded in the first positioning groove.

8. The fabric heat-setting pretreatment device as claimed in claim 7, wherein a second limiting plate is disposed outside the shell near the outlet, the second limiting plate has a second concave positioning groove, and the other end of the conveying plate is embedded in the second positioning groove.

9. The fabric heat-setting pretreatment device according to claim 8, wherein the first limiting plate and the second limiting plate are symmetrically arranged at two ends of the shell.

10. A fabric heat-setting pretreatment device as recited in claim 9, wherein the inlet has a height dimension greater than a height dimension of the transfer plate, and the outlet has a height dimension greater than the height dimension of the transfer plate.

Technical Field

The invention belongs to the technical field of machinery, and relates to a pretreatment device for fabric heat setting.

Background

The surface of the fabric can be smooth after the fabric is subjected to heat setting treatment, and subsequent storage and logistics transportation are facilitated.

However, the existing fabric is directly subjected to fabric heat setting treatment after preparation and molding, and due to the fact that the fabric is not subjected to pretreatment, the fabric needs to be properly humidified in the heat setting treatment process.

The existing humidification treatment operation is carried out through a single spray head, and because the water mist of the single spray head is not uniformly sprayed, the pretreatment effect is poor due to the operation mode, the treatment stability of heat setting is finally affected, namely, the surface flatness of the treated fabric can not be ensured.

Disclosure of Invention

The invention aims to provide a pretreatment device for fabric heat setting, which has high stability and compact structure and solves the problems in the prior art.

The purpose of the invention can be realized by the following technical scheme:

the utility model provides a preprocessing device of surface fabric heat setting, includes that inside is the casing of cavity, the casing both ends have rather than communicating import and export of inner chamber, its characterized in that still includes delivery board, spray assembly and drive assembly, the length of above-mentioned delivery board is greater than casing length, the delivery board is located the casing and the both ends of delivery board stretch out import and export respectively, above-mentioned spray assembly is located upper portion department in the casing and spray assembly and delivery board upper portion just right, above-mentioned drive assembly is located lower part department in the casing and drive assembly enables the surface fabric that is located the delivery board and stably translate.

The conveying plate is creatively arranged in the shell of the treatment device, and the spraying component in the shell sprays water mist to the fabric on the conveying plate.

The fabric on the conveying plate can move stably through the driving assembly.

It can be seen that the fabric surface can be uniformly sprayed in the process of stably moving on the conveying plate.

Because the length of the conveying plate is greater than that of the shell, the structure enables the fabric to stably pass through the shell.

In the pretreatment device for fabric heat setting, the spray assembly comprises a tubular first pipe section and a tubular second pipe section, the first pipe section is arranged in parallel with the conveying plate, the first pipe section is positioned right above the conveying plate, the lower end of the second pipe section is connected with the middle part of the first pipe section, the upper end of the second pipe section is used for being connected with a water source, and the first pipe section is provided with a plurality of nozzles along the length direction.

The water source is provided with a water pump for introducing water into the second pipe section, and the second pipe section is connected to the middle part of the first pipe section, so that the structure can finally ensure that the water is stably sprayed by a plurality of nozzles.

In the above pretreatment device for heat setting of fabric, the driving assembly includes a motor, a driving wheel and a conveyer belt, the conveyer plate is provided with a concave connecting groove, the conveyer belt is sleeved on the conveyer plate and embedded in the connecting groove, the conveyer belt partially extends out of the conveyer plate, the motor is fixedly connected to the lower part of the shell, the driving wheel is fixedly connected with a rotating shaft of the motor, and the driving wheel abuts against the lower part of the conveyer belt.

In the process that the motor drives the driving wheel to rotate smoothly, the driving wheel is always contacted with the lower part of the conveying belt, and finally the conveying belt can be driven to translate stably.

The connecting groove enables the conveying belt to be stably connected to the conveying plate, and the conveying belt can stably translate along the connecting groove.

In the pretreatment device for heat setting of the fabric, the driving wheel comprises a disk-shaped wheel body and a contact sleeve fixedly connected to the outer side of the wheel body.

In the pretreatment device for fabric heat setting, the contact sleeve is made of rubber material.

The friction resistance between the driving wheel and the conveying belt can be effectively increased through the contact sleeve, and the driving wheel can drive the conveying belt to smoothly translate.

In the pretreatment device for heat setting of the fabric, the end part of the conveying plate is provided with the transition groove which is concave in an arc shape, and two ends of the transition groove are respectively communicated with the connecting groove at the upper part of the conveying plate and the connecting groove at the lower part of the conveying plate.

The arrangement of the transition groove enables the connecting groove at the upper part of the conveying plate to be in smooth transition connection with the connecting groove at the lower part.

In the pretreatment device for heat setting of the fabric, a first limiting plate is arranged on the outer side of the shell close to the inlet, a first concave positioning groove is formed in the first limiting plate, and the end part of the conveying plate is embedded in the first positioning groove.

In the pretreatment device for heat setting of the fabric, a second limiting plate is arranged on the outer side of the shell close to the outlet, a second concave positioning groove is formed in the second limiting plate, and the other end of the conveying plate is embedded in the second positioning groove.

In the pretreatment device for fabric heat setting, the first limit plate and the second limit plate are symmetrically arranged at two ends of the shell.

The conveying plate can be stably connected to the shell through the first limiting plate and the second limiting plate.

In the above fabric heat setting pretreatment device, the height dimension of the inlet is greater than the height dimension of the conveying plate, and the height dimension of the outlet is greater than the height dimension of the conveying plate.

The structure enables the fabric on the conveying plate to smoothly pass through the shell. Certainly, the water mist in the shell can enable the fabric to be stably humidified in the spraying process.

Compared with the prior art, the pretreatment device for heat setting of the fabric can humidify the components of the fabric, the surface of the fabric after humidification can be smoother after heat setting, and the stability of subsequent heat setting is effectively improved.

Meanwhile, the spraying assembly and the driving assembly are both positioned in the shell, so that the device is compact in structure and has high practical value.

Drawings

Fig. 1 is a schematic sectional view of the pretreatment device for heat setting of the fabric.

Fig. 2 is a schematic top view of the conveying plate of the pretreatment device for heat setting of fabric.

In the figure, 1, a housing; 1a, an inlet; 1b, an outlet; 2. a conveying plate; 2a, connecting grooves; 2b, a transition groove; 3. a first pipe section; 3a, a nozzle; 4. a second pipe section; 5. a motor; 6. a driving wheel; 6a, a wheel body; 6b, a contact sleeve; 7. a first limiting plate; 7a, positioning a groove I; 8. a second limiting plate; 8a, a second positioning groove; 9. and (5) conveying the belt.

Detailed Description

As shown in fig. 1, the pretreatment device for fabric heat setting comprises a shell 1 with a cavity inside, wherein an inlet 1a and an outlet 1b communicated with an inner cavity of the shell 1 are arranged at two ends of the shell 1, the pretreatment device further comprises a conveying plate 2, a spraying assembly and a driving assembly, the length of the conveying plate 2 is greater than that of the shell 1, the conveying plate 2 is positioned in the shell 1, two ends of the conveying plate 2 respectively extend out of the inlet 1a and the outlet 1b, the spraying assembly is positioned at the upper part of the shell 1 and is opposite to the upper part of the conveying plate 2, and the driving assembly is positioned at the lower part of the shell 1 and can enable the fabric positioned on the conveying plate 2 to stably translate.

The spraying assembly comprises a first tubular section 3 and a second tubular section 4, the first tubular section 3 is arranged in parallel with the conveying plate 2, the first tubular section 3 is located right above the conveying plate 2, the lower end of the second tubular section 4 is connected with the middle of the first tubular section 3, the upper end of the second tubular section 4 is used for being connected with a water source, and a plurality of nozzles 3a are arranged on the first tubular section 3 along the length direction of the first tubular section.

Drive assembly includes motor 5, action wheel 6 and conveyer belt 9, has recessed spread groove 2a on above-mentioned delivery board 2, and above-mentioned conveyer belt 9 cover is on delivery board 2 and conveyer belt 9 inlays in spread groove 2a department, conveyer belt 9 part stretches out delivery board 2, and above-mentioned motor 5 links firmly lower part department in casing 1, and action wheel 6 links firmly mutually with motor 5's pivot and action wheel 6 supports and leans on in conveyer belt 9 lower part department.

The driving wheel 6 comprises a disk-shaped wheel body 6a and a contact sleeve 6b fixedly connected to the outer side of the wheel body 6 a.

The contact sleeve 6b is made of rubber material.

The end part of the conveying plate 2 is provided with a transition groove 2b which is concave in an arc shape, and two ends of the transition groove 2b are respectively communicated with a connecting groove 2a at the upper part of the conveying plate 2 and a connecting groove 2a at the lower part of the conveying plate 2.

The outer side of the shell 1 is provided with a first limiting plate 7 close to the inlet 1a, the first limiting plate 7 is provided with a concave positioning groove 7a, and the end part of the conveying plate 2 is embedded in the positioning groove 7 a.

The shell 1 outside is close to export 1b department and has two 8 limiting plates, has two recessed constant head tank two 8a on the above-mentioned two 8 limiting plates, the other end of delivery board 2 inlays in constant head tank two 8a department.

The first limiting plate 7 and the second limiting plate 8 are symmetrically arranged at two ends of the shell 1.

The height dimension of the inlet 1a is greater than the height dimension of the conveyor plate 2, and the height dimension of the outlet 1b is greater than the height dimension of the conveyor plate 2.

The conveying plate is creatively arranged in the shell of the treatment device, and the spraying component in the shell sprays water mist to the fabric on the conveying plate.

The fabric on the conveying plate can move stably through the driving assembly.

It can be seen that the fabric surface can be uniformly sprayed in the process of stably moving on the conveying plate.

Because the length of the conveying plate is greater than that of the shell, the structure enables the fabric to stably pass through the shell.