CN211142513U - Zipper setting machine - Google Patents

Abstract

The utility model discloses a zipper setting machine, including organism, heating design case, cooling design case, draw gear and temperature-detecting device, heating design case and cooling design case are located the organism, and communicate between heating design case and the cooling design case, form the chain belt transfer passage who is used for supplying the draw gear to pass, draw gear wears to establish chain belt transfer passage, draw gear is arranged in driving the chain belt and removes in chain belt transfer passage, temperature-detecting device is located heating design case and cooling design case respectively. The utility model discloses can make the heating design case comparatively even with the inside each regional temperature distribution of cooling design incasement portion, avoid the chain belt phenomenon of unevenness to appear, be favorable to improving product quality and production efficiency.

Description

Zipper setting machine

Technical Field

The utility model relates to a zip fastener technique especially relates to a zip fastener forming machine.

Background

The zipper is an indispensable part in life of people, and is widely applied to products such as shoes, clothes, bags and the like. When the zipper is produced, the zipper needs to be dried, ironed and shaped by a shaping machine, when the traditional zipper shaping machine works, the zipper tape enters the oven through the tape feeding device, and is pulled out from the outlet of the oven by the tape drawing device after being circularly wound by a plurality of tape reel shafts in the oven, and the zipper tape is blown and cooled by the cooling fan when being pulled out from the oven by the tape drawing device. However, in the process of heating and ironing the zipper, the phenomenon of uneven zipper belts occurs due to uneven temperature distribution of all areas inside the oven, so that the product quality cannot be guaranteed, and the production efficiency is low.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide a zipper setting machine, which can ensure that the temperature distribution of each area inside an oven is more uniform, avoid the uneven phenomenon of a chain belt and is favorable for improving the product quality and the production efficiency.

The purpose of the utility model is realized by adopting the following technical scheme:

the utility model provides a zipper setting machine, includes organism, heating design case, cooling design case, draw gear and temperature-detecting device, heating design case and cooling design case are located the organism, just communicate between heating design case and the cooling design case, form the chain belt transfer passage who is used for supplying the draw gear to pass, draw gear wears to establish chain belt transfer passage, draw gear is arranged in driving the chain belt and removes in chain belt transfer passage, temperature-detecting device is located heating design case and cooling design case respectively.

Further, a hot fixed die cavity is formed in the heating fixed die box, a cooling fixed die cavity is formed in the cooling fixed die box, and the temperature detection device is respectively located in the hot fixed die cavity and the cooling fixed die cavity.

Further, the zipper setting machine further comprises a zipper tooth number counter, and the zipper tooth number counter is respectively positioned in the hot setting cavity and the cooling setting cavity.

Further, draw gear is including advancing area deflector roll, tensioning roller, transmission deflector roll and play area deflector roll, advance area deflector roll, tensioning roller, transmission deflector roll and play area deflector roll and be located chain belt transfer passage, advance the area deflector roll and be located the one side of heating design case, tensioning roller, transmission deflector roll are located hot design chamber and cooling design chamber, it is located one side of cooling design case to go out the area deflector roll, advance area deflector roll, tensioning roller, transmission deflector roll and go out to take and be connected through the transmission between the deflector roll.

Further, the zipper setting machine further comprises a hot air generating device, the hot air generating device is connected with the heating setting box, and an air outlet of the hot air generating device is communicated with the heat setting cavity.

Further, the zipper setting machine further comprises a cold air generating device, the cold air generating device is connected with the cooling setting box, and an air outlet of the cold air generating device is communicated with the cooling setting cavity.

Furthermore, the heating and shaping box and the cooling and shaping box respectively comprise six grid plates, the six grid plates are connected to form a box body structure in a surrounding mode, and a gas channel is formed in each grid plate and is respectively communicated with the heat shaping cavity and the cooling and shaping cavity.

Furthermore, a plurality of guide plates are hinged to the grid plate, the number of the gas channels is multiple, and the guide plates and the gas channels are arranged at intervals to form a louver structure.

Furthermore, the heating and shaping box and the cooling and shaping box are both provided with ironing devices.

Further, the temperature detection device comprises a plurality of temperature detection tables, and the temperature detection tables are arranged corresponding to the vertex angles of the heating shaping box and the cooling shaping box respectively.

Compared with the prior art, the beneficial effects of the utility model reside in that:

utilize draw gear to drive the chain belt and remove in chain belt transfer passage, make the chain belt in proper order through heating design case and cooling design case, make the chain belt in proper order through heating design processing and cooling design processing, utilize temperature-detecting device to monitor the temperature in heating design case and the cooling design case respectively, temperature-detecting device, heating design case, the cooling design case is connected with control system respectively, temperature-detecting device feeds back the data of monitoring gained to control system, control system is according to the data of feedback, make the heating design case, the inside temperature of cooling design case regulation, can make the temperature distribution of heating design case and each inside region of cooling design case comparatively even, avoid the phenomenon of unevenness to appear in the chain belt, be favorable to improving product quality and production efficiency.

Drawings

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

fig. 2 is a schematic structural diagram of the middle grid plate of the present invention.

In the figure: 1. heating and shaping box; 2. cooling and shaping box; 3. a traction device; 4. thermally setting the cavity; 5. a chain tooth number counter; 6. cooling the fixed cavity; 7. a guide plate; 8. a belt feeding guide roller; 9. a tension roller; 10. a transmission guide roller; 11. discharging the belt out of the guide roller; 12. a ironing device; 13. a temperature detection meter; 14. a grid plate.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that the embodiments or technical features described below can be arbitrarily combined to form a new embodiment without conflict.

As shown in fig. 1 and 2, zipper setting machine, which comprises a bod, heating design case 1, cooling design case 2, draw gear 3 and temperature-detecting device, heating design case 1 and cooling design case 2 are located the organism, and communicate between heating design case 1 and the cooling design case 2, form the chain belt transfer passage who is used for supplying draw gear 3 to pass, draw gear 3 wears to establish chain belt transfer passage, draw gear 3 is arranged in driving the chain belt and removes in chain belt transfer passage, temperature-detecting device is arranged in heating design case 1 and cooling design case 2 respectively.

On the basis of above-mentioned structure, utilize draw gear 3 to drive the chain belt and remove in chain belt transfer passage, make the chain belt in proper order through heating design case 1 and cooling design case 2, make the chain belt in proper order through heating design processing and cooling design processing, utilize temperature-detecting device to monitor the temperature in heating design case 1 and the cooling design case 2 respectively, temperature-detecting device, heating design case 1, cooling design case 2 is connected with control system respectively, temperature-detecting device feeds back the data of monitoring gained to control system, control system is according to the data of feedback, make heating design case 1, cooling design case 2 adjusts its inside temperature, can make the temperature distribution in each region of heating design case 1 and the inside of cooling design case 2 comparatively even, avoid the phenomenon that the unevenness appears in the chain belt, be favorable to improving product quality and production efficiency.

In this embodiment, the number of the heating and setting boxes 1 is two, which is beneficial to the effective high-temperature setting processing of the chain belt.

As a preferred embodiment in this embodiment, a heat setting cavity 4 is formed in the heat setting box 1, a cooling setting cavity 6 is formed in the cooling setting box 2, and the temperature detection devices are respectively located in the heat setting cavity 4 and the cooling setting cavity 6.

Specifically, this zip fastener forming machine still includes chain tooth number of teeth count appearance 5, and chain tooth number of teeth count appearance 5 is located heat setting chamber 4 and cooling setting chamber 6 respectively. Preferably, the tooth number counter 5 counts the tooth number of the fastener element by using infrared technology, so as to control the tooth number within a certain size, generally, in the specific implementation, 1m is 160-165 teeth, and if the monitoring result has a large deviation, the deviation can be adjusted by the traction device 3.

More specifically, the traction device 3 comprises a belt feeding guide roller 8, a tension roller 9, a transmission guide roller 10 and a belt discharging guide roller 11, the belt feeding guide roller 8, the tension roller 9, the transmission guide roller 10 and the belt discharging guide roller 11 are positioned in a chain belt conveying channel, the belt feeding guide roller 8 is positioned on one side of the heating and shaping box 1, the tension roller 9 and the transmission guide roller 10 are positioned in the heat shaping cavity 4 and the cooling and shaping cavity 6, the belt discharging guide roller 11 is positioned on one side of the cooling and shaping box 2, and the belt feeding guide roller 8, the tension roller 9, the transmission guide roller 10 and the belt discharging guide roller 11 are connected in a transmission mode. Specifically, the belt feeding guide roller 8 is connected with an output shaft of a belt feeding motor, and the belt discharging guide roller 11 is connected with an output shaft of a belt discharging motor, so that the chain belt is installed on the belt feeding guide roller 8, the tension roller 9, the transmission guide roller 10 and the belt discharging guide roller 11, the belt feeding motor drives the belt feeding guide roller 8 to rotate, the belt discharging motor drives the belt discharging guide roller 11 to rotate, and the tension roller 9 and the transmission guide roller 10 are located between the belt feeding guide roller 8 and the belt discharging guide roller 11, so that the tension roller 9 and the transmission guide roller 10 synchronously rotate under the driving of the belt feeding guide roller 8 and the belt discharging guide roller 11, and the chain belt moves towards the direction of the belt discharging guide roller 11. The tensioning roller 9 is used for tensioning the zipper belt, so that the zipper shaping effect is improved, and the phenomenon of unevenness of the zipper belt can be avoided.

It should be noted that the zipper setting machine further comprises a hot air generating device, the hot air generating device is connected with the heating setting box 1, and an air outlet of the hot air generating device is communicated with the heat setting cavity 4.

In addition, the zipper setting machine also comprises a cold air generating device, the cold air generating device is connected with the cooling setting box 2, and an air outlet of the cold air generating device is communicated with the cooling setting cavity 6.

It should be emphasized that, heating and shaping case 1 and cooling and shaping case 2 both include six grid plates 14, and six grid plates 14 connect and enclose into the box structure, have seted up gas passage on the grid plate 14, and gas passage communicates with heat setting chamber 4, cooling and shaping chamber 6 respectively.

It is worth mentioning that a plurality of guide plates 7 are hinged on the grid plate 14, the number of the gas channels is set to be a plurality, and the plurality of guide plates 7 and the plurality of gas channels are arranged at intervals to form a shutter structure, so that the gas passing is facilitated, and the heating or cooling efficiency is improved. In this embodiment, the guide plate 7 is connected with the grid plate 14 in a hinged manner, so that the guide plate 7 can be reset after being guided.

In addition, a ironing device 12 is arranged in each of the heating and cooling shaping box 1 and the cooling and shaping box 2. In particular, the ironing device 12 may be a double-sided ironing device 12, but may also be other ironing devices 12.

In a more preferred embodiment, the temperature detecting means includes a plurality of temperature detecting tables 13, and the plurality of temperature detecting tables 13 are arranged corresponding to the top corners of the heating and cooling and setting boxes 1 and 2, respectively. In this embodiment, heating and shaping box 1 and cooling and shaping box 2 are preferably cuboids, that is, temperature detection table 13 is arranged at four corners of heating and shaping box 1, and temperature detection table 13 is arranged at four corners of cooling and shaping box 2.

During the use, advance the area motor drive and advance area deflector roll 8 and rotate, go out area motor drive and go out area deflector roll 11 and rotate, tensioning roller 9, drive deflector roll 10 synchronous revolution make the chain belt move towards the direction of going out area deflector roll 11, the chain belt gets into in heating and finalizing the design case 1 and the cooling and finalizing the design case 2 in proper order. When the chain belt enters the heating and shaping box 1, the hot gas generating device works to convey the generated hot gas to the heat shaping cavity 4 through the gas outlet, under the action of hot gas, the guide plates 7 on the grid plate 14 are spread, so that the hot gas can enter the heating and shaping box 1 through the gas channel, the hot gas is fully diffused in the heating and shaping box 1, all be equipped with temperature detection table 13 in each apex angle department of heating and setting case 1, each temperature detection table 13 will monitor the data feedback of gained to control system, control system is according to the data of feedback, make heating and setting case 1 adjust its inside temperature, can make the inside each regional temperature distribution of heating and setting case 1 comparatively even, the whole device 12 that scalds in the heating and setting case 1 scalds the flat chain belt, 3 pulling chain belts of draw gear advance, make the chain belt can get into this whole device 12 that scalds of scalding and stereotype, carry out high temperature design processing to the chain belt.

When the chain belt enters the cooling shaping box 2, the cold air generating device works, the generated cold air is conveyed to the cooling shaping cavity 6 through the air outlet of the cold air generating device, under the action force of the cold air, the guide plates 7 on the grid plate 14 are unfolded, the cold air can enter the cooling shaping box 2 through the air channel, the cold air is fully diffused in the cooling shaping box 2, the temperature detection tables 13 are arranged at all top corners of the cooling shaping box 2, the data obtained by monitoring are fed back to the control system by the temperature detection tables 13, the control system enables the cooling shaping box 2 to adjust the temperature in the cooling shaping box 2 according to the fed-back data, the temperature distribution of all areas in the cooling shaping box 2 is uniform, the ironing device 12 in the cooling shaping box 2 irons the chain belt, the traction device 3 pulls the chain belt to advance, and the chain belt can enter the ironing device 12 to be ironed and shaped, and cooling and shaping the chain belt. The processing can avoid the phenomenon that the chain belt is not flat, and is beneficial to improving the product quality and the production efficiency. After the chain belt finishes the cooling process, the chain belt enters the next process under the driving of the belt outlet guide roller 11.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention cannot be limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are all within the protection scope of the present invention.

Claims (10)

1. The utility model provides a zipper setting machine which characterized in that: including organism, heating design case, cooling design case, draw gear and temperature-detecting device, heating design case and cooling design case are located the organism, just intercommunication between heating design case and the cooling design case forms the chain belt transfer passage who is used for supplying draw gear to pass, draw gear wears to establish chain belt transfer passage, draw gear is arranged in driving the chain belt and removes in chain belt transfer passage, temperature-detecting device is located heating design case and cooling design case respectively.

2. The zipper setting machine according to claim 1, wherein: the heating shaping box is internally provided with a hot shaping cavity, the cooling shaping box is internally provided with a cooling shaping cavity, and the temperature detection device is respectively positioned in the hot shaping cavity and the cooling shaping cavity.

3. The zipper setting machine according to claim 2, wherein: the zipper setting machine further comprises a zipper tooth number counter, and the zipper tooth number counter is respectively positioned in the hot fixed cavity and the cooling fixed cavity.

4. The zipper setting machine according to claim 3, wherein: traction device is including advancing area deflector roll, tensioning roller, transmission deflector roll and play area deflector roll, advance area deflector roll, tensioning roller, transmission deflector roll and play area deflector roll and be located chain belt transfer passage, advance the one side that the area deflector roll is located heating setting case, tensioning roller, transmission deflector roll are located hot setting chamber and cooling setting chamber, it is located one side of cooling setting case to go out the area deflector roll, advance area deflector roll, tensioning roller, transmission deflector roll and go out to take and connect through the transmission between the deflector roll.

5. The zipper setter as set forth in any one of claims 2 to 4, wherein: the zipper setting machine further comprises a hot air generating device, the hot air generating device is connected with the heating setting box, and an air outlet of the hot air generating device is communicated with the heat setting cavity.

6. The zipper setter as set forth in any one of claims 2 to 4, wherein: the zipper setting machine further comprises a cold air generating device, the cold air generating device is connected with the cooling setting box, and an air outlet of the cold air generating device is communicated with the cooling setting cavity.

7. The zipper setter as set forth in any one of claims 2 to 4, wherein: the heating shaping box and the cooling shaping box respectively comprise six grid plates, the six grid plates are connected to form a box body structure in a surrounding mode, and a gas channel is formed in each grid plate and is respectively communicated with the heating shaping cavity and the cooling shaping cavity.

8. The zipper setting machine according to claim 7, wherein: the grid plate is hinged with a plurality of guide plates, the number of the gas channels is multiple, and the guide plates and the gas channels are arranged at intervals to form a louver structure.

9. The zipper setting machine according to claim 1, wherein: the heating and shaping box and the cooling and shaping box are both provided with ironing devices.

10. The zipper setting machine according to claim 1, wherein: the temperature detection device comprises a plurality of temperature detection tables which are arranged corresponding to the vertex angles of the heating shaping box and the cooling shaping box respectively.

Images