CN220433220U

CN220433220U - Air conditioner cooler for shaping

Info

Publication number: CN220433220U
Application number: CN202321761340.7U
Authority: CN
Inventors: 罗宝连; 李忠; 黄国能; 林逸萍; 邹波
Original assignee: Zhangzhou Kaida Clothing Accessories Co ltd
Current assignee: Zhangzhou Kaida Clothing Accessories Co ltd
Priority date: 2023-07-05
Filing date: 2023-07-05
Publication date: 2024-02-02
Anticipated expiration: 2033-07-05

Abstract

The utility model discloses an air conditioner cooler for shaping, which comprises a cooling box, wherein the left side and the right side of the upper end of the cooling box are respectively provided with a material channel, the material channels are used for conveying cloth, the upper part of the cooling box is provided with a first air feeding box, the upper part of the first air feeding box is provided with a first air conditioning box for accommodating an air conditioner, the first air feeding box is used for blowing cold air prepared by the air conditioner into the cooling box, the upper part and the lower part of the front side wall and the rear side wall of the cooling box are respectively and rotatably connected with a first conveying roller set and a second conveying roller set, a cooling assembly is arranged between the first conveying roller set and the second conveying roller set, the cooling air can be provided for the interior of the cooling box by the cooperation of the first air feeding box above the cooling box and the first air conditioning box, the surface temperature of the cloth can be quickly reduced by the cold air provided by the first air conditioning box, the air flow speed is further accelerated by the first air feeding box, and the speed of the reduction of the cloth temperature is further accelerated, and the cooling efficiency of the cooler is effectively improved.

Description

Air conditioner cooler for shaping

Technical Field

The utility model belongs to the technical field of setting machines, and particularly relates to an air conditioner cooler for setting.

Background

In the working process of the fabric shaping machine, the fabric is firstly dried and shaped in the oven, the temperature of the fabric is higher after the fabric comes out of the oven, and the fabric is rolled up when the fabric is finally collected, so that the fabric is still kept at a higher temperature, and if excessive heat is slowly emitted, folds are generated on the fabric, the flatness of the surface of the fabric is affected, and the quality of the fabric is reduced.

Aiming at the problems, the application number is as follows: the China patent of 202120750284.1 discloses a cooling cloth discharging device of forming machine, which comprises a cooling tank, feed inlet and discharge gate are provided with respectively in the upper end both sides of cooling tank, the chill roll is installed to the cooling tank internal rotation, the chill roll is connected with cooling mechanism, still install chill roll forced air cooling mechanism in the cooling tank, the both sides that the cooling tank is relative are provided with the perforation respectively, fixed mounting has the side filter screen in the perforation, the upper end of cooling tank runs through and is provided with the mounting hole, install the air-blower in the mounting hole. The cooling cloth discharging device of the setting machine has the advantages of simple structure, high efficiency and convenient use.

However, the cloth cooling outlet device only adopts a fan at the upper part of the cooling box and water cooling in the cooling roller to cool the cloth, and when cooling some cloth with larger width and thicker thickness, the cooling air cannot be ensured to cool the lower surface of the cloth, and the rapid cooling of the cloth cannot be ensured; meanwhile, the length of the cloth is changed in the cooling process, and the traditional cooling device cannot flexibly adjust the tension between the upstream device and the downstream device in the cloth transmission process, so that the cloth is excessively stretched or excessively loosened, and the quality of the cloth is affected.

Disclosure of Invention

The utility model provides an air conditioner cooler for shaping, which aims to solve the problems that the existing cloth cooling device can not cool cloth rapidly and uniformly and can not sensitively adjust tension in the cloth conveying process.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the utility model provides an air conditioner cooler for design, includes the cooling tank, material passageway has all been seted up to the upper end left and right sides of cooling tank, and material passageway is used for the transport of cloth, the upper portion of cooling tank is provided with first air supply case, and the upper portion of first air supply case is provided with the first air conditioning case that holds the air conditioner, and first air supply case is used for blowing the cold air of air conditioner preparation to inside the cooling tank, upper portion and the lower part of lateral wall around the cooling tank are rotated respectively and are connected with first transport roller group and second transport roller group, first transport roller group and second transport roller group are connected driving motor through drive assembly respectively, are provided with cooling assembly between first transport roller group and the second transport roller group.

Further, the cooling assembly comprises a water inlet pipe, one end of the water inlet pipe is communicated with a plurality of disc-shaped cooling pipes which are arranged in parallel, the lower parts of the cooling pipes are communicated with water collecting pipes, the water collecting pipes are communicated with water outlet pipes, the other ends of the water inlet pipe extend to the outside of the cooling box, and the water inlet pipe is used for guiding cold water into the cooling assembly.

Further, the both sides of cooling box are provided with tension detection subassembly, and tension detection subassembly is used for detecting cloth tension and corresponds with the material passageway, tension detection subassembly includes backup pad, backup pad and cooling box fixed connection, rotates in the backup pad and is connected with the pivot, rotates in the pivot and is connected with a pair of swivel plates, rotates between the swivel plates and is connected with overlap joint pole and connecting rod, and overlap joint pole is located between pivot and the connecting rod to overlap joint is in the cloth top under the action of gravity, is provided with in the backup pad with connecting rod complex and draws pressure sensor, and the vertical displacement of overlap joint pole is enlargied and is passed through the connecting rod and draw pressure sensor to the swivel plate.

Further, the shape of the rotating plate is an obtuse triangle, the lap joint rod is arranged at the obtuse angle of the rotating plate, and the ratio of the horizontal distance between the lap joint rod and the connecting rod to the horizontal distance between the lap joint rod and the rotating shaft is 6.

Further, the outlet pipe extends to the cooling box outside and is connected with first water supply pipe, and first water supply pipe is connected with the temperature detection case through the second water supply pipe, and the temperature detection case passes through the connecting pipe and communicates with the second air supply case, the second air supply case is located the lower part of cooling box, and the second air supply case is used for blowing to the cooling box in, and the outlet has been seted up to second air supply case bottom.

Further, the transmission assembly includes: the transmission gear is fixedly connected with the extending ends of the first conveying roller set and the second conveying roller set, and is matched with the driving motor through the transmission chain.

Further, the left side and the right side of the cooling box are respectively provided with an auxiliary roller and a temperature sensor, the auxiliary rollers are matched with the material channel and used for assisting in distributing materials through the material channel, and the temperature sensors are used for detecting the temperature of the distributing materials.

Further, the first conveying roller set and the second conveying roller set are arranged in a staggered mode, so that the cloth is conveyed in an S-shaped mode between the first conveying roller set and the second conveying roller set, and the cooling assembly is matched with the first conveying roller set and the second conveying roller set, so that the cloth sequentially passes through intervals formed by adjacent cooling pipes.

Further, the water inlet pipe, the first water supply pipe and the second water supply pipe are all internally provided with heat insulation layers.

Compared with the prior art, the utility model has the following technical effects:

1. the utility model provides an air conditioner cooler for shaping, which can provide fast flowing cold air for the interior of a cooling box through the cooperation of a first air feeding box above the cooling box and the first air conditioning box, can rapidly reduce the surface temperature of cloth through the cold air provided by the first air conditioning box, and can accelerate the air flow rate through the air feeding box, thereby further accelerating the reduction speed of the cloth temperature and effectively improving the working efficiency of the cooler; meanwhile, the cooling component is arranged inside the cooling machine, cold water is conveyed to the inside of the cooling component through the water inlet pipe, the temperature of the cooling pipe is reduced by flowing the cold water in the cooling pipe, the cooling component is provided with a plurality of cooling pipes, the heat exchange rate in the cooling box can be further improved, the speed of reducing the upper surface temperature and the lower surface temperature of the cloth is improved, meanwhile, the uniformity of the temperature inside the cooling box can be ensured by the plurality of cooling pipes, cold air sent out by the air box is prevented from being blocked by the cloth, the temperature of a part of the area is too high, the cloth cannot be effectively cooled, and the cloth cannot be uniformly cooled.

2. The utility model provides an air conditioner cooler for shaping, which can accurately detect the tension of cloth entering a cooling box and outputting the cooling box through a tension detection assembly, so as to guide staff to adjust the cloth processing speed of the cooler, avoid excessive tensioning of the cloth and influence the cloth quality.

3. The utility model provides an air conditioner cooler for shaping, which utilizes a second air supply box to secondarily utilize cold water in a cooling assembly, wherein the second air supply box utilizes a pipeline for conveying the cold water to generate cold air, and the cold air is fed from the lower part of the cooling box, so that the cooling efficiency of the cooler to cloth is further improved, cold air is input from the upper part and the lower part of the cooling box, the cooling uniformity of the cloth is further improved, and the quality problem of the cloth caused by insufficient local cooling can be effectively avoided.

4. The utility model provides an air conditioner cooler for shaping, which drives a first conveying roller set and a second conveying roller set through a transmission gear, a transmission chain and a driving motor, so that the rotation synchronism of the conveying roller sets can be ensured, and the phenomenon that cloth is accumulated in the cooler due to the clamping of partial round rollers is avoided, thereby influencing the working efficiency of the cooler.

5. The auxiliary roller is matched with the material channel, so that the cloth can be prevented from rubbing with the box body when entering or exiting the cooling box, and the cloth quality is affected; meanwhile, by arranging the temperature sensor beside the material channel, the temperature of the cloth when entering the cooling box and the temperature of the cloth when being output from the cooling box can be detected, so that the temperature sensor is convenient for workers to observe.

6. The utility model provides an air conditioner cooler for shaping, which can fully cool cloth in a cooling box through the relative positions of a first conveying roller, a second conveying roller and a cooling assembly, and further ensure the uniformity of cloth cooling.

7. The utility model provides an air conditioner cooler for shaping, which can avoid energy waste caused by heating of cold air due to external influence in the conveying process through the arrangement of an insulating layer in a pipeline.

Drawings

FIG. 1 is a front isometric view of an air conditioner cooler for styling in accordance with the present utility model;

FIG. 2 is a rear perspective view of an air conditioner cooler for styling according to the present utility model;

FIG. 3 is a schematic view of the internal distribution routing of the air conditioner cooler for shaping according to the present utility model;

FIG. 4 is a schematic view of the inside of an air conditioner cooler for styling according to the present utility model;

FIG. 5 is a schematic view of a tension detecting assembly of an air conditioner cooler for styling according to the present utility model;

fig. 6 is a schematic view of a water pipe structure of an air conditioner cooler for shaping according to the present utility model.

In the figure: 1. a cooling box; 2. a first air feed box; 3. a first air conditioning box; 4. a second air feed box; 5. an auxiliary roller; 6. a temperature sensor; 7. a driving motor; 8. a first water supply pipe; 9. a second water supply pipe; 10. a temperature detection box; 11. a connecting pipe; 12. a drive chain; 13. a transmission gear; 14. a material passage; 15. a heat preservation layer; 16. a first conveying roller set; 17. a second conveying roller set; 18. a cooling assembly; 181. a water inlet pipe; 182. a cooling tube; 183. a water collecting pipe; 184. a water outlet pipe; 19. a tension detection assembly; 191. a support plate; 192. a rotating shaft; 193. a rotating plate; 194. a connecting rod is connected; 195. a connecting rod; 196. and a pull-press sensor.

Detailed Description

In order to make the objects, technical solutions and advantages of the present utility model more apparent, the technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings in conjunction with the specific embodiments of the present application.

As shown in fig. 1-4, the utility model provides an air conditioner cooler for shaping, which is characterized by comprising a cooling box 1, wherein a material channel 14 is formed on the left side and the right side of the upper end of the cooling box 1, the material channel 14 is used for conveying cloth, a first air feeding box 2 is arranged on the upper part of the cooling box 1, a first air conditioning box 3 for accommodating an air conditioner is arranged on the upper part of the first air feeding box 2, the first air feeding box 2 is used for blowing cold air prepared by the air conditioner into the cooling box 1, a first conveying roller set 16 and a second conveying roller set 17 are respectively connected on the upper part and the lower part of the front side wall and the rear side wall of the cooling box 1 in a rotating way, the first conveying roller set 16 and the second conveying roller set 17 are respectively connected with a driving motor 7 through a transmission assembly, and a cooling assembly 18 is arranged between the first conveying roller set 16 and the second conveying roller set 17.

As shown in fig. 3, the cooling assembly 18 includes a water inlet pipe 181, one end of the water inlet pipe 181 is connected with a plurality of parallel disk-shaped cooling pipes 182, the lower parts of the cooling pipes 182 are all connected with a water collecting pipe 183, the water collecting pipe 183 is connected with a water outlet pipe 184, the other end of the water inlet pipe 181 extends to the outside of the cooling tank 1, and the water inlet pipe 181 is used for guiding cold water into the cooling assembly 18.

The cloth enters the cooling box 1 through the material channels 14 at two sides of the cooling box 1 and is output to the cooling box 1, and after entering the cooling box 1, the cloth is conveyed to the material channel 14 at the other side from the material channel 14 at one side of the cooling box 1 through the cooperation of the first conveying roller set 16 and the second conveying roller set 17, and the first conveying roller set 16 and the second conveying roller set 17 are driven by the driving motor 7 in cooperation with the transmission component; in the conveying process of the cloth, the first air-feeding box 2 above the cooling box 1 blows air into the cooling box 1, meanwhile, the first air-conditioning box 3 above the air-feeding box 2 supplies cold air to the air-feeding box 2, and under the cooperation of the first air-conditioning box 2 and the air-conditioning box, the cold air is accelerated to blow the cloth conveyed on the conveying roller from the upper part of the cooling box 1, so that the cloth is quickly cooled by the cold air flowing at a high speed; the cooling box 1 is also internally provided with a cooling assembly 18, cold water is fed into the cooling assembly 18 through the water inlet pipe 181, the cold water enters a plurality of disc-shaped cooling pipes 182 from the water inlet pipe 181, the surface temperature of the cooling pipes 182 is reduced under the action of the cold water inside, and the cooling pipes exchange heat with high-temperature cloth inside the cooling box 1, so that the low temperature inside the cooling box 1 is maintained, and the cold water inside the cooling pipes 182 is discharged through the water collecting pipe 183 and the water outlet pipe 184.

As shown in fig. 1-3 and fig. 5, tension detecting components 19 are arranged on two sides of the cooling box 1, the tension detecting components 19 are used for detecting tension of cloth and correspond to the material channel 14, the tension detecting components 19 comprise a supporting plate 191, the supporting plate 191 is fixedly connected with the cooling box 1, a rotating shaft 192 is rotatably connected to the supporting plate 191, a pair of rotating plates 193 are rotatably connected to the rotating shaft 192, a lap joint rod 194 and a connecting rod 195 are rotatably connected between the rotating plates 193, the lap joint rod 194 is positioned between the rotating shaft 192 and the connecting rod 195 and is lapped above the cloth under the action of gravity, a tension-compression sensor 196 matched with the connecting rod 195 is arranged on the supporting plate 191, and the vertical displacement of the lap joint rod 194 is amplified by the rotating plate 193 and is transmitted to the tension-compression sensor 196 through the connecting rod 195;

as shown in fig. 5, the rotating plate 193 has an obtuse triangle shape, the connecting rod 194 is disposed at an obtuse angle of the rotating plate 193, and a ratio of a horizontal distance between the connecting rod 195 and the connecting rod 194 to a horizontal distance between the connecting rod 194 and the rotating shaft 192 is 6.

The lap joint rod 194 in the tension detection assembly 19 is lapped on the cloth, when the cloth is loosened or tensioned, the lap joint rod 194 correspondingly descends or ascends, the rotary plate 193 can amplify the displacement of the lap joint rod 194 and transmit the displacement to the tension and compression sensor 196 through the connecting rod 195, so that the tension and compression sensor 196 can make a more sensitive reaction to the tension change of the cloth, the operation speed in the cooler can be conveniently adjusted by a worker, and the excessive tensioning or loosening of the cloth is avoided, and the quality of the cloth is influenced; when the cloth is normally conveyed, the numerical value of the tension and compression sensor 196 is in a normal range, when the cloth is excessively loosened or excessively tensioned, the lap-joint rod 194 correspondingly descends or ascends, at the moment, the numerical value of the tension and compression sensor 196 changes under the action of the connecting rod 195, and a worker adjusts the conveying speed of the cloth according to the specific numerical value of the tension and compression sensor 196.

As shown in fig. 2 and 4, the water outlet pipe 184 extends out of the cooling tank 1 and is connected with a first water supply pipe 8, the first water supply pipe 8 is connected with a temperature detection tank 10 through a second water supply pipe 9, the temperature detection tank 10 is communicated with a second air supply tank 4 through a connecting pipe 11, the second air supply tank 4 is located at the lower part of the cooling tank 1, the second air supply tank 4 is used for blowing air into the cooling tank 1, and a water outlet is formed at the bottom of the second air supply tank 4.

The water discharged from the water outlet pipe 184 is conveyed to the temperature detection box 10 through the first water conveying pipe 8 and the second water conveying pipe 9, and a worker can judge the approximate condition of the internal temperature of the cooling box 1 through the temperature displayed by the temperature detection box 10, so that the air outlet temperature and the air outlet speed of the first air conditioning box 3 are adjusted, the cold water discharged from the water outlet pipe 195 is continuously conveyed into the second air conveying box 4 to be used for cooling the air in the second air conveying box 4, the second air conveying box 4 inputs the cold air from the lower side of the cooling box 1, and the uniformity of cooling of the cooling box 1 on cloth can be further ensured.

As shown in fig. 2, the transmission assembly includes: the transmission gear 13 is fixedly connected with the extending ends of the first conveying roller set 16 and the second conveying roller set 17, and the transmission gear 13 is matched with the driving motor 7 through the transmission chain 12.

Through drive gear 13 and drive chain 12 and driving motor 7 cooperation, can guarantee that the circular roller of first conveying roller group 16 and second conveying roller group 17 is synchronous to be rotated, avoid taking place the card at the in-process part circular roller of transmission cloth and stop to cause cloth transmission unsmooth, influence the cooling efficiency of this cooler to the cloth.

As shown in fig. 1-3, the left and right sides of the cooling box 1 are respectively provided with an auxiliary roller 5 and a temperature sensor 6, the auxiliary rollers 5 are matched with the material channel 14 for assisting the cloth to pass through the material channel 14, and the temperature sensor 6 is used for detecting the temperature of the cloth.

The auxiliary roller 5 can avoid friction between the cloth and the box body when the cloth enters or is output from the cooling box 1, so that the cloth quality is affected; meanwhile, by arranging the temperature sensor 6 beside the material channel 14, the temperature of the cloth when entering the cooling box and the temperature of the cloth when being output from the cooling box can be detected, so that the observation of workers is facilitated.

As shown in fig. 3, the first conveying roller set 16 and the second conveying roller set 17 are arranged in a staggered manner, so that the cloth is conveyed in an S-shape between the first conveying roller set 16 and the second conveying roller set 17, and the cooling assembly 18 is arranged in cooperation with the first conveying roller set 16 and the second conveying roller set 17, so that the cloth sequentially passes through the interval formed by the adjacent cooling pipes 182.

Through the relative position arrangement of the first conveying roller set 16, the second conveying roller set 17 and the cooling assembly 18, the cloth can be fully cooled in the cooling box 1, and the uniformity of cloth cooling is further ensured

As shown in fig. 6, the water inlet pipe 181, the first water supply pipe 8 and the second water supply pipe 9 are provided with a heat insulation layer 15.

The heat preservation layer 15 can avoid the temperature rise of cold water caused by external influence in the conveying process, thereby causing energy waste.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that modifications and improvements could be made by those skilled in the art without departing from the inventive concept, which falls within the scope of the present utility model.

Claims

1. The utility model provides an air conditioner cooler for design, its characterized in that, including cooling tank (1), material passageway (14) have all been seted up to the upper end left and right sides of cooling tank (1), and material passageway (14) are used for the transport of cloth, the upper portion of cooling tank (1) is provided with first air feeder (2), and the upper portion of first air feeder (2) is provided with first air conditioner case (3) that hold the air conditioner, and first air feeder (2) are used for blowing the cold air of air conditioner preparation to cooling tank (1) inside, the upper portion and the lower part of the front and back lateral wall of cooling tank (1) are respectively rotated and are connected with first transport roller group (16) and second transport roller group (17), first transport roller group (16) and second transport roller group (17) are connected driving motor (7) through drive assembly respectively, are provided with cooling module (18) between first transport roller group (16) and the second transport roller group (17).

2. The air conditioner cooler for shaping according to claim 1, wherein the cooling assembly (18) comprises a water inlet pipe (181), one end of the water inlet pipe (181) is communicated with a plurality of disc-shaped cooling pipes (182) which are arranged in parallel, the lower parts of the cooling pipes (182) are communicated with water collecting pipes (183), the water collecting pipes (183) are communicated with water outlet pipes (184), the other end of the water inlet pipe (181) extends to the outside of the cooling tank (1), and the water inlet pipe (181) is used for guiding cold water into the cooling assembly (18).

3. The air conditioner cooler for shaping according to claim 2, wherein tension detecting components (19) are arranged on two sides of the cooling box (1), the tension detecting components (19) are used for detecting tension of cloth and correspond to the material channel (14), the tension detecting components (19) comprise supporting plates (191), the supporting plates (191) are fixedly connected with the cooling box (1), rotating shafts (192) are rotatably connected to the supporting plates (191), a pair of rotating plates (193) are rotatably connected to the rotating shafts (192), a connecting rod (194) and a connecting rod (195) are rotatably connected between the rotating plates (193), the connecting rod (194) is located between the rotating shafts (192) and the connecting rod (195) and is connected to the upper portion of the cloth in a lap joint mode under the action of gravity, and pull pressure sensors (196) matched with the connecting rod (195) are arranged on the supporting plates (191), and vertical displacement of the connecting rod (194) is amplified by the rotating plates (193) and transmitted to the pull pressure sensors (196) through the connecting rod (195).

4. A setting air conditioner cooler according to claim 3, wherein the rotary plate (193) is in the shape of an obtuse triangle, the lap joint lever (194) is provided at the obtuse angle of the rotary plate (193), and the ratio of the horizontal distance between the lap joint lever (194) and the connecting lever (195) to the horizontal distance between the lap joint lever (194) and the rotary shaft (192) is 6.

5. The air conditioner cooler for shaping according to claim 4, wherein the water outlet pipe (184) extends out of the cooling box (1) and is connected with a first water supply pipe (8), the first water supply pipe (8) is connected with a temperature detection box (10) through a second water supply pipe (9), the temperature detection box (10) is communicated with a second air supply box (4) through a connecting pipe (11), the second air supply box (4) is located at the lower part of the cooling box (1), the second air supply box (4) is used for blowing air into the cooling box (1), and a water outlet is formed in the bottom of the second air supply box (4).

6. The sizing air conditioner cooler of claim 5, wherein said transmission assembly comprises: the transmission gear (13) is fixedly connected with the extending ends of the first conveying roller set (16) and the second conveying roller set (17), and the transmission gear (13) is matched with the driving motor (7) through the transmission chain (12).

7. The air conditioner cooler for shaping according to claim 6, wherein the left side and the right side of the cooling box (1) are respectively provided with an auxiliary roller (5) and a temperature sensor (6), the auxiliary rollers (5) are matched with the material channel (14) and are used for assisting in passing the cloth through the material channel (14), and the temperature sensor (6) is used for detecting the temperature of the cloth.

8. The air conditioner cooler for shaping according to claim 7, wherein the first conveying roller set (16) and the second conveying roller set (17) are arranged in a staggered manner, so that the cloth is conveyed in an S-shape between the first conveying roller set (16) and the second conveying roller set (17), and the cooling assembly (18) is matched with the first conveying roller set (16) and the second conveying roller set (17) so that the cloth sequentially passes through intervals formed by adjacent cooling pipes (182).

9. The air conditioner cooler for shaping according to claim 8, wherein the water inlet pipe (181), the first water supply pipe (8) and the second water supply pipe (9) are respectively provided with an insulation layer (15).