CN214168405U - Hydroextractor for textile production - Google Patents

Abstract

The utility model belongs to the technical field of weaving equipment, concretely relates to hydroextractor for textile production. The utility model comprises a box body, wherein a feed inlet and a discharge outlet are respectively arranged at the two ends of the box body, and a dehydration component and a drying component are arranged in the box body; the dehydration assembly comprises an upper compression roller and a lower compression roller which are symmetrically arranged, and also comprises a high-pressure fan positioned above the upper compression roller, and the high-pressure fan is connected with a blowing pipe; the drying component comprises upper and lower rows of symmetrically arranged electric heating rollers, electric brush rings connected with the electric heating rollers and a third motor driving the electric heating rollers to rotate, and further comprises tensioning mechanisms arranged at two ends of the electric heating rollers, each tensioning mechanism comprises a lower tensioning roller and an upper tensioning roller arranged above the lower tensioning roller, and each upper tensioning roller is connected with a height adjusting component. The utility model can extrude and dewater the cloth while conveying the cloth, and improves the dewatering speed by arranging the high pressure fan; the cloth can be ironed while the drying is realized, and the production efficiency is improved.

Description

Hydroextractor for textile production

Technical Field

The utility model belongs to the technical field of weaving equipment, concretely relates to hydroextractor for textile production.

Background

The textile is a product formed by processing and weaving textile fibers and is divided into woven fabric and knitted fabric. After weaving, the textile needs to be dyed before it can be used for making clothing. Textiles, after dyeing, contain a large amount of moisture and therefore need to be dewatered.

In the prior art, a centrifugal drum type dehydrator is mostly adopted for dehydration, and the dehydration mode is not suitable for assembly line processing; the production mode that adopts the conveying roller to carry the cloth and weather again and dry is not good with the stoving dehydration effect, and the cloth after the stoving simultaneously can corrugate, still need iron once more, and production efficiency is low.

SUMMERY OF THE UTILITY MODEL

To the above-mentioned not enough, the utility model aims at providing a hydroextractor for textile production.

The utility model provides a following technical scheme:

a dehydrator for textile production comprises a box body, wherein a feed inlet and a discharge outlet are respectively arranged at two ends of the box body, and a dehydration assembly and a drying assembly are arranged in the box body;

the dehydration assembly comprises an upper compression roller and a lower compression roller which are symmetrically arranged, and also comprises a motor I for driving the upper compression roller to rotate, a motor II for driving the lower compression roller to rotate, and a high-pressure fan positioned above the upper compression roller, wherein the high-pressure fan is connected with a blowing pipe;

the drying component comprises upper and lower rows of symmetrically arranged electric heating rollers, electric brush rings connected with the electric heating rollers and a third motor driving the electric heating rollers to rotate, and further comprises tensioning mechanisms arranged at two ends of the electric heating rollers, each tensioning mechanism comprises a lower tensioning roller and an upper tensioning roller arranged above the lower tensioning roller, and each upper tensioning roller is connected with a height adjusting component.

A middle partition board is arranged in the middle of the interior of the box body, the middle partition board divides the interior of the box body into a dehydration chamber and a drying chamber, the dehydration assembly is arranged in the dehydration chamber, and the drying assembly is arranged in the drying chamber; the inner wall of the drying chamber is provided with a heat insulation layer, the upper end box body of the drying chamber is provided with an air outlet, and the outer end of the air outlet is provided with a centrifugal fan.

And a water tank is arranged below the lower pressing roller and connected with a water drain pipe, and one end of the water drain pipe penetrates through and extends to the outside of the box body.

And a sound attenuation layer is arranged in the box body.

The roller surface of the upper pressing roller is uniformly provided with a first rubber ring, and the roller surface of the lower pressing roller is uniformly provided with a second rubber ring.

The first rubber ring and the second rubber ring are arranged in a staggered mode.

The box body is provided with a box door through a hinge, and one end of the box door, which deviates from the hinge, is provided with a lock catch.

And a glass window is arranged on the box door, and a defogging device is arranged on the inner side of the glass window.

All install the adapting rod on the box in the feed inlet and the discharge gate outside, adapting rod one end is installed the accepting roller through articulated.

The height adjusting assembly comprises an adjusting seat fixedly connected to the inner wall of the box body, a sliding groove is formed in the adjusting seat, a sliding block is slidably mounted in the sliding groove, threaded holes are formed in two ends of the adjusting seat, an adjusting screw is mounted in each threaded hole, a connecting rod is fixedly connected to the sliding block, and one end of the connecting rod is hinged to the upper tensioning roller.

The utility model has the advantages that:

the utility model can extrude and dewater the cloth while conveying the cloth, and improves the dewatering speed by arranging the high pressure fan; through the cooperation of straining device and electric heat roller use, can iron the cloth when realizing drying, improved production efficiency.

Drawings

Fig. 1 is a front view of the present invention;

FIG. 2 is an internal structural view of the present invention;

FIG. 3 is a schematic structural view of the upper and lower press rolls of the present invention;

fig. 4 is an enlarged view at a in fig. 2.

Labeled as: the device comprises a box body 101, a box door 102, a carrying rod 103, cloth 104, a glass window 105, a centrifugal fan 106, a lock catch 107, a water discharge pipe 108, an electric heating roller 109, a lower tensioning roller 110, an upper tensioning roller 111, a high-pressure fan 112, a blowing pipe 113, an upper pressing roller 114, a lower pressing roller 115, a water tank 116, an air outlet 117, a first rubber ring 118, a connecting rod 119, an adjusting seat 120, a sliding block 121, an adjusting screw 122, a sliding groove 123, a middle partition plate 124 and a second rubber ring 125.

Detailed Description

As shown in the figure, the dehydrator for textile production comprises a box body 101, wherein a feeding hole and a discharging hole are formed in two ends of the box body 101 respectively, and cloth 104 enters the box body 101 from the feeding hole, is dehydrated and dried and then is conveyed out from the discharging hole. In order to prevent the cloth 104 from hooking the threads at the discharge port and the feed port, the carrying rod 103 is fixedly installed on the box body 101 positioned at the outer sides of the feed port and the discharge port by welding, the carrying roller is installed at one end of the carrying rod 103 by hinging, and the cloth 104 is placed on the carrying roller, so that the cloth 104 is prevented from contacting with the edge of the feed port and the edge of the discharge port of the box body 101, the thread hooking phenomenon is prevented, and the surface of the cloth 104 is protected from being damaged.

Install median septum 124 at box 101 inside middle part, median septum 124 is divided into dehydration room and drying chamber with the inside of box 101, installs the dehydration subassembly in the dehydration room, installs the drying assembly in the drying chamber, and wherein, the dehydration room is located box 101 and is close to feed inlet one end, and the drying chamber is located box 101 and is close to discharge gate one end.

The dewatering component comprises upper press rolls 114 and lower press rolls 115 which are symmetrically arranged, the upper press rolls 114 and the lower press rolls 115 are arranged in a plurality of numbers, the upper press rolls 114 and the lower press rolls 115 correspond to each other one by one, and a certain distance is reserved between every two adjacent groups of upper press rolls 114 and lower press rolls 115. The upper press roller 114 is connected with a motor shaft of a first motor through a coupler, and the first motor can drive the upper press roller 114 to rotate. The lower press roller 115 is connected with a motor shaft of a motor II through a coupler, and the motor II can drive the lower press roller 115 to rotate. The cloth 104 is placed between an upper pressure roller 114 and a lower pressure roller 115, the rotating upper pressure roller 114 and the lower pressure roller 115 can be used for conveying the cloth 104, and the upper pressure roller 114 and the lower pressure roller 115 can generate a squeezing effect on the cloth 104, so that the moisture in the cloth 104 is squeezed out. In order to improve the dewatering effect, a high-pressure fan 112 is further installed in the box 101 above the upper press roll 114, the high-pressure fan 112 is connected with a blowing pipe 113, an air outlet of the blowing pipe 113 is aligned with a gap between two adjacent groups of upper press rolls 114 and lower press rolls 115, and the air blown out of the blowing pipe 113 can blow away the moisture remained in the extruded cloth 104. In order to collect the removed water, a water tank 116 is provided in the casing 101 below the lower roll 115, and the water squeezed out of the cloth 104 and the water blown off fall into the water tank 116. A drain pipe 108 is connected to the water tank 116, and one end of the drain pipe 108 penetrates and extends to the outside of the tank 101, so that the water in the water tank 116 is drained out of the tank 101 through the drain pipe 108.

In order to improve the effect of squeezing and dewatering, the first rubber rings 118 are uniformly distributed on the roll surface of the upper press roll 114, the second rubber rings 125 are uniformly distributed on the roll surface of the lower press roll 115, and the first rubber rings 118 and the second rubber rings 125 are arranged in a staggered mode, so that an uneven squeezing surface is formed between the upper press roll 114 and the lower press roll 115, and moisture in the cloth 104 is squeezed out.

Because the high pressure fan 112 generates a large noise when operating, in order to reduce the noise, a noise reduction layer, such as a noise reduction sponge, is disposed in the box 101, so as to reduce the noise generated when the high pressure fan 112 operates and spread out of the box 101.

The drying component comprises upper and lower rows of symmetrically arranged electric heating rollers 109, the electric heating rollers 109 are connected with electric brush rings, electric heating wires arranged in the electric heating rollers 109 are electrified through the electric brush rings, the electric heating rollers 109 are also connected with a motor III, and the motor III can drive the electric heating rollers 109 to rotate. Tensioning mechanisms are installed at two ends of the electric heating roller 109 and comprise a lower tensioning roller 110 and an upper tensioning roller 111, the upper tensioning roller 111 is arranged above the lower tensioning roller 110, and the lower tensioning roller 110 can rotate. In order to enable the upper tensioning roller 111 to adjust the height up and down so as to conveniently install the cloth 104 between the upper tensioning roller 111 and the lower tensioning roller 110, and meanwhile, in order to conveniently adjust the cloths 104 with different thicknesses, the upper tensioning roller 111 is further connected with a height adjusting assembly, the height adjusting assembly comprises an adjusting seat 120 fixedly installed on the inner wall of the box body 101 through welding, a sliding groove 123 is formed in the adjusting seat 120, a sliding block 121 is installed in the sliding groove 123 in a sliding manner, and the sliding block 121 can move linearly up and down in the sliding groove 123. The two ends of the adjusting seat 120 are both provided with threaded holes, and adjusting screws 122 are installed in the threaded holes, so that the position of the sliding block 121 can be fixed through the adjusting screws 122. A connecting rod 119 is fixedly mounted on the sliding block 121 through bolt connection, and one end of the connecting rod 119 is hinged to the upper tensioning roller 111.

The cloth 104 is located between the upper row of electric heating rollers 109 and the lower row of electric heating rollers 109, and the upper tensioning roller 111 and the lower tensioning roller 110 which are arranged at the two ends of the electric heating rollers 109 simultaneously act together to flatten the cloth 104, so that the electric heating rollers 109 can dry the cloth 104 and play a role in ironing, and the production efficiency is improved.

In order to avoid the waste of energy caused by too fast heat dissipation of the drying chamber, a heat insulation layer is arranged on the inner wall of the drying chamber. Meanwhile, in order to avoid generating condensed water, an air outlet 117 is formed in the upper end box body 101 of the drying chamber, a centrifugal fan 106 is installed at the outer end of the air outlet 117, and water vapor generated in the drying process can be extracted in real time by the centrifugal fan 106.

In order to facilitate observation of production and maintenance in the box 101, a door 102 is mounted on the box 101 through a hinge, and a latch 107 is mounted at an end of the door 102 away from the hinge, so that the door 102 is closed during operation. The door 102 is provided with a glass window 105, and the glass window 105 corresponds to the transport route of the cloth 104, so that the processed state of the cloth 104 can be observed through the glass window 105. In order to avoid the water mist from covering the glass window 105, a defogging device is further installed on the inner side of the glass window 105, and the defogging device is used for removing the water mist generated on the glass window.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a hydroextractor for textile production which characterized in that: the drying device comprises a box body (101), wherein a feeding hole and a discharging hole are respectively formed in two ends of the box body (101), and a dewatering component and a drying component are installed in the box body (101);

the dehydration component comprises an upper compression roller (114) and a lower compression roller (115) which are symmetrically arranged, and further comprises a motor I for driving the upper compression roller (114) to rotate, a motor II for driving the lower compression roller (115) to rotate, and a high-pressure fan (112) positioned above the upper compression roller (114), wherein the high-pressure fan (112) is connected with a blowing pipe (113);

the drying component comprises upper and lower rows of symmetrically arranged electric heating rollers (109), electric brush rings connected with the electric heating rollers (109), and a motor III driving the electric heating rollers (109) to rotate, and further comprises tensioning mechanisms arranged at two ends of the electric heating rollers (109), each tensioning mechanism comprises a lower tensioning roller (110) and an upper tensioning roller (111) arranged above the lower tensioning roller (110), and the upper tensioning roller (111) is connected with a height adjusting component.

2. The dehydrator for textile production of claim 1, wherein: a middle partition plate (124) is arranged in the middle of the interior of the box body (101), the middle partition plate (124) divides the interior of the box body (101) into a dehydration chamber and a drying chamber, the dehydration assembly is arranged in the dehydration chamber, and the drying assembly is arranged in the drying chamber; the inner wall of the drying chamber is provided with a heat insulation layer, an air outlet (117) is formed in an upper end box body (101) of the drying chamber, and the outer end of the air outlet (117) is provided with a centrifugal fan (106).

3. The dehydrator for textile production of claim 1, wherein: a water tank (116) is arranged below the lower pressing roller (115), the water tank (116) is connected with a water drainage pipe (108), and one end of the water drainage pipe (108) penetrates through and extends to the outside of the box body (101).

4. The dehydrator for textile production of claim 1, wherein: a sound attenuation layer is arranged in the box body (101).

5. The dehydrator for textile production of claim 1, wherein: the roller surface of the upper pressing roller (114) is uniformly provided with a first rubber ring (118), and the roller surface of the lower pressing roller (115) is uniformly provided with a second rubber ring (125).

6. The dehydrator for textile production of claim 5, wherein: the first rubber ring (118) and the second rubber ring (125) are arranged in a staggered mode.

7. The dehydrator for textile production of claim 1, wherein: a box door (102) is installed on the box body (101) through a hinge, and a lock catch (107) is installed at one end, deviating from the hinge, of the box door (102).

8. The dehydrator for textile production of claim 7, wherein: the refrigerator door (102) is provided with a glass window (105), and the inner side of the glass window (105) is provided with a defogging device.

9. The dehydrator for textile production of claim 1, wherein: and bearing rods (103) are arranged on the box body (101) at the outer sides of the feeding hole and the discharging hole, and bearing rollers are arranged at one ends of the bearing rods (103) through hinges.

10. The dehydrator for textile production of claim 1, wherein: the altitude mixture control subassembly includes regulation seat (120) of rigid coupling on box (101) inner wall, is equipped with spout (123) on regulation seat (120), installs slider (121) slidable in spout (123), adjusts seat (120) both ends and all is equipped with the screw hole, installs adjusting screw (122) in the screw hole, and the rigid coupling has connecting rod (119) on slider (121), connecting rod (119) one end with it is articulated to go up tensioning roller (111).

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