CN111361284A - Novel textile printing and dyeing dryer with waste heat recovery function - Google Patents

Abstract

The invention belongs to the technical field of textile equipment, and particularly relates to a novel textile printing and dyeing dryer with a waste heat recovery function. According to the invention, the installation plate unit, the water delivery pipe and the diversion water receiving unit are arranged on the installation column of the heating plate, so that the effect of effectively recovering the drying excess heat is achieved. The invention has the advantages of simple and convenient waste heat recovery operation in a water supply heat absorption mode, high structural stability, reasonable and effective condensed water recovery structure after heat absorption, difficult dripping of the condensed water on the cloth, no pollution to the cloth, adjustable and selectable effective condensing area and condensed water dripping risk, and good heat recovery and condensed water receiving effects of the whole device.

Description

Novel textile printing and dyeing dryer with waste heat recovery function

Technical Field

The invention belongs to the technical field of textile equipment, and particularly relates to a novel textile printing and dyeing dryer with a waste heat recovery function.

Background

A textile printing and dyeing dryer refers to a heating device for drying and shaping cloth which is subjected to printing and dyeing operation on a textile printing and dyeing production line, and the structure of the textile printing and dyeing dryer mainly comprises a heating box body and an electric heating wire. On the other hand, a large amount of high-temperature water vapor is accumulated in the heating box body, so that metal structures in the box can be corroded, a large amount of heat energy is wasted, and a novel dryer with a waste heat recovery function is urgently needed in the market.

The patent publication number is CN 209085243U, and the china utility model patent that bulletins day is 2019.07.09 discloses a drying-machine that drying efficiency is high for printing and dyeing, including the base, the last fixed surface of base is connected with first support frame, the last fixed surface of first support frame is connected with the stoving case, and the inside of stoving case is provided with drying device, and drying device's lower surface is connected with the last fixed surface of fixed block, and the lower surface of fixed block is connected with the last fixed surface of base, and the front of stoving incasement wall and the three first bearing of the equal fixedly connected with in the back, and the inside of three first bearing opposite face all wears to be equipped with same first pivot.

But the drying-machine in the utility model patent has the inconvenient problem of recycling of waste heat of high temperature steam.

Disclosure of Invention

The invention aims to provide a novel textile printing and dyeing dryer with a waste heat recovery function, which can achieve the effect of effectively recovering excess drying heat in a mode of arranging a mounting plate unit, a water conveying pipe and a diversion water receiving unit on a mounting column of a heating plate. The invention has the advantages of simple and convenient waste heat recovery operation in a water supply heat absorption mode, high structural stability, reasonable and effective condensed water recovery structure after heat absorption, difficult dripping of the condensed water on the cloth, no pollution to the cloth, adjustable and selectable effective condensing area and condensed water dripping risk, and good heat recovery and condensed water receiving effects of the whole device.

The technical scheme adopted by the invention for solving the problems is as follows: the utility model provides a novel textile printing and dyeing drying-machine with waste heat recovery effect, includes drying-machine case, sets up erection column on the drying-machine incasement top surface, and set up hot plate under the erection column on the terminal surface still includes that the block is fixed mounting panel unit on the erection column, both sides set up respectively two on the mounting panel unit and through supplying water heat absorption mode in order to be used for waste heat recovery's raceway to and both sides set up respectively on the mounting panel unit and be used for receiving the water conservancy diversion water receiving unit of comdenstion water.

The further preferred technical scheme is as follows: the mounting plate unit comprises a rectangular plate body, an arc-shaped groove, a protruding column and a first opening ring body, wherein the arc-shaped groove is arranged on the opposite outer side surface of the rectangular plate body and used for clamping and mounting the cylindrical mounting column, the protruding column is arranged on the opposite inner side surface of the rectangular plate body, and the first opening ring body is arranged at the end position of the protruding column and used for clamping and mounting the water delivery pipe.

The further preferred technical scheme is as follows: the central angle degrees of the arc-shaped groove and the first opening ring body are both larger than 180 degrees.

The further preferred technical scheme is as follows: two sides of the water delivery pipe in a reciprocating U shape are clamped and fixed on the first opening ring body, and two ends of the water delivery pipe penetrate through the wall of the drying cabinet.

The further preferred technical scheme is as follows: the water conservancy diversion water receiving unit includes that inclined plane is in order to be used for the right angle triangular prism of slope water conservancy diversion condensate drop down, sets up receiving plate on the protrusion post sets up water receiving tank on the receiving plate side, and sets up just be located on the receiving plate side water receiving tank top position department passes through the half cylinder of right angle triangular prism bottommost edge support mode in order to be used for guiding the comdenstion water.

The further preferred technical scheme is as follows: the diversion water receiving unit further comprises a suspension rope arranged on the upper surface of the right-angle triangular prism and close to the thinnest side, and a second opening ring body arranged on the suspension rope and used for being clamped and installed on the protruding column.

The further preferred technical scheme is as follows: the diversion water receiving unit further comprises an axial protruding strip which is arranged on the semi-cylindrical annular surface and used for enabling the right-angle triangular prism edge to abut against the back clamping to be fixed, a water baffle plate arranged on the outer side of the water receiving groove and a clamping mounting groove arranged on the receiving plate.

The further preferred technical scheme is as follows: the diversion water receiving unit further comprises a vertical hole which is formed in the right-angle triangular prism and used for heat exchange between high-temperature water vapor passing through the water delivery pipe and the water delivery pipe.

The further preferred technical scheme is as follows: the water diversion and receiving unit further comprises a round chamfer arranged on the annular edge at the lower end of the vertical hole, and the openings at the two ends of the vertical hole are arranged in a big square manner from top to bottom.

The further preferred technical scheme is as follows: the hanging rope is used for lifting the right-angle triangular prism through one end when the inclination angle of the inclined plane of the right-angle triangular prism is too small and water drops directly fall on the cloth in a multi-circle winding mode on the second opening ring body, and the inclination degree of the inclined plane of the right-angle triangular prism is increased.

According to the invention, the installation plate unit, the water delivery pipe and the diversion water receiving unit are arranged on the installation column of the heating plate, so that the effect of effectively recovering the drying excess heat is achieved. The invention has the advantages of simple and convenient waste heat recovery operation in a water supply heat absorption mode, high structural stability, reasonable and effective condensed water recovery structure after heat absorption, difficult dripping of the condensed water on the cloth, no pollution to the cloth, adjustable and selectable effective condensing area and condensed water dripping risk, and good heat recovery and condensed water receiving effects of the whole device.

Drawings

Fig. 1 is a schematic view of the installation positions of the water delivery pipe and the diversion water receiving unit in the present invention.

Fig. 2 is a schematic view of an installation structure of the water pipe in the top view.

Fig. 3 is a schematic view of the installation position structure of the diversion water receiving unit of the invention.

Fig. 4 is an angle diagram of the right triangular prism of the present invention rotationally adjusted to a more inclined state in order to increase an effective condensing area under the precursor whose lower surface liquid droplets are less likely to fall.

Fig. 5 is a schematic view of a position structure of the receiving plate according to the present invention.

Fig. 6 is a schematic view of the position structure of the vertical opening in the present invention.

FIG. 7 is a schematic diagram of the position structure of the round chamfer in the present invention.

Detailed Description

The following description is only a preferred embodiment of the present invention and is not intended to limit the scope of the present invention.

Example (b): as shown in fig. 1, 2, 3, 4, 5, 6 and 7, a novel textile printing and dyeing dryer with waste heat recovery function comprises a dryer case 11, a mounting column 12 arranged on the inner top surface of the dryer case 11, a heating plate 13 arranged on the lower end surface of the mounting column 12, and a mounting plate unit 1 fixed on the mounting column 12 by clamping, wherein two sides of the mounting plate unit 1 are respectively arranged on two sides of a water delivery pipe 2 used for waste heat recovery in a water supply and heat absorption mode, and two sides of the water delivery and water receiving unit 3 are respectively arranged on the mounting plate unit 1 and used for receiving condensed water.

In this embodiment, the printed and dyed fabric passes through the drying machine case 11, the heating plate 13 is powered on to heat and dry the fabric downwards, so as to ensure the most basic drying effect, and normal-temperature tap water is introduced into the water delivery pipe 2 to absorb heat of a large amount of water vapor accumulated at the upper position in the drying machine case 11, so as to ensure the basic waste heat recovery effect, and during this process, condensed water will drip from the water delivery pipe 2, and if the condensed water directly falls on the fabric, secondary pollution is caused, so that in this embodiment, by means of the diversion water receiving unit 3, as much heat as possible is ensured to fall on the water delivery pipe 2, and the condensed water is guided and collected by itself, so as to prevent the condensed water from falling on the fabric.

The mounting plate unit 1 comprises a rectangular plate body 101, an arc-shaped groove 102, a protruding column 103 and a first opening ring body 104, wherein the arc-shaped groove 102 is formed in the opposite outer side face of the rectangular plate body 101 and used for clamping and mounting on the cylindrical mounting column 12, the protruding column 103 is arranged on the opposite inner side face of the rectangular plate body 101, and the first opening ring body 104 is arranged at the end position of the protruding column 103 and used for clamping and mounting the water conveying pipe 2. The central angles of the arcuate slot 102 and the first open ring 104 are both greater than 180 °.

Two sides of the water delivery pipe 2 in a reciprocating U shape are clamped and fixed on the first opening ring body 104, and two ends of the water delivery pipe 2 penetrate through the wall of the drying cabinet 11.

In this embodiment, the water pipe 2 is reciprocally disposed to increase an effective area for receiving heat, the first opening ring 104 is used to clamp and mount the water pipe 2 from two sides, and the arc-shaped groove 102 is used to clamp and connect the mounting column 12, so that the water pipe 2 is effectively fixed at an upper position in the whole drying cabinet 11, and is flexibly fixed, and is convenient to be removed, replaced and maintained after force is applied.

Water conservancy diversion water receiving unit 3 includes that the inclined plane is in order to be used for the right angle triangular prism 301 of slope water conservancy diversion condensate drop down, sets up receiving plate 302 on the protrusion post 103 sets up water receiving tank 303 on the receiving plate 302 side, and sets up on the receiving plate 302 side and be located water receiving tank 303 top position department and pass through right angle triangular prism 301 supports the half-cylinder 304 of mode in order to be used for guiding the comdenstion water bottom edge. The diversion water receiving unit 3 further comprises a suspension rope 305 arranged on the upper surface of the right-angle triangular prism 301 and close to the thinnest side, and a second opening ring 306 arranged on the suspension rope 305 and used for clamping and mounting on the protruding column 103. The diversion water receiving unit 3 further comprises an axial protruding strip 307, a water baffle 308 and a clamping installation groove 309, wherein the axial protruding strip is arranged on the annular surface of the semi-cylinder 304 and used for enabling the edge of the right-angle triangular prism 301 to abut against and be fixed by clamping, the water baffle 308 is arranged on the outer side of the water receiving groove 303, and the clamping installation groove 309 is formed in the receiving plate 302. The diversion water receiving unit 3 further comprises a vertical hole 310 which is arranged on the right-angle triangular prism 301 and used for heat exchange between high-temperature water vapor passing through and the water conveying pipe 2. The hanging string 305 increases the inclination of the inclined surface of the right-angled triangular prism 301 by winding the second split ring 306 a plurality of times to lift the right-angled triangular prism 301 at one end when the inclined surface of the right-angled triangular prism 301 has a too small inclination angle and water drops directly fall on the cloth.

In this embodiment, the inclined plane of right angle triangular prism 301 is the main shaping face of comdenstion water, and the side of longer right-angle side is located the top, promptly raceway 2 below for receive the water that the condensation drips on raceway 2, then the rethread vertical trompil 310 landing to the inclined plane of below forms the effect that two comdenstion water converge, then flows down on semi-cylindrical 304, collects at last in water receiving tank 303, accomplishes the operation that the comdenstion water backward flow was collected, was avoided dripping to pollute the cloth.

The edge at the larger acute angle in the right-angle triangular prism 301 is supported between the axial protruding strips 307, and the edge at the reduced acute angle is suspended by the suspension rope 305, so that the inclination angle of the bevel edge surface of the right-angle triangular prism 301 is adjustable, that is, when the inclination is large, the suspension rope 305 is wound on the second opening ring 306 for several circles, and otherwise, the suspension rope 305 is loosened.

Above-mentioned inclination adjusts the thought, is in balance two parameters of unexpected risk and the effective condensation area of drippage of comdenstion water essentially, promptly the hypotenuse face slope is big more, then the comdenstion water is more difficult for dropping, but effective condensation area, promptly the vertical projection area of hypotenuse face has reduced, otherwise then the risk increase of dropping but effective condensation area also increases, so at this equilibrium in-process of favorable and unfavorable, can fully adjust to suitable inclination, it is this right angle triangular prism 301 one end hangs, the purpose that the other end edge supported.

In addition, the vertical opening 310 is not only used for sliding the condensed water downwards, but also used for conveying the heat upwards, so that the quantity of the heat transferred to the water conveying pipe 2 can be further increased, and the waste heat recovery efficiency is further improved.

The diversion water receiving unit 3 further comprises a round chamfer 311 arranged on the annular edge at the lower end of the vertical hole 310, and the openings at the two ends of the vertical hole 310 are arranged in a big manner.

In this embodiment, the setting of the round chamfer 311 mainly reduces the curvature of the lower annular edge of the vertical opening 310, so that condensed water is prevented from directly dropping from the lower annular edge, and finally, the condensed water is ensured to be completely recycled as much as possible, and the cloth is prevented from being polluted by the dropping. In addition, the design of the round chamfer 311 further increases the space for upward heat transfer to the water pipe 2, and improves the heat recovery efficiency of the water pipe 2, and the vertical hole 310 is arranged in a small-end large-square manner, so that the channel space for upward heat transfer can be increased.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various modifications can be made within the knowledge of those skilled in the art without departing from the gist of the present invention. These are non-inventive modifications, which are intended to be protected by patent laws within the scope of the claims appended hereto.

Claims (10)

1. The utility model provides a novel textile printing and dyeing drying-machine with waste heat recovery effect, includes drying-machine case (11), sets up erection column (12) on the top surface in drying-machine case (11), and set up and be in hot plate (13) on the terminal surface under erection column (12), its characterized in that: the device is characterized by further comprising mounting plate units (1) fixed on the mounting columns (12) in a clamping mode, water conveying pipes (2) arranged on the two mounting plate units (1) and used for waste heat recovery in a water supply and heat absorption mode, and flow guide water receiving units (3) arranged on the two sides of the mounting plate units (1) and used for receiving condensed water.

2. The novel textile printing and dyeing dryer with the waste heat recovery function as claimed in claim 1, is characterized in that: the mounting plate unit (1) comprises a rectangular plate body (101), an arc-shaped groove (102) which is arranged on the relative outer side face of the rectangular plate body (101) and used for clamping and mounting on the cylindrical mounting column (12), a protruding column (103) which is arranged on the relative inner side face of the rectangular plate body (101), and a first opening ring body (104) which is arranged at the end position of the protruding column (103) and used for clamping and mounting the water conveying pipe (2).

3. The novel textile printing and dyeing dryer with the waste heat recovery function as claimed in claim 2, characterized in that: the central angles of the arc-shaped groove (102) and the first open ring body (104) are both larger than 180 degrees.

4. The novel textile printing and dyeing dryer with the waste heat recovery function as claimed in claim 2, characterized in that: two sides of the water conveying pipe (2) in a reciprocating U shape are clamped and fixed on the first opening ring body (104), and two ends of the water conveying pipe (2) penetrate through the wall of the drying cabinet (11).

5. The novel textile printing and dyeing dryer with the waste heat recovery function as claimed in claim 2, characterized in that: water conservancy diversion water receiving unit (3) include that inclined plane is down in order to be used for right angle triangular prism (301) of slope water conservancy diversion condensate drop, set up receiving board (302) on protrusion post (103) set up water receiving tank (303) on receiving board (302) side, and set up receiving board (302) side is gone up and is located water receiving tank (303) top position department and pass through right angle triangular prism (301) lower extreme edge supports half cylinder (304) of mode in order to be used for guiding the comdenstion water.

6. The novel textile printing and dyeing dryer with the waste heat recovery function as claimed in claim 5, is characterized in that: the diversion water receiving unit (3) further comprises a suspension rope (305) which is arranged on the upper surface of the right-angle triangular prism (301) and close to the thinnest side position, and a second opening ring body (306) which is arranged on the suspension rope (305) and used for clamping and mounting on the protruding column (103).

7. The novel textile printing and dyeing dryer with the waste heat recovery function as claimed in claim 5, is characterized in that: the diversion water receiving unit (3) further comprises an axial protruding strip (307) which is arranged on the ring surface of the semi-cylinder (304) and used for the edge of the right-angle triangular prism (301) to abut against the back clamping and fixing, a water baffle (308) which is arranged on the outer side of the water receiving groove (303), and a clamping installation groove (309) which is arranged on the receiving plate (302).

8. The novel textile printing and dyeing dryer with the waste heat recovery function as claimed in claim 5, is characterized in that: the diversion water receiving unit (3) further comprises a vertical hole (310) which is formed in the right-angle triangular prism (301) and used for carrying out heat exchange with the water conveying pipe (2) after high-temperature water vapor passes through the vertical hole.

9. The novel textile printing and dyeing dryer with waste heat recovery function of claim 8 is characterized in that: the diversion water receiving unit (3) further comprises a round chamfer (311) arranged on the annular edge at the lower end of the vertical opening (310), and openings at two ends of the vertical opening (310) are arranged in a big manner from top to bottom.

10. The novel textile printing and dyeing dryer with the waste heat recovery function as claimed in claim 6, is characterized in that: the hanging rope (305) is used for lifting the right-angle triangular prism (301) at one end when the inclined plane of the right-angle triangular prism (301) is too small in inclination angle and water drops directly fall on the cloth in a winding mode on the second opening ring body (306) for multiple circles, so that the inclination degree of the inclined plane of the right-angle triangular prism (301) is increased.

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