CN211147213U - Textile drying equipment with reusable waste heat - Google Patents

Abstract

The utility model provides a fabrics drying equipment that waste heat can be recycled, includes the casing and is located the solar panel of casing one side, be equipped with the drying chamber in the casing and be located the room is collected to the heat energy of drying chamber below, is equipped with waste heat recovery mechanism in the heat energy is collected, and the bottom middle part of the room is collected to the heat energy is equipped with the draught fan, and the delivery outlet of draught fan extends to the bottom of casing and is equipped with the heat energy back flow, and the other end of heat energy back flow extends to the drying chamber. The utility model discloses a drying chamber is sent back to by the heat energy back flow to the dry steam of fabric behind the heat pipe heating in the drying chamber, effectively utilized the waste heat, the electric energy has been practiced thrift, and the heat energy back flow internal surface has painted super absorbent resin, set up removable filter equipment that absorbs water simultaneously, can absorb the steam in the hot-air when the heat energy back flow that the hot-air passes through, only flow back heat energy, prevent that the steam from flowing back and influencing the stoving of fabric, the economic benefits is improved, and easy operation is convenient, practice thrift the manpower, practice thrift manufacturing cost.

Description

Textile drying equipment with reusable waste heat

Technical Field

The utility model relates to a weaving technical field especially relates to a fabrics drying equipment that waste heat can be recycled.

Background

In the existing textile production process, the textile needs to be dried after being cleaned, and the drying mainly aims at improving the production efficiency or shaping the textile.

The existing textile drying equipment needs to exchange air in most of drying boxes in normal use at present to prevent steam or other gases from polluting textiles and affecting drying effect, and the existing air exchange equipment of the drying boxes directly discharges the gas in the drying boxes out of the drying boxes, but loses a large amount of heat while discharging the gas, so that a large amount of waste of resources is caused, and in addition, the current society and the energy-saving field are more and more valued, so that how to better save energy in an efficient working environment becomes a subject which must be researched by people.

Therefore, aiming at the defects in the prior art, the textile drying equipment with reusable waste heat is provided.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a fabrics drying equipment that waste heat can be recycled has solved the problem that proposes in the background art.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a textile drying device capable of recycling waste heat comprises a shell and a solar power generation board located on one side of the shell, wherein the shell is of a cavity structure, a drying chamber and a heat energy collecting chamber located below the drying chamber are arranged in the shell, a cloth inlet roller and a cloth outlet roller are arranged in the drying chamber, a cloth inlet is formed in one side, close to the cloth inlet roller, of the shell, a cloth outlet is formed in one side, close to the cloth outlet roller, of the shell, a motor is fixed to one side, close to the cloth outlet, of the top of the shell, a driving shaft is arranged at the front end of the motor and connected with a roller shaft of the cloth outlet roller through a transmission belt, a plurality of upper cloth guide rollers and lower cloth guide rollers which are uniformly distributed and spirally arranged are arranged between the cloth inlet roller and the cloth outlet roller, electric heating rods are arranged in the upper cloth guide rollers and the lower cloth guide rollers, a dryer is arranged at the top end of the shell, and an output port of the dryer extends into the, a top plate is arranged between the drying chamber and the heat energy collecting chamber, a through hole is arranged at the middle opening of the top end of the top plate, a first electromagnetic valve is arranged on one side of the circulation hole, a waste heat recovery mechanism is arranged in the heat energy collection chamber, the waste heat recovery mechanism comprises a plurality of heat conduction pipes which are vertically and symmetrically arranged, the inner walls of the heat conduction pipes are alternately provided with a first clapboard and a second clapboard, an induced draft fan is arranged in the middle of the bottom end of the heat energy collecting chamber, a heat energy return pipe is arranged at the position, extending from an output port of the induced draft fan to the bottom end of the shell, the inner surface of the heat energy return pipe is coated with super absorbent resin, a second electromagnetic valve is arranged at one side of the heat energy return pipe and at the bottom end of the shell, the other end of the heat energy return pipe extends to the drying chamber, and a filtering mechanism for absorbing, drying and filtering hot air flowing in the heat energy return pipe is arranged in the heat energy return pipe.

Furthermore, the heat energy return pipe is arranged to be a square pipe, an opening is formed in the outer side wall of the heat energy return pipe, and a hole cover capable of being opened and closed is arranged on the opening.

Further, filtering mechanism includes rose box and guide rail, the guide rail sets up to two and is fixed in the inner wall of square pipe both sides respectively, and the outside end of two guide rails is located open-ended both sides below edge respectively, the rose box includes filter, lower filtration, side baffle and the sponge that absorbs water, the sponge that absorbs water is filled in the cavity of the box form of compriseing last filter, lower filter, side baffle, the downside of filter is equipped with the guide slot with guide rail complex down.

Furthermore, the upper filter plate and the lower filter plate are both arranged to be high-temperature-resistant stainless steel metal filter screens, and the edges of the upper filter plate and the lower filter plate are square-frame-shaped hole plate mechanisms of metal plates.

Furthermore, a rubber sealing strip is arranged on the outer side plate face of the side baffle, a rubber guide groove correspondingly matched with the rubber sealing strip is arranged on the inner wall of the heat energy return pipe, and the rubber sealing strip is arranged in the rubber guide groove and is fixed in a sealing matching mode.

Furthermore, a strip-shaped slotting structure matched with the rubber sealing strips is arranged on the inner side cover face of the hole cover, the edge of the hole cover is hinged and fixed with the lower side hole edge of the opening, and the cover body is in sealing fit with the edge of the opening.

Furthermore, the water absorption sponge is high-temperature-resistant.

Further, the solar power generation panel is connected with the storage battery of the shell through a lead.

Furthermore, the inner wall of the drying chamber is provided with heat insulation cotton.

Furthermore, the bottom of casing is equipped with a plurality of supporting legs, the bottom of supporting leg is equipped with the slipmat.

The utility model has the advantages that: the utility model realizes the drying treatment of the textile fabrics by combining the upper cloth guide roller and the lower cloth guide roller which are provided with the electric heating rod in the drying chamber with the dryer, thereby increasing the drying effect, the first clapboard and the second clapboard are arranged in the heat conduction pipe of the heat energy collection chamber, the heat energy collection chamber is divided into four cavities which are communicated by the first clapboard and the second clapboard, the phase change increases the stroke of high-temperature hot gas, thereby increasing the heat exchange time, the heated hot gas is discharged into the drying chamber from the heat energy backflow pipe at the bottom of the draught fan, thereby effectively utilizing the waste heat, saving the electric energy, and the inner surface of the heat energy backflow pipe is coated with super absorbent resin, meanwhile, a replaceable water absorption filter device is arranged, the water vapor in the hot air can be absorbed when the hot air passes through the heat energy backflow pipe, only the heat energy flows back, thereby preventing the water vapor backflow from influencing, the operation is simple and convenient, the labor is saved, and the manufacturing cost is saved.

Drawings

Fig. 1 is a front view structure diagram of the present invention.

Fig. 2 is an enlarged schematic view of a portion a in fig. 1.

Fig. 3 is a schematic structural view of a front portion of the filter mechanism according to the present invention.

The labels in the figure are: the device comprises a shell 1, a solar power generation panel 2, a drying chamber 3, a heat energy collection chamber 4, a cloth feeding roller 5, a cloth discharging roller 6, a cloth feeding opening 7, a cloth discharging opening 8, a filtering mechanism 9, a guide rail 901, an upper filtering plate 902, a lower filtering plate 903, a side baffle 904, a water absorbing sponge 905, a guide groove 906, a rubber sealing strip 907, a rubber guide groove 908, a motor 10, a driving shaft 11, a driving belt 12, an upper cloth guiding roller 13, a lower cloth guiding roller 14, an electric heating rod 15, a dryer 16, a top plate 17, a circulation hole 18, a first electromagnetic valve 19, a heat conduction pipe 20, a first partition plate 21, a second partition plate 22, an induced draft fan 23, a heat energy return pipe 24, a second electromagnetic valve 25, a hole 26, a hole cover 27, supporting legs 28 and a.

Detailed Description

The following provides a more detailed description of the present invention with reference to the accompanying drawings and detailed description.

As shown in fig. 1-3, a textile drying apparatus capable of recycling waste heat comprises a casing 1 and a solar panel 2 located on one side of the casing 1, wherein the casing 1 is of a cavity structure, a drying chamber 3 and a heat energy collecting chamber 4 located below the drying chamber 3 are arranged in the casing 1, a cloth inlet 5 and a cloth outlet 6 are arranged in the drying chamber 3, a cloth inlet 7 is arranged on one side of the casing 1 close to the cloth inlet 5, a cloth outlet 8 is arranged on one side of the casing 1 close to the cloth outlet 6, a motor 10 is fixed on one side of the top of the casing 1 close to the cloth outlet 8, a driving shaft 11 is arranged at the front end of the motor 10, the driving shaft 11 is connected with a roll shaft of the cloth outlet 6 through a transmission belt 12, a plurality of upper cloth guide rolls 13 and lower cloth guide rolls 14 which are uniformly distributed and spirally arranged are arranged between the cloth inlet 5 and the cloth outlet 6, go up the fabric guide roll 13 and be equipped with electric heating rod 15 in the fabric guide roll 14 down, the top of casing 1 is equipped with desiccator 16, the delivery outlet of desiccator 16 extends to in the drying chamber 3, drying chamber 3 with be equipped with roof 17 between the heat energy collection room 4, the top middle part opening of roof 17 is equipped with opening 18, one side of opening 18 is equipped with first solenoid valve 19, be equipped with waste heat recovery mechanism in the heat energy collection room 4, waste heat recovery mechanism includes the heat pipe 20 of a plurality of vertical symmetry settings, the inner wall of heat pipe 20 is equipped with first baffle 21 and second baffle 22 in turn, the bottom middle part of heat energy collection room 4 is equipped with draught fan 23, the delivery outlet of draught fan 23 extends to the bottom of casing 1 is equipped with heat energy back flow 24, super absorbent resin has been scribbled to heat energy back flow 24's internal surface, a second electromagnetic valve 25 is arranged at one side of the heat energy return pipe 24 and at the bottom end of the casing 1, the other end of the heat energy return pipe 24 extends to the drying chamber 3, and a filtering mechanism 9 for absorbing, drying and filtering hot air flowing in the heat energy return pipe 24 is arranged in the heat energy return pipe 24.

The heat energy return pipe 24 is a square pipe, an opening 26 is arranged on the outer side wall of the heat energy return pipe 24, and an openable hole cover 27 is arranged on the opening 26.

The filter mechanism 9 comprises a filter box and guide rails 901, the guide rails 901 are arranged into two guide rails and are respectively fixed on the inner walls of two sides of the square pipe, the outer ends of the two guide rails 901 are respectively positioned at the corners below two sides of the opening 26, the filter box comprises an upper filter plate 902, a lower filter plate 903, a side baffle 904 and a water-absorbing sponge 905, the water-absorbing sponge 905 is filled in a box-shaped cavity formed by the upper filter plate 902, the lower filter plate 903 and the side baffle 904, and a guide groove 906 matched with the guide rails 901 is arranged on the lower side of the lower filter plate 903.

The upper filter plate 902 and the lower filter plate 903 are both made of high-temperature-resistant stainless steel metal filter screens, and the edges of the filter screens are square-frame-shaped perforated plate mechanisms made of metal plates.

The outer side plate of the side baffle 904 is provided with a rubber sealing strip 907, the inner wall of the heat energy return pipe 24 is provided with a rubber guide groove 908 correspondingly matched with the rubber sealing strip 907, and the rubber sealing strip 907 is arranged in the rubber guide groove 908 and is in sealing fit with and fixed.

The inner side cover surface of the hole cover 27 is provided with a strip-shaped slotted structure 29 matched with the rubber sealing strip 907, the edge of the hole cover 27 is hinged and fixed with the lower side hole edge of the opening 26, and the cover body is matched with the edge of the opening 26 in a sealing mode.

The water-absorbing sponge 905 is a high-temperature-resistant water-absorbing sponge.

The solar power generation panel 2 is connected with the storage battery of the shell 1 through a lead.

And the inner wall of the drying chamber 3 is provided with heat insulation cotton.

The bottom of the shell 1 is provided with a plurality of supporting legs 28, and the bottom of the supporting legs 28 is provided with a non-slip mat.

When in use, the above technical scheme of the utility model, through the mutual cooperation of the cloth feeding roller 5, the upper cloth guiding roller 13, the lower cloth guiding roller 14 and the cloth discharging roller 6, the textile fabric is fed into the heat energy collecting chamber 4 from the cloth feeding port 7 through the cloth feeding roller 5, after being heated by the electric heating rod 11 of the upper cloth guiding roller and the lower cloth guiding roller, the textile fabric is fed out from the cloth discharging roller 8, the inside of the shell 1 is in a high temperature drying state by the operation of the dryer 12, thereby realizing the drying treatment of the textile fabric, the drying effect is increased, after the drying is completed, the draught fan 23 is started to suck the heat energy in the drying chamber 3 into the heat energy collecting chamber 4, thereby the textile fabric is heated through the heat conducting pipe 20, the first partition plate 21 and the second partition plate 22 are arranged in the heat conducting pipe 20, the first partition plate 21 and the second partition plate 22 separate the heat conducting pipe 20 into four cavities which are communicated, the stroke of high temperature is changed, the heat exchange time is, the heated hot gas is discharged into the drying chamber 3 from a heat energy return pipe 24 at the bottom of the induced draft fan 23, the heat energy return pipe 24 is provided with a replaceable water absorption filtering device, and meanwhile, the inner surface of the heat energy return pipe is coated with super absorbent resin, so that the water vapor in the hot air is absorbed, the waste heat is effectively utilized, the electric energy is saved, and the purpose of protecting the environment is achieved.

Finally, it should be noted that: 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 changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. 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 textile drying equipment capable of recycling waste heat comprises a shell (1) and a solar power generation panel (2) located on one side of the shell (1), and is characterized in that the shell (1) is of a cavity structure, a drying chamber (3) and a heat energy collecting chamber (4) located below the drying chamber (3) are arranged in the shell (1), a cloth inlet roller (5) and a cloth outlet roller (6) are arranged in the drying chamber (3), a cloth inlet (7) is arranged on one side, close to the cloth inlet roller (5), of the shell (1), a cloth outlet (8) is arranged on one side, close to the cloth outlet (6), of the shell (1), a motor (10) is fixed on one side, close to the cloth outlet (8), of the top of the shell (1), a driving shaft (11) is arranged at the front end of the motor (10), and the driving shaft (11) is connected with a roller shaft of the cloth outlet roller (6) through a transmission belt (12), a plurality of upper cloth guide rollers (13) and lower cloth guide rollers (14) which are uniformly distributed and spirally arranged are arranged between the cloth inlet roller (5) and the cloth outlet roller (6), electric heating rods (15) are arranged in the upper cloth guide rollers (13) and the lower cloth guide rollers (14), a dryer (16) is arranged at the top end of the shell (1), an output port of the dryer (16) extends into the drying chamber (3), a top plate (17) is arranged between the drying chamber (3) and the heat energy collecting chamber (4), a circulation hole (18) is formed in the middle opening of the top end of the top plate (17), a first electromagnetic valve (19) is arranged on one side of the circulation hole (18), a waste heat recovery mechanism is arranged in the heat energy collecting chamber (4), the waste heat recovery mechanism comprises a plurality of heat conduction pipes (20) which are vertically and symmetrically arranged, and first partition plates (21) and second partition plates (22) are alternately arranged on the inner walls of the heat conduction pipes (20), the bottom middle part of room (4) is collected to heat energy is equipped with draught fan (23), the delivery outlet of draught fan (23) extends to the bottom of casing (1) is equipped with heat energy back flow (24), the internal surface of heat energy back flow (24) is paintd super absorbent resin, one side of heat energy back flow (24) just is located the bottom of casing (1) is equipped with second solenoid valve (25), the other end of heat energy back flow (24) extends to drying chamber (3), be equipped with in heat energy back flow (24) to the hot gas flow dry filterable filtering mechanism (9) of absorbing water of flowing in heat energy back flow (24).

2. The textile drying apparatus capable of recycling waste heat of claim 1, wherein the heat energy return pipe (24) is a square pipe, an opening (26) is formed on the outer side wall of the heat energy return pipe (24), and an openable and closable hole cover (27) is formed on the opening (26).

3. The textile drying equipment capable of recycling waste heat according to claim 1, wherein the filtering mechanism (9) comprises a filtering box and guide rails (901), the guide rails (901) are arranged into two parts and respectively fixed on the inner walls of two sides of the square pipe, the outer ends of the two guide rails (901) are respectively positioned at the lower corners of two sides of the opening (26), the filtering box comprises an upper filtering plate (902), a lower filtering plate (903), a side baffle (904) and a water absorption sponge (905), the water absorption sponge (905) is filled in a box-shaped cavity formed by the upper filtering plate (902), the lower filtering plate (903) and the side baffle (904), and a guide groove (906) matched with the guide rails (901) is arranged on the lower side of the lower filtering plate (903).

4. The textile drying apparatus capable of reusing waste heat of claim 3, wherein the upper filter plate (902) and the lower filter plate (903) are both configured as stainless steel metal filter net with high temperature resistance, and the edge is a square-frame-shaped orifice plate mechanism of metal plate.

5. The textile drying equipment capable of recycling the waste heat according to claim 3, wherein a rubber sealing strip (907) is arranged on the outer side plate surface of the side baffle (904), a rubber guide groove (908) correspondingly matched with the rubber sealing strip (907) is arranged on the inner wall of the heat energy return pipe (24), and the rubber sealing strip (907) is arranged in the rubber guide groove (908) and is in sealing fit with and fixed with the rubber guide groove.

6. The textile drying equipment capable of recycling the residual heat according to claim 2, wherein the inner cover surface of the hole cover (27) is provided with a strip-shaped slotted structure (29) matched with a rubber sealing strip (907), the edge of the hole cover (27) is hinged and fixed with the lower side hole edge of the opening hole (26), and the cover body of the hole cover is in sealing fit with the edge of the opening hole (26).

7. The textile drying apparatus capable of recycling waste heat of claim 3, wherein the water absorption sponge (905) is a high temperature-resistant water absorption sponge.

8. Waste heat reusable textile drying apparatus according to claim 1, characterized in that the solar panel (2) is connected with the accumulator of the housing (1) by wires.

9. The textile drying equipment capable of recycling waste heat according to claim 1, wherein the inner wall of the drying chamber (3) is provided with heat insulation cotton.

10. The textile drying apparatus capable of recycling waste heat according to claim 1, wherein a plurality of supporting legs (28) are provided at the bottom end of the casing (1), and a non-slip mat is provided at the bottom end of the supporting legs (28).

Images