CN214332937U

CN214332937U - Humidification room for textile workshop

Info

Publication number: CN214332937U
Application number: CN202120604877.7U
Authority: CN
Inventors: 冯金文; 冯玉林
Original assignee: Yancheng Longsheng Air Conditioning Equipment Co ltd
Current assignee: Yancheng Longsheng Air Conditioning Equipment Co ltd
Priority date: 2021-03-25
Filing date: 2021-03-25
Publication date: 2021-10-01
Anticipated expiration: 2031-03-25

Abstract

The utility model discloses a weaving workshop humidification room, including shell, return air passageway, air supply passageway, humidification mechanism, axial fan, water tank and water pump. The humidifying room of the textile workshop utilizes the axial flow fan to blow the air in the air return box to the humidifying mechanism for humidifying, and then blows the humidified air to the air supply box, so that the circulation of the air is realized, and the environment is humidified; the water supply to the humidifying mechanism is realized by utilizing the matching among the water tank, the water pump, the water outlet pipe and the water return pipe, and simultaneously, redundant water is led back to the water tank to complete water circulation and save water; the fan blades of the axial flow fan are attached to the four sides of the air return channel, so that the air output of the axial flow fan is enough.

Description

Humidification room for textile workshop

Technical Field

The utility model relates to a humidification mechanism, especially a weaving workshop humidification room.

Background

The humidity condition is closely related to the textile technology, under different humidity conditions, the physical characteristics and the mechanical characteristics of the textile can be changed in different degrees, and the humidity of the textile semi-finished product is important before subsequent processing, so that the production condition of each subsequent process can be influenced, and the yield and the quality of the finished product can be directly influenced.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the utility model provides a weaving workshop humidification room can satisfy the weaving workshop demand to ambient humidity.

The technical scheme is as follows: the utility model provides a humidification room for textile workshop, which comprises a shell, a return air channel, an air supply channel, a humidification mechanism, an axial flow fan, a water tank and a water pump;

the air return channel and the air supply channel are installed in the shell in a butt joint mode through the humidifying channel; the humidifying mechanism is arranged in the humidifying channel and is used for spraying and humidifying; the left side and the right side in the shell are respectively separated by a return air box separation plate and an air supply box separation plate to form a return air box and an air supply box; the air return channel is communicated with the air return box through a ventilation pipe, and the air supply channel is communicated with the air supply box through a ventilation pipe; the water outlet and the water inlet of the water tank are respectively connected to the humidifying mechanism through a water outlet pipe and a water return pipe, and the water pump is connected in series to the water outlet pipe; the axial flow fan is arranged in the air return channel, and four sides in the middle of the air return channel are contracted inwards to be close to the fan blades of the axial flow fan; two door openings are arranged on the front side surface of the shell, and a sliding door is arranged on each door opening.

Furthermore, a plurality of heating pipes for heating the passing air flow are arranged on the air supply channel.

Furthermore, the division plate of the air return box consists of a division plate frame and a plurality of filter plates; a plurality of rectangular windows are arranged on the clapboard frame; a buckle is arranged at the four side edges of each rectangular window; each filter all installs on each rectangle window through the buckle.

Furthermore, the division plate of the air supply box consists of a division plate frame and a plurality of pore plates; each pore plate is provided with a plurality of exhaust holes; a plurality of rectangular windows are arranged on the clapboard frame; a buckle is arranged at the four side edges of each rectangular window; each orifice plate is arranged on each rectangular window of the clapboard frame through a buckle; each pore plate is provided with a handle; a water collecting hopper is fixed on the left side surface and the right side surface of the partition plate frame on the lower side and is used for collecting water drops falling off from each pore plate; the water outlets of the two water collecting hoppers are respectively connected to the water return pipe through two branch water pipes.

Furthermore, a water filtering plate is arranged in the water tank and used for filtering water flowing back through the water return pipe; a water inlet pipe is communicated with the water tank.

Further, the humidifying mechanism comprises a water supply square pipe, a water collecting disc, a sleeve, four sprinkling pipes and a water supply round pipe; the water supply square pipe is longitudinally fixed on the inner bottom surface of the humidifying channel, and the water outlet pipe is butted on the water supply square pipe; the lower end of the circular water supply pipe is communicated and fixed in the middle of the upper side surface of the square water supply pipe; the upper end of the circular water supply pipe is bent rightwards to form a bending section; one end of the sleeve is rotatably and hermetically arranged at the end part of the bending section, and the other end of the sleeve is closed; the water collecting tray is fixed on the inner bottom surface of the humidifying channel and extends to the lower part of the sleeve; the end part of the water return pipe is communicated and fixed on the water collecting tray; a support is fixed in the water collecting tray; a circular truncated cone is coaxially fixed on the closed end of the sleeve, and is rotatably arranged on the upper end of the support; the four sprinkling pipes are communicated and arranged on the circumferential side surface of the sleeve, and the four sprinkling pipes are distributed in a cross shape; all install a plurality of atomizing nozzles on the pipe wall of every sprinkler pipe, and atomizing nozzle exhaust water forms thrust and drives the sleeve pipe rotation.

Compared with the prior art, the utility model, its beneficial effect is: the air in the air return box is blown to the humidifying mechanism by the axial flow fan for humidification, and then the humidified air is blown to the air supply box, so that the circulation of the air is realized, and the environment is humidified; the water supply to the humidifying mechanism is realized by utilizing the matching among the water tank, the water pump, the water outlet pipe and the water return pipe, and simultaneously, redundant water is led back to the water tank to complete water circulation and save water; the fan blades of the axial flow fan are attached to the four sides of the air return channel, so that the air output of the axial flow fan is enough.

Drawings

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

fig. 2 is a sectional view of the humidifying passage of the present invention;

FIG. 3 is a view showing the structure of the partition plate of the blowing box of the present invention;

fig. 4 is a structural view of the division plate of the return air box of the present invention.

Detailed Description

The technical solution of the present invention will be described in detail with reference to the accompanying drawings, but the scope of the present invention is not limited to the embodiments.

Example 1:

as shown in fig. 1-4, the utility model provides a pair of weaving workshop humidification room includes: the device comprises a shell 1, an air return channel 6, an air supply channel 10, a humidifying mechanism, an axial flow fan 5, a water tank 13 and a water pump 14;

the air return channel 6 and the air supply channel 10 are installed in the shell 1 in a butt joint mode through the humidifying channel 31; the humidifying mechanism is arranged in the humidifying channel 31 and is used for spraying and humidifying; the left side and the right side in the shell 1 are respectively divided into a return air box 2 and an air supply box 3 by a return air box division plate and an air supply box division plate; the return air channel 6 is communicated with the return air box 2 through a vent pipe 4, and the air supply channel 10 is communicated with the air supply box 3 through the vent pipe 4; the water outlet and the water inlet of the water tank 13 are respectively connected to the humidifying mechanism through a water outlet pipe 8 and a water return pipe 7, and the water pump 14 is connected in series to the water outlet pipe 8; the axial flow fan 5 is arranged in the air return channel 6, and four sides in the middle of the air return channel 6 are inwards contracted to be close to fan blades of the axial flow fan 5; two door openings are arranged on the front side surface of the shell 1, and a sliding door 9 is arranged on each door opening.

The air in the air return box 2 is blown to the humidifying mechanism by the axial flow fan 5 for humidification, and then the humidified air is blown to the air supply box 3, so that the circulation of the air is realized, and the environment is humidified; the water supply of the humidifying mechanism is realized by the cooperation of the water tank 13, the water pump 14, the water outlet pipe 8 and the water return pipe 7, and simultaneously, redundant water is led back to the water tank 13 to complete water circulation; the four sides of the air return channel 6 are close to the fan blades of the axial flow fan 5, so that the air outlet quantity of the axial flow fan 5 is enough.

Further, a plurality of heating pipes 32 for heating the passing air flow are installed on the air supply passage 10.

The humidified air is heated to a desired temperature by means of the heating pipe 32.

Furthermore, the division plate of the return air box consists of a division plate frame 11 and a plurality of filter plates 16; a plurality of rectangular windows are arranged on the clapboard frame 11; a buckle 17 is arranged at the four side edges of each rectangular window; each filter plate 16 is mounted on each rectangular window by means of a snap 17.

The gas entering the return air box 2 is filtered by the filter plate 16; the filter plate 16 is easily attached, detached or replaced by means of the snap 17.

Furthermore, the division plate of the air supply box consists of a division plate frame 11 and a plurality of pore plates 18; each orifice plate 18 is provided with a plurality of exhaust holes; a plurality of rectangular windows are arranged on the clapboard frame 11; a buckle 17 is arranged at the four side edges of each rectangular window; each orifice plate 18 is arranged on each rectangular window of the clapboard frame 11 through a buckle 17; each pore plate 18 is provided with a handle 19; a water collecting hopper 20 is fixed on the left and right side surfaces of the clapboard framework 11 at the lower side and is used for collecting water drops sliding from each pore plate 18; the water outlets of the two water collecting hoppers 20 are respectively connected to the water return pipe 7 through two branch water pipes 15.

Discharging the humidified air by using the orifice plate 18, and draining water droplets by using the orifice plate 18; the orifice plate 18 is convenient to assemble, disassemble and replace by utilizing the buckle 17 and the lifting handle 19; the water flowing down the orifice 18 is collected by the water collection funnel 20 and the branch water pipe 15, and is discharged to the return pipe 7.

Further, a water filtering plate 30 is provided in the water tank 13 for filtering water flowing back through the water returning pipe 7; the water tank 13 is communicated with a water inlet pipe 21. The atomizing nozzle 29 is prevented from being clogged by dirt by water flowing back from the filter plate of the water filter plate 30.

Further, the humidifying mechanism comprises a water supply square pipe 27, a water collecting disc 25, a sleeve 28, four sprinkling pipes 23 and a water supply round pipe 26; the water supply square pipe 27 is longitudinally fixed on the inner bottom surface of the humidifying channel 31, and the water outlet pipe 8 is butted on the water supply square pipe 27; the lower end of the circular water supply pipe 26 is communicated and fixed in the middle of the upper side surface of the square water supply pipe 27; the upper end of the circular water supply pipe 26 is bent rightwards to form a bending section; one end of the sleeve 28 is rotatably and hermetically arranged at the end part of the bending section, and the other end of the sleeve 28 is closed; the water collection tray 25 is fixed on the inner bottom surface of the humidification passage 31, and the water collection tray 25 extends to below the sleeve 28; the end part of the water return pipe 7 is communicated and fixed on the water collecting tray 25; a support 22 is fixed in the water collection tray 25; a circular truncated cone 24 is coaxially fixed on the closed end of the sleeve 28, and the circular truncated cone 24 is rotatably mounted on the upper end of the support 22; the four sprinkling pipes 23 are communicated and arranged on the circumferential side surface of the sleeve 28, and the four sprinkling pipes 23 are distributed in a cross shape; a plurality of atomizing nozzles 29 are installed on the wall of each sprinkler pipe 23, and the water discharged from the atomizing nozzles 29 forms a thrust to drive the sleeve 28 to rotate.

By utilizing the matching among the sleeve 28, the four sprinkling pipes 23, the circular water supply pipe 26 and the support 22, the thrust generated when water flows out from each atomizing nozzle 29 is ensured, so that the sleeve 28 is driven to rotate, water flow is sprayed in a rotating manner to increase the humidifying area, and the humidifying effect is ensured; the rotational stability of the sleeve 28 is ensured by the abutment 22; the water collecting tray 25 is used for collecting the falling water and conveying the water back to the water tank 13, so that water is saved.

The utility model provides a weaving workshop humidification room is when installing and using, at first for water pump 14, axial fan 5 and heating pipe 32 circular telegram, outside air filters through polylith filter 16 and gets into return air case 2 in, axial fan 5 carries the air in return air case 2 to humidification passageway 31 in, four sprinkler pipes 23 rotatory spraying humidification air this moment, and the air after the humidification passes through polylith orifice plate 18 and flows out from air supply case 3 and accomplishes the humidification.

As mentioned above, although the present invention has been shown and described with reference to certain preferred embodiments, it should not be construed as limiting the invention itself. Various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. The utility model provides a weaving workshop humidification room which characterized in that: comprises a shell (1), an air return channel (6), an air supply channel (10), a humidifying mechanism, an axial flow fan (5), a water tank (13) and a water pump (14);

the air return channel (6) and the air supply channel (10) are installed in the shell (1) in a butt joint mode through the humidifying channel (31); the humidifying mechanism is arranged in the humidifying channel (31) and is used for spraying and humidifying; the left side and the right side in the shell (1) are respectively divided into a return air box (2) and an air supply box (3) through a return air box division plate and an air supply box division plate; the air return channel (6) is communicated with the air return box (2) through a ventilation pipe (4), and the air supply channel (10) is communicated with the air supply box (3) through the ventilation pipe (4); a water outlet and a water inlet of the water tank (13) are respectively connected to the humidifying mechanism through a water outlet pipe (8) and a water return pipe (7), and a water pump (14) is connected to the water outlet pipe (8) in series; the axial flow fan (5) is arranged in the air return channel (6), and the four sides in the middle of the air return channel (6) are contracted inwards to be close to the fan blades of the axial flow fan (5); two door openings are arranged on the front side surface of the shell (1), and a sliding door (9) is arranged on each door opening.

2. The textile workshop humidification room of claim 1, wherein: a plurality of heating pipes (32) for heating the passing air flow are mounted on the air supply channel (10).

3. The textile workshop humidification room of claim 1, wherein: the division plate of the air return box consists of a division plate frame (11) and a plurality of filter plates (16); a plurality of rectangular windows are arranged on the clapboard frame (11); a buckle (17) is arranged at the four side edges of each rectangular window; each filter plate (16) is arranged on each rectangular window through a buckle (17).

4. The textile workshop humidification room of claim 1, wherein: the division plate of the air supply box consists of a division plate frame (11) and a plurality of pore plates (18); each pore plate (18) is provided with a plurality of exhaust holes; a plurality of rectangular windows are arranged on the clapboard frame (11); a buckle (17) is arranged at the four side edges of each rectangular window; each pore plate (18) is arranged on each rectangular window of the clapboard frame (11) through a buckle (17); each pore plate (18) is provided with a handle (19); a water collecting hopper (20) is fixed on the left side surface and the right side surface of the baffle frame (11) at the lower side and is used for collecting water drops sliding down on each pore plate (18); the water outlets of the two water collecting hoppers (20) are respectively connected to the water return pipe (7) through two branch water pipes (15).

5. The textile workshop humidification room of claim 1, wherein: a water filtering plate (30) is arranged in the water tank (13) and is used for filtering water flowing back through the water return pipe (7); a water inlet pipe (21) is communicated with the water tank (13).

6. The textile workshop humidification room of claim 1, wherein: the humidifying mechanism comprises a water supply square pipe (27), a water collecting disc (25), a sleeve pipe (28), four sprinkling pipes (23) and a water supply round pipe (26); the water supply square pipe (27) is longitudinally fixed on the inner bottom surface of the humidifying channel (31), and the water outlet pipe (8) is butted on the water supply square pipe (27); the lower end of the circular water supply pipe (26) is communicated and fixed in the middle of the upper side surface of the square water supply pipe (27); the upper end of the circular water supply pipe (26) is bent rightwards to form a bending section; one end of the sleeve (28) is rotatably and hermetically arranged at the end part of the bending section, and the other end of the sleeve (28) is closed; the water collecting tray (25) is fixed on the inner bottom surface of the humidifying channel (31), and the water collecting tray (25) extends to the lower part of the sleeve (28); the end part of the water return pipe (7) is communicated and fixed on the water collecting tray (25); a support (22) is fixed in the water collecting tray (25); a circular truncated cone (24) is coaxially fixed on the closed end of the sleeve (28), and the circular truncated cone (24) is rotatably arranged on the upper end of the support (22); the four sprinkling pipes (23) are communicated and installed on the circumferential side surface of the sleeve (28), and the four sprinkling pipes (23) are distributed in a cross shape; the wall of each sprinkler pipe (23) is provided with a plurality of atomizing nozzles (29), and water discharged by the atomizing nozzles (29) forms thrust to drive the sleeve (28) to rotate.