CN114432866B - Knitted fabric shaping waste gas spraying equipment with heat energy recovery function - Google Patents

Abstract

The invention provides a knitted fabric shaping waste gas spraying device with a heat energy recovery function, and relates to the field of fabric shaping devices. This knitted fabric design waste gas sprays equipment with heat recovery function establishes vertical board and drive tube, thereby hot waste gas sends into vertical board and scalds the ironing to the surface fabric, plays the effect of stereotyping. Through the cooperation of pivot, cotton stick, friction disc and alkali lye, carry out a lot of to waste gas and handle, dispose the impurity in the waste gas. Through sending into vertical board with waste gas, realize waste utilization's purpose, reach the effect of recycling heat recovery, avoid the waste of the energy.

Description

Knitted fabric shaping waste gas spraying equipment with heat energy recovery function

Technical Field

The invention relates to the technical field of fabric shaping equipment, in particular to a knitted fabric shaping waste gas spraying device with a heat energy recovery function.

Background

The fabric needs a heat setting process when being processed, so that the shape of the fabric is stable and the strength of the fabric is enhanced.

The drying oven of the fabric setting machine is a device for baking the fabric at high temperature, a lot of waste gas can be generated in production, the waste gas contains substances such as dust, cloth scraps, oil smoke and the like harmful to the atmospheric environment, oil mist is volatilized in the atmosphere and is not easy to dissolve in water, and the oil mist cannot fall to the ground along with rainwater and float in the air to form a long-term pollution source.

Traditional forming machine oven simple structure, the effect is not good on handling waste gas, residual impurity. The gradual accumulation of these impurities after discharge still causes environmental pollution. Secondly, a large amount of heat can be generated inside the sizing process to blow the surface of the cloth, but the heat is used only singly, so that a large amount of heat is dissipated in the air, and serious waste is caused. Thereby resulting in high energy consumption.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a knitted fabric shaping waste gas spraying device with a heat energy recovery function, and solves the problems in the background technology.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a knitting surface fabric design waste gas sprays equipment with heat recovery function, includes circular case, circular incasement is equipped with vertical board, the cavity of vertical inboard, and vertical board left and right sides symmetry is equipped with the design subassembly, and the surface fabric gets into from circular case left end and walks around vertical board, stretches out from circular case right-hand member again, and the design subassembly is used for attaching the surface fabric on vertical board surface, circular case back is equipped with handles the case, and the design subassembly is including the drive tube, the drive tube lower extreme extends to outside the circular case to with handle the case intercommunication, drive tube upper end and vertical board intercommunication, circular bottom of the case portion intercommunication has the pipe that assembles, assembles the pipe and stretches into vertical inboard.

Preferably, the design subassembly is still including shelving groove, vertical bar, sliding sleeve and cylinder, shelve groove and circular incasement wall connection, shelve and be connected with the vertical bar on the groove, the vertical bar is parallel with vertical board, and the vertical bar has seted up logical groove along length direction, the sliding sleeve cover is on one's body at the drive tube pole, logical groove is passed to cylinder one end to with the sliding sleeve pin joint, cylinder one side is pressed the surface fabric at vertical board surface.

Preferably, the placing groove is close to the vertical plate, when the fabric passes through the placing groove and the vertical plate, the fabric is in contact with the vertical plate, the piston block is in sliding fit in the driving pipe, the center of the piston block is communicated, the semicircular ball is pivoted in the piston block, the top inside the driving pipe is connected with the firing pin, and the firing pin is located above the piston block.

Preferably, the semicircular ball is used as a valve to close the center of the piston block, and when waste gas enters the driving pipe to lift the piston block to the highest position, the semicircular ball is contacted with the firing pin, so that the semicircular ball is inclined to allow the waste gas to pass through.

Preferably, handle the incasement and be equipped with cavity one, cavity two and cavity three, handle roof portion and be connected with the intake pipe, the intake pipe lower extreme stretches into in the cavity one, the intercommunication has S type pipeline between cavity two and the cavity one, and cavity one is used for tentatively clearing up, and the cavity two-purpose is used for carrying out the secondary clearance, be equipped with the heating rod in the cavity three, the heating rod is used for heating waste gas, and the driving tube lower extreme communicates with cavity three.

Preferably, alkali liquor is injected into the air inlet pipe, the content of the alkali liquor is two thirds of the volume of the first cavity, the lower end of the air inlet pipe is soaked in the alkali liquor, the upper end of the S-shaped pipeline is positioned above the alkali liquor, friction plates are symmetrically pivoted on the inner wall of the first cavity, a torque motor is fixedly installed on the outer side of the treatment box, and a transmission shaft of the torque motor is welded with the friction plates.

Preferably, the filter screen is welded in the second cavity, the filter screen divides the second cavity into an upper space and a lower space, the rotating shaft is pivoted in the lower space, the rotating shaft body is provided with a plurality of cotton sticks, the lower end of the S-shaped pipeline penetrates through the filter screen and extends to the lower part of the rotating shaft, one side of the inner wall of the lower space is connected with the scraping groove, and the cotton sticks can contact with the scraping groove when the rotating shaft rotates.

(III) advantageous effects

The invention provides a knitted fabric shaping waste gas spraying device with a heat energy recovery function. The method has the following beneficial effects:

1. this knitted fabric design waste gas sprays equipment with heat recovery function establishes vertical board and drive tube, thereby hot waste gas sends into vertical board and scalds the ironing to the surface fabric, plays the effect of stereotyping. Through the cooperation of pivot, cotton stick, friction disc and alkali lye, carry out a lot of to waste gas and handle, dispose the impurity in the waste gas. Through sending into vertical board with waste gas, realize waste utilization's purpose, reach the effect of recycling heat recovery, avoid the waste of the energy.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a schematic view of another angle of the structure of the present invention;

FIG. 3 is a cross-sectional view of the present invention;

FIG. 4 is a view showing the internal structure of the present invention;

FIG. 5 is a schematic view of a modular assembly of the present invention;

FIG. 6 is a schematic view of the inner structure of the driving tube according to the present invention;

FIG. 7 is a schematic view of a piston block of the present invention;

FIG. 8 is a sectional view showing the structure of a treatment tank of the present invention;

FIG. 9 is a view showing the internal structure of the treatment tank of the present invention.

In the figure: 1 round box, 2 vertical plates, 21 converging pipes, 3 shaping components, 31 placement grooves, 32 vertical bars, 321 through grooves, 33 driving pipes, 34 sliding sleeves, 35 rollers, 4 firing pins, 5 piston blocks, 51 semi-spherical balls, 6 treatment boxes, 61 cavity I, 62 cavity II, 63 cavity III, 64 air inlet pipes, 65 filter screens, 66S type pipelines, 67 heating rods, 7 friction plates, 71 torque motors, 8 rotating shafts, 81 cotton rods, 9 scraping grooves and 10 alkali liquor.

Detailed Description

The embodiment of the invention provides a knitted fabric shaping waste gas spraying device with a heat energy recovery function, which comprises a circular box 1, wherein a vertical plate 2 is welded in the circular box 1, as shown in figures 1-9. The vertical board 2 is inside cavity, and the symmetrical fixed mounting in vertical board 2 left and right sides has design subassembly 3. The round box 1 is pivoted with a plurality of traction rollers. As shown in the attached figure 4, the fabric enters from the left end of the round box 1, passes through the shaping assembly 3 along the cloth moving direction, is attached to the surface of the vertical plate 2 to move, and finally moves out from the right end of the round box 1.

The shaping component 3 is used for attaching the fabric to the surface of the vertical plate 2, and the back of the round box 1 is fixedly provided with a processing box 6. The shaping assembly 3 comprises a driving pipe 33, the lower end of the driving pipe 33 extends out of the round box 1 and is communicated with the treatment box 6 in a welding mode, and the upper end of the driving pipe 33 is communicated with the vertical plate 2 in a welding mode. The bottom of the round box 1 is fixedly provided with a gathering pipe 21, and the gathering pipe 21 extends into the vertical plate 2.

During operation, hot waste gas generated during fabric processing is sent into the processing box 6, and the waste gas enters the vertical plate 2 through the driving pipe 33 to heat the vertical plate 2. The fabric is attached to the surface of the vertical plate 2, so that the fabric is heated and shaped.

The sizing assembly 3 further comprises a resting groove 31, a vertical bar 32, a sliding sleeve 34 and a roller 35. The resting groove 31 is welded with the inner wall of the round box 1. Vertical bars 32 are welded on the resting grooves 31, and the vertical bars 32 are parallel to the vertical plate 2. The vertical bar 32 is provided with a through slot 321 along the length direction, the sliding sleeve 34 is sleeved on the rod body of the driving pipe 33, and one end of the roller 35 passes through the through slot 321 and is pivoted with the sliding sleeve 34. The drum 35 side presses the fabric against the surface of the vertical plate 2.

The placing groove 31 is close to the vertical plate 2, and when the fabric passes between the placing groove 31 and the vertical plate 2, the fabric is in contact with the vertical plate 2. When the vertical plate 2 works, the roller 35 repeatedly rolls up and down, so that the fabric is tightly attached to the surface of the vertical plate 2.

As shown in fig. 6 and 7, the piston block 5 is slidably fitted in the driving pipe 33, and the center of the piston block 5 passes through. A semi-spherical ball 51 is pivoted in the piston block 5, a firing pin 4 is welded at the top inside the driving pipe 33, and the firing pin 4 is positioned above the piston block 5.

In the initial state, the piston block 5 is located at the lowest position in the driving pipe 33, the semi-spherical ball 51 is horizontally placed, and the semi-spherical ball 51 serves as a valve to close the center of the piston block 5. During operation, waste gas enters the driving pipe 33, and the piston block 5 is pushed to be lifted to the highest position by increasing the internal pressure of the driving pipe 33. When the semi-spherical ball 51 moves to the highest position, the semi-spherical ball 51 is contacted with the firing pin 4, so that the semi-spherical ball 51 inclines, a gap is generated between the inclined semi-spherical ball 51 and the piston block 5, and the exhaust gas flows out from the gap to be released and enters the vertical plate 2.

When the exhaust gas is released, the piston block 5 slides down due to the loss of the lifting thrust, and the semicircular block 51 recovers to the level due to the self weight in the sliding down process. When the pressure in the driving pipe 33 is increased again, the piston block 5 is pushed to rise again.

Magnets are embedded in the semi-spherical balls 51, and the sliding sleeve 34 is made of iron. The sliding sleeve 34 is moved along with the semi-spherical ball 51 under the influence of the magnetic force, thereby moving the roller 35 up and down.

A first cavity 61, a second cavity 62 and a third cavity 63 are formed in the treatment box 6. The top of the treatment box 6 is welded with an air inlet pipe 64, and the lower end of the air inlet pipe 64 extends into the first cavity 61. An S-shaped pipeline 66 is welded and communicated between the second cavity 62 and the first cavity 61. The first cavity 61 is used for primary cleaning, and the second cavity 62 is used for secondary cleaning. And a heating rod 67 is fixedly arranged in the cavity III 63, the heating rod 67 is used for preserving heat of the waste gas, and the lower end of the driving pipe 33 is communicated with the cavity III 63 in a welding manner.

The alkali liquor 10 is injected into the air inlet pipe 64, the content of the alkali liquor 10 is two thirds of the volume of the first 61 of the cavity, and the lower end of the air inlet pipe 64 is soaked in the alkali liquor 10. The oil mist in the exhaust gas is absorbed by the alkali liquor 10. The upper end of the S-shaped pipeline 66 is positioned above the alkali liquor 10, the inner wall of the first cavity 61 is symmetrically pivoted with friction plates 7, the outer side of the treatment box 6 is fixedly provided with a torque motor 71, and a transmission shaft of the torque motor 71 is welded with the friction plates 7. The torque motor 71 drives the friction plate 7 to rotate, the friction plate 7 rubs with an inner wall of the cavity to generate static electricity, and dust particles in the waste gas are adsorbed through the static electricity.

Since the electrostatic adsorption of dust particles in gas is a conventional technical means, the specific principle and structure will not be described in detail.

A filter screen 65 is welded in the second cavity 62, and the second cavity 62 is divided into an upper space and a lower space by the filter screen 65. The lower space is pivoted with a rotating shaft 8, and a plurality of cotton swabs 81 are fixedly arranged on the shaft body of the rotating shaft 8. The lower end of the S-shaped pipeline 66 penetrates through the filter screen 65 and extends to the lower part of the rotating shaft 8, a scraping groove 9 is fixedly arranged on one side of the inner wall of the lower space, and two ends of the scraping groove 9 extend out of the treatment box 6. The cotton swab 81 can contact the scraping groove 9 when the rotating shaft 8 rotates.

During operation, the cloth scraps remained in the waste gas after the waste gas passes through the liquid reducing device 10 are wetted, and the wetted cloth scraps adhere to the cotton swab 81 when the gas passes through the rotating shaft 8. Referring to fig. 9, the rotating shaft 8 rotates counterclockwise to make the cotton swab 81 contact the scraping groove 9, and the scraping groove 9 scrapes off the cloth scraps on the surface of the cotton swab 81.

The above-mentioned rotary shaft 8 is rotated by a motor, and will not be described in detail since it is a conventional technical means. The concrete structure of cotton swab 81 is for compriseing rubber strip and cotton, and the rubber strip has toughness and can be crooked, and rubber strip one end is fixed with pivot 8 and bonds. One side of the rubber strip towards the anticlockwise rotation direction is fixedly bonded with the cotton cloth, and the other side of the rubber strip is free of the cotton cloth. Therefore, when the rubber strip rotates along with the rotating shaft 8, the cotton cloth can be in contact with the scraping groove 9.

In conclusion, the knitting fabric shaping waste gas spraying equipment with the heat energy recovery function is provided with the vertical plate 2 and the driving pipe 33, and hot waste gas is sent into the vertical plate 2 to iron and iron the knitting fabric, so that the shaping effect is achieved. Through the cooperation of the rotating shaft 8, the cotton swab 81, the friction plate 7 and the alkali liquor 10, the waste gas is treated for many times, and impurities in the waste gas are removed. Through sending into vertical board 2 with waste gas, realize waste utilization's purpose, reach the effect of recycling heat recovery, avoid the waste of the energy.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (4)

1. The utility model provides a knitting surface fabric design waste gas sprays equipment with heat recovery function which characterized in that: the fabric treatment device comprises a round box (1), wherein a vertical plate (2) is arranged in the round box (1), the vertical plate (2) is hollow, sizing assemblies (3) are symmetrically arranged on the left side and the right side of the vertical plate (2), fabric enters from the left end of the round box (1) and bypasses the vertical plate (2), and then extends out from the right end of the round box (1), the sizing assemblies (3) are used for attaching the fabric to the surface of the vertical plate (2), a treatment box (6) is arranged on the back of the round box (1), each sizing assembly (3) comprises a driving pipe (33), the lower end of each driving pipe (33) extends out of the round box (1) and is communicated with the treatment box (6), the upper end of each driving pipe (33) is communicated with the vertical plate (2), a gathering pipe (21) is communicated with the bottom of the round box (1), and the gathering pipe (21) extends into the vertical plate (2);

the shaping assembly (3) further comprises a placing groove (31), a vertical bar (32), a sliding sleeve (34) and a roller (35), the placing groove (31) is connected with the inner wall of the round box (1), the vertical bar (32) is connected to the placing groove (31), the vertical bar (32) is parallel to the vertical plate (2), a through groove (321) is formed in the vertical bar (32) along the length direction, the sliding sleeve (34) is sleeved on the rod body of the driving pipe (33), one end of the roller (35) penetrates through the through groove (321) and is pivoted with the sliding sleeve (34), and the fabric is pressed on the surface of the vertical plate (2) by one side of the roller (35);

the placing groove (31) is close to the vertical plate (2), when the fabric passes between the placing groove (31) and the vertical plate (2), the fabric is in contact with the vertical plate (2), the driving pipe (33) is in sliding fit with the piston block (5), the center of the piston block (5) is communicated, a semi-spherical ball (51) is pivoted in the piston block (5), the top inside the driving pipe (33) is connected with a firing pin (4), and the firing pin (4) is positioned above the piston block (5);

the semi-spherical ball (51) is used as a valve to close the center of the piston block (5), and when exhaust enters the driving pipe (33) to lift the piston block (5) to the highest position, the semi-spherical ball (51) is in contact with the firing pin (4), so that the semi-spherical ball (51) is inclined to allow the exhaust to pass through.

2. The knitted fabric shaping waste gas spraying equipment with the heat energy recovery function as claimed in claim 1, wherein the waste gas spraying equipment comprises: handle and be equipped with cavity (61), cavity two (62) and cavity three (63) in case (6), handle case (6) top and be connected with intake pipe (64), intake pipe (64) lower extreme stretches into in cavity one (61), the intercommunication has S type pipeline (66) between cavity two (62) and cavity one (61), and cavity one (61) are used for tentatively clearing up, and cavity two (62) are used for carrying out the secondary clearance, be equipped with heating rod (67) in cavity three (63), heating rod (67) are used for heating waste gas, drive tube (33) lower extreme and cavity three (63) intercommunication.

3. The knitted fabric shaping waste gas spraying equipment with the heat energy recovery function as claimed in claim 2, characterized in that: the utility model discloses a washing machine, including intake pipe (64), intake pipe (64) are gone into to inject alkali lye (10) into, and alkali lye (10) content is cavity one (61) volumetric two-thirds, intake pipe (64) lower extreme soaks in alkali lye (10), and S type pipeline (66) upper end is located alkali lye (10) top, cavity one (61) inner wall symmetry pin joint has friction disc (7), handles case (6) outside fixed mounting have torque motor (71), and torque motor (71) transmission shaft and friction disc (7) weld.

4. The knitted fabric shaping waste gas spraying equipment with the heat energy recovery function as claimed in claim 3, wherein the waste gas spraying equipment comprises: welded filter screen (65) in two (62) cavities, two spaces about filter screen (65) fall into two (62) cavities, the pivot has pivot (8) down in the space, and pivot (8) pole body is equipped with a plurality of cotton sticks (81), and S type pipeline (66) lower extreme passes filter screen (65) and extends to pivot (8) below, and lower space inner wall one side is connected with scrapes groove (9), and cotton stick (81) can contact with scraping groove (9) when pivot (8) rotate.

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