阅读说明：本技术 一种对纺织面料熨烫的定型机脱硝机构 (Forming machine denitration mechanism that irones textile fabric ) 是由 郭少阳 杨超 周兰芬 于 2021-11-05 设计创作，主要内容包括：本发明提供一种对纺织面料熨烫的定型机脱硝机构,涉及印染领域,该种对纺织面料熨烫的定型机脱硝机构,包括工作台,所述工作台上方设有水箱,水箱底部设有电推杆一,电推杆一下端连接有内部中空的熨平环,熨平环用于和面料接触,所述工作台上设有废气管,废气管贯穿熨平环。该对纺织面料熨烫的定型机脱硝机构,将废气管贯穿熨平环,将面料烫熨和废气脱硝结合在一起。通过将水箱中加热的水送入的烫平环内,对面料烫熨定型同时对废气管内部加热,从而加快脱硝反应。通过导热块与废气管配合,协助熨平环对面料进行烫熨,代替人工手动加工,加快了工作效率,降低工人劳动强度。起到节约能源保护环境的作用,进一步提高能源利用率。(The invention provides a denitration mechanism of a setting machine for ironing textile fabrics, which relates to the field of printing and dyeing and comprises a workbench, wherein a water tank is arranged above the workbench, the bottom of the water tank is provided with a first electric push rod, the lower end of the first electric push rod is connected with a hollow ironing ring, the ironing ring is used for contacting with fabrics, a waste gas pipe is arranged on the workbench, and the waste gas pipe penetrates through the ironing ring. This forming machine denitration mechanism to textile fabric irones runs through the ring that irones with the waste gas pipe, scalds the surface fabric to iron and combines together with the waste gas denitration. In the ironing ring that sends into through the water with the heating in the water tank, scald the design and heat the inside of exhaust pipe simultaneously to the surface fabric to accelerate denitration reaction. Through heat conduction piece and exhaust pipe cooperation, help the ring of ironing to scald the surface fabric and iron, replace artifical manual processing for work efficiency reduces workman intensity of labour. The energy-saving and environment-friendly effects are achieved, and the energy utilization rate is further improved.)

1. The utility model provides a forming machine denitration mechanism that irones textile fabric, includes workstation (1), its characterized in that: the ironing machine is characterized in that a water tank (2) is arranged above the workbench (1), a first electric push rod (25) is arranged at the bottom of the water tank (2), the lower end of the first electric push rod (25) is connected with an ironing ring (4) with a hollow inner part, the ironing ring (4) is used for being contacted with fabric, a waste gas pipe (10) is arranged on the workbench (1), the waste gas pipe (10) penetrates through the ironing ring (4), the air inlet end of the waste gas pipe (10) is connected with a waste conveying module (12), the side edge of the workbench (1) is connected with an ammonia conveying module (13), the ammonia conveying module (13) is communicated with a discharge pipe (14), and the discharge pipe (14) is communicated with the central section of the waste gas pipe (10);

the water tank comprises a water tank body (2), and is characterized in that a plurality of water pipes (27) are arranged at the bottom of the water tank body (2) at equal angles around an axis, the lower ends of the water pipes (27) are communicated with an ironing ring (4), the ironing ring (4) is connected with a plurality of return pipes (26), the upper ends of the return pipes (26) are communicated with the water tank body (2), a heating ring (6) for heating water is arranged in the water tank body (2), and an electronic valve (9) in butt joint with the water pipes (27) is arranged at the bottom of the inner wall of the water tank body (2).

2. The denitration mechanism of the setting machine for ironing textile fabrics according to claim 1, is characterized in that: be equipped with diaphragm (21) in water tank (2), diaphragm (21) falls into two upper and lower cavities with water tank (2) inside, and diaphragm (21) central authorities are sunken to be equipped with connecting pipe (23), makes two upper and lower cavities communicate through connecting pipe (23), be equipped with valve (24) in connecting pipe (24), diaphragm (21) top is equipped with sleeve (22), and water tank (2) top is equipped with cylinder (3), cylinder (3) lower extreme stretches into in cylinder (3) to be connected with gasbag (31), and water tank (2) top is connected with air pump (32), air pump (32) and gasbag (31) intercommunication.

3. The denitration mechanism of the setting machine for ironing textile fabrics, according to claim 2, is characterized in that: diaphragm (21) top is equipped with picture peg (7), picture peg (7) lower extreme extends to diaphragm (21) below, vertical groove (71) have been seted up in picture peg (7), horizontal groove (711) have been seted up to vertical groove (71) central point department, sliding fit has dog (72) in horizontal groove (711), be connected with between horizontal groove (711) inner wall and dog (72) big spring (73), dog (72) are used for plugging up vertical groove (71), dog (72) are connected with rope (74), rope (74) extend to outside water tank (2), and be connected with and draw the subassembly.

4. The denitration mechanism of the setting machine for ironing textile fabrics, according to claim 3, is characterized in that: the pulling assembly drives the stop block (72) to move, so that the stop block (72) moves into the transverse groove (711), and the longitudinal groove (71) is unblocked.

5. The denitration mechanism of the setting machine for ironing textile fabrics, according to claim 4, is characterized in that: drag the subassembly and include base (8), two (81) of electric push rod, switch (82), base (8) are including horizontal portion and vertical portion, and vertical portion is connected with water tank (2), and vertical portion one side is connected with two (81) of electric push rod, and switch (82) fixed mounting is on horizontal portion, switch (82) and electronic valve (9) electric connection, two (81) extension ends of electric push rod are towards switch (82), and rope (74) are connected with two (81) extension ends of electric push rod.

6. The denitration mechanism of the setting machine for ironing textile fabrics according to claim 1, is characterized in that: the novel ironing ring is characterized in that partition plates (41) are arranged in the ironing ring (4) at equal angles around an axis, the partition plates (41) divide the inside of the ironing ring (4) into a plurality of cavities (42), heat-conducting plates (43) are arranged at the bottom of the ironing ring (4) relative to the cavities (42), the waste gas pipe (10) sequentially passes through each heat-conducting plate (43), the bottom of the waste gas pipe (10) located on the outer side of the ironing ring (4) is connected with heat-conducting blocks (11), and the heat-conducting blocks (11) are used for contacting with fabric.

7. The denitration mechanism of the setting machine for ironing textile fabrics according to claim 1, is characterized in that: the ammonia conveying module (13) is in threaded connection with a screw rod (15), a steel wire (16) is fixedly bound on the rod body of the screw rod (15), a shifting piece (141) is arranged on one side of the inner wall of the discharge pipe (14), an opening for conveying ammonia is formed between the shifting piece (141) and the inner wall of the discharge pipe (14), a small spring (142) is arranged at the position of the opening, and the steel wire (16) extends into the discharge pipe (14) and is connected with the shifting piece (141).

8. The denitration mechanism of the setting machine for ironing textile fabrics according to claim 1, is characterized in that: pivot has pivot (5) in water tank (2), and heating ring (6) fixed mounting is equipped with motor (51) on pivot (5) outside water tank (2), motor (51) transmission shaft extends to in water tank (2) to with pivot (5) tip welding.

Technical Field

The invention relates to the technical field of printing and dyeing, in particular to a denitration mechanism of a setting machine for ironing textile fabrics.

Background

Textile fabric is one of the materials commonly used in the production life, and textile fabric produces the fold easily in the transportation, and in order to make things convenient for the rolling, need to iron textile fabric and with its design, generally through the manual mode now, with the help of scalding ironing tool like the flatiron, when putting the flatiron at the surface fabric, removes repeatedly and irons the surface fabric. However, the mode has the disadvantages of slow working efficiency, high labor intensity of workers and poor leveling effect.

Secondly, the textile fabric manufacturing process has processes such as printing and dyeing, and the generated waste gas contains a large amount of nitrogen oxides, and the nitrogen oxides can cause acid rain, photochemical smog and haze if being discharged into the air without being processed. Thereby causing serious pollution to the environment. Therefore, a new apparatus is needed to solve the above problems.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a denitration mechanism of a setting machine for ironing textile fabrics, which solves the problems that workers iron fabrics repeatedly in the traditional fabric setting mode in the background art, the work efficiency is high, the labor intensity is high, and nitrogen oxides exist in wastes generated in the fabric processing process, so that the environment is easily polluted.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a forming machine denitration mechanism that irones textile fabric, includes the workstation, the workstation top is equipped with the water tank, and the water tank bottom is equipped with electric push rod one, and electric push rod one lower extreme is connected with the ring that irones of inside hollow, and the ring that irones is used for with the surface fabric contact, be equipped with the exhaust gas pipe on the workstation, the exhaust gas pipe runs through the ring that irones, and the exhaust gas pipe inlet end is connected with abandonment transport module, and the workstation side is connected with ammonia transport module, and ammonia transport module intercommunication has the delivery pipe, delivery pipe and exhaust gas pipe central authorities section intercommunication.

The water tank is characterized in that a plurality of water pipes are arranged at the bottom of the water tank at equal angles around the axis, the lower ends of the water pipes are communicated with an ironing ring, the ironing ring is connected with a plurality of return pipes, the upper ends of the return pipes are communicated with the water tank, a heating ring for heating water is arranged in the water tank, and an electronic valve in butt joint with the water pipes is arranged at the bottom of the inner wall of the water tank.

Preferably, be equipped with the diaphragm in the water tank, the diaphragm falls into two upper and lower cavities with water tank inside, and diaphragm central authorities are sunken to be equipped with even pipe, makes two upper and lower cavities communicate through even pipe, even intraductal valve that is equipped with, the diaphragm top is equipped with the sleeve, and the water tank top is equipped with the cylinder, the cylinder lower extreme stretches into in the cylinder to be connected with the gasbag, the water tank top is connected with the air pump, air pump and gasbag intercommunication.

Preferably, the diaphragm top is equipped with the picture peg, and the picture peg lower extreme extends to the diaphragm below, and longitudinal groove has been seted up to the picture peg, and longitudinal groove central authorities department has seted up the transverse groove, and sliding fit has the dog in the transverse groove, is connected with big spring between transverse groove inner wall and the dog, and the dog is used for plugging up longitudinal groove, and the dog is connected with the rope, the rope extends outside the water tank to be connected with and draws the subassembly of dragging.

Preferably, the pulling assembly drives the stop block to move, so that the stop block moves into the transverse groove, and the longitudinal groove is smooth.

Preferably, draw and drag the subassembly and include base, electric push rod two, switch, the base includes horizontal portion and longitudinal portion, and longitudinal portion is connected with the water tank, and longitudinal portion one side is connected with electric push rod two, and switch fixed mounting is on horizontal portion, switch and electronic valve electric connection, two extension ends of electric push rod are towards the switch, and the rope is connected with two extension ends of electric push rod.

Preferably, baffles are arranged in the ironing ring at equal angles around the axis, the baffles divide the inner part of the ironing ring into a plurality of cavities, heat-conducting plates are arranged at the bottom of the ironing ring relative to the cavities, the waste gas pipe sequentially passes through each heat-conducting plate, and the bottom of the waste gas pipe positioned outside the ironing ring is connected with a heat-conducting block which is used for contacting with the fabric.

Preferably, the ammonia gas conveying module is in threaded connection with a screw, a steel wire is fixedly bound on the rod body of the screw, a shifting piece is arranged on one side of the inner wall of the discharge pipe, an opening for conveying ammonia gas is formed between the shifting piece and the inner wall of the discharge pipe, a small spring is arranged at the position of the opening, and the steel wire extends into the discharge pipe and is connected with the shifting piece.

Preferably, the pivot has the pivot in the water tank, and heating ring fixed mounting is equipped with the motor in the water tank outside in the pivot, motor drive shaft extends to in the water tank to with pivot tip welding.

(III) advantageous effects

The invention provides a denitration mechanism of a setting machine for ironing textile fabrics. The method has the following beneficial effects:

1. this forming machine denitration mechanism to textile fabric irones runs through the ring that irones with the waste gas pipe, scalds the surface fabric to iron and combines together with the waste gas denitration. In the ironing ring that sends into through the water with the heating in the water tank, scald the design and heat the inside of exhaust pipe simultaneously to the surface fabric to accelerate denitration reaction. Through heat conduction piece and exhaust pipe cooperation, help the ring of ironing to scald the surface fabric and iron, replace artifical manual processing for work efficiency reduces workman intensity of labour. The energy-saving and environment-friendly effects are achieved, and the energy utilization rate is further improved.

Drawings

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

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

FIG. 3 is a sectional view of the structure of the water tank of the present invention;

FIG. 4 is a schematic view of the internal structure of the water tank of the present invention;

FIG. 5 is an enlarged view of the structure of FIG. 4 at A in accordance with the present invention;

FIG. 6 is an enlarged view of the structure of FIG. 4 at B in accordance with the present invention;

FIG. 7 is a view showing the inner structure of the heating ring according to the present invention;

FIG. 8 is a view showing the inner structure of the discharge pipe according to the present invention.

In the figure: 1 workbench, 2 water tank, 21 transverse plate, 22 sleeve, 23 connecting pipe, 24 valves, 25 first electric push rod, 26 return pipe, 27 water pipe, 3 air cylinder, 31 air bag, 32 air pump, 4 ironing ring, 41 clapboard, 42 cavity, 43 heat conducting plate, 5 rotating shaft, 51 motor, 6 heating ring, 7 inserting plate, 71 longitudinal groove, 711 transverse groove, 72 stopper, 73 large spring, 74 rope, 8 base, 81 second electric push rod, 82 switch, 9 electronic valve, 10 waste gas pipe, 11 heat conducting block, 12 waste conveying module, 13 ammonia conveying module, 14 discharge pipe, 141 plectrum, 142 small spring, 15 screw rod and 16 steel wire.

Detailed Description

The embodiment of the invention provides a denitration mechanism of a setting machine for ironing textile fabrics, which comprises a workbench 1, wherein a water tank 2 is fixedly arranged above the workbench 1, and an electric push rod I25 is welded at the bottom of the water tank 2, as shown in figures 1-8. The lower end of the electric push rod I25 is fixedly provided with an ironing ring 4 with a hollow inner part, and the ironing ring 4 is used for contacting the fabric. An exhaust gas pipe 10 is arranged on the working platform 1, and the exhaust gas pipe 10 penetrates through the ironing ring 4. Waste conveying module 12 is fixedly installed at the air inlet end of exhaust pipe 10, ammonia conveying module 13 is placed on the side edge of workbench 1, ammonia conveying module 13 is communicated with discharge pipe 14 in a welding mode, and discharge pipe 14 is communicated with the central section of exhaust pipe 10 in a welding mode.

Referring to fig. 1, 3 and 7, a plurality of water pipes 27 are fixedly arranged at the bottom of the water tank 2 at equal angles around the axis, and the lower ends of the water pipes 27 are communicated with the ironing ring 4. The ironing ring 4 is communicated with a plurality of return pipes 26 in a welding way, and the upper ends of the return pipes 26 are communicated with the water tank 2. A heating ring 6 for heating water is arranged in the water tank 2, and the heating ring 6 heats the water in the water tank. An electronic valve 9 which is butted with the water pipe 27 is fixedly arranged at the bottom of the inner wall of the water tank 2. The electronic valve 9 is opened to allow water to flow into the water pipe 27.

In operation, the water in the water tank 2 is heated by the heating ring 6 and fed into the ironing ring 4. The first electric push rod 25 is slowly extended to make the ironing ring 4 contact with the fabric. Thereby ironing the fabric. Meanwhile, when hot water is injected into the ironing ring 4, waste gas is input into the waste gas pipe 10, and ammonia gas is sent into the waste gas pipe 10 by the ammonia gas conveying module 13. The waste is heated by hot water and then is contacted with ammonia gas, so that the nitrogen oxides are neutralized and the denitration treatment is realized.

The exhaust pipe 10 penetrates through the ironing ring 4 to be directly contacted with hot water, so that the heating and catalyzing effect is achieved, and the reaction speed between nitrogen oxides and ammonia gas is further accelerated.

A transverse plate 21 is welded in the water tank 2, and the transverse plate 21 divides the interior of the water tank 2 into an upper cavity and a lower cavity. The center of the transverse plate 21 is welded with a connecting pipe 23 in a concave way, and the upper chamber and the lower chamber are communicated through the connecting pipe 23. The connecting pipe 23 is symmetrically and fixedly provided with a valve 24. The valve 24 acts as a one-way valve so that the cistern can only flow from the upper chamber to the lower chamber.

The top of the transverse plate 21 is welded with the sleeve 22, the top of the water tank 2 is fixedly provided with the air cylinder 3, the lower end of the air cylinder 3 extends into the air cylinder 3 and is fixedly provided with the air bag 31, the top of the water tank 2 is fixedly provided with the air pump 32, the air pump 32 is communicated with the air bag 31, and the return pipe 26 is communicated with the upper chamber of the water tank 2.

The top of the transverse plate 21 is fixedly provided with an inserting plate 7, the lower end of the inserting plate 7 extends to the lower part of the transverse plate 21, the inserting plate 7 is provided with a longitudinal groove 71, the center of the longitudinal groove 71 is provided with a transverse groove 711, a stop block 72 is in sliding fit with the transverse groove 711, and a large spring 73 is welded between the inner wall of the transverse groove 711 and the stop block 72. The stopper 72 is ejected from the lateral groove 711 by the elasticity of the large spring 73, so that the stopper 72 blocks the longitudinal groove 71.

One end of the block 72 is fixedly bound with a rope 74, and the rope 74 extends out of the water tank 2 and is connected with a pulling assembly. The pulling assembly moves the stop 72 to move the stop 72 into the transverse slot 711, thereby clearing the longitudinal slot 71.

The pulling assembly comprises a base 8, a second electric push rod 81 and a switch 82, the base 8 comprises a transverse part and a longitudinal part, the longitudinal part is welded with the water tank 2, one side of the longitudinal part is welded with the second electric push rod 81, and the switch 82 is fixedly installed on the transverse part. The switch 82 is electrically connected with the electronic valve 9, the extending end of the electric push rod two 81 faces the switch 82, and the rope 74 is fixedly bound with the extending end of the electric push rod two 81.

In operation, the air pump 32 inflates the air bag 31, the air cylinder 3 extends, the air bag 31 is pressed into the sleeve 22, and the water in the sleeve 22 is pressed into the lower cavity of the water tank 2. The heating ring 6 heats the water. At the moment, the second electric push rod 81 is in an extension state, the longitudinal groove 71 is unblocked, the stop block 72 moves into the transverse grass groove 11, and the large spring 73 is extruded. Since the second electric push rod 81 is extended to abut against the switch 82, the electronic valve 9 is closed.

At this time, the cylinder 3 is repeatedly extended and contracted to repeatedly heat the water in the upper and lower chambers in a circulating manner. Because the water in the upper chamber flows in through the ironing ring 4, the temperature of the water in the upper chamber is low, the hot water in the lower chamber enters the upper chamber, the circulating water in the water tank 2 is driven to flow, the heat transfer effect is accelerated, and the temperature in the upper chamber is preheated.

When the second electric push rod 81 is contracted and away from the switch 82, so that the electronic valve 9 is opened, the large spring 73 ejects the stop 72 to block the longitudinal groove 71. The air chamber 31 is driven by the cylinder 3 to press the water in the upper chamber into the lower chamber, and the heated and fixed water enters the water pipe 27 and is sent into the ironing ring 4.

The ironing ring 4 is internally welded with a clapboard 41 at equal angles around the axis, the clapboard 41 divides the inside of the ironing ring 4 into a plurality of cavities 42, heat conducting plates 43 are embedded at the bottom of the ironing ring 4 opposite to the cavities 42, and the exhaust pipe 10 passes through each heat conducting plate 43 in sequence. The bottom of the exhaust pipe 10 positioned outside the ironing ring 4 is fixedly provided with a heat conducting block 11, and the heat conducting block 11 is used for contacting with the fabric. The heat carried by the exhaust pipe is transferred to the heat conduction block 43. The fabric is ironed and shaped by matching the heat conducting block 11 with the heat conducting plate 43.

The ammonia gas conveying module 13 is in threaded connection with a screw rod 15, a steel wire 16 is fixedly bound on the rod body of the screw rod 15, and a shifting piece 141 is arranged on one side of the inner wall of the discharge pipe 14. The inner wall of the discharge pipe 14 at one side of the pulling sheet 141 is welded. The pick 141 has a certain flexibility and can be bent. Referring to fig. 8, an opening for delivering ammonia gas is formed between the pulling plate 141 and the inner wall of the exhaust pipe 14, and a small spring 142 is disposed at the opening. One end of the small spring 142 is welded to the inner wall of the discharge pipe 14, and the other end of the small spring 142 is welded to the pick-up 141.

The small spring 142 is always in a pulled state and has a contracting force. The pick-up 141 is made to have a tendency to close the discharge pipe 14 and the steel wire 16 extends into the discharge pipe 14 and is welded to the pick-up 141. By changing the number of turns of the wire 16 wound around the screw 15, the pulling force of the wire 16 on the paddle 141 is changed, so that the ammonia gas delivery opening in the discharge pipe 14 is adjusted. The function of controlling the discharge amount of ammonia gas is achieved.

The pivot has pivot 5 in the water tank 2, and heating ring 6 fixed mounting is on pivot 5, and the motor 51 of 2 outside fixed mounting of water tank, motor 51 transmission shaft extend to in the water tank 2 to with 5 tip welding of pivot. The effect of stirring water flow is achieved, and the heat transfer effect is accelerated.

The area where the wire 16 enters the discharge pipe 14 and the area where the rope 74 extends outside the tank 2 are sealed. The waste delivery module 12 and the ammonia gas delivery module 13 are conventional technical means due to the sealing process, and thus will not be described in detail.

In summary, in the denitration mechanism of the setting machine for ironing textile fabrics, the waste gas pipe 10 penetrates through the ironing ring 4, and the fabrics are ironed and combined with the waste gas denitration. In the ironing ring 4 that sends into the water of heating in the water tank 2, scald the surface fabric and iron the design simultaneously to exhaust pipe 10 internal heating to accelerate denitration reaction. Through heat conduction piece 11 and the cooperation of exhaust pipe 10, help the ring 4 of ironing to scald the face fabric and iron, replace artifical manual processing for work efficiency reduces workman intensity of labour. The energy-saving and environment-friendly effects are achieved, and the energy utilization rate is further improved.

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.