CN113430805A - Dust removing system for textile fabric production - Google Patents

Abstract

The invention discloses a dust removing system for textile fabric production, which comprises a shell, wherein a dust removing cavity is arranged in the shell, a dust removing block is arranged on the inner wall of the left side of the dust removing cavity, a sliding groove is formed in the right side of the dust removing block, an ash storing groove communicated with the sliding groove is formed in the dust removing block, and a trigger box is arranged on the left side of the shell; the dust removal device comprises a plurality of abutting mechanisms, wherein each abutting mechanism comprises a vertical strip arranged at the bottom in a dust removal cavity, a shaking groove is formed in the upper end of each vertical strip, a conductive sliding block used for sliding up and down is arranged in each shaking groove, and the lower end of each conductive sliding block is elastically connected with the inner bottom of each shaking groove through a conductive spring. This system is got rid of to dust, at the in-process that uses, can adsorb and collect the dust of cloth weaving in-process adhesion, the post processing of being convenient for has also improved the quality of workshop internal environment simultaneously, has guaranteed factory worker's health safety.

Description

Dust removing system for textile fabric production

Technical Field

The invention relates to the field of textiles, in particular to a dust removing system for textile fabric production.

Background

The textile industry is important for ensuring foreign exchange storage, international balance, stable Renminbi exchange rate, solving social employment and sustainable development of the textile industry in China, and the textile industry slowly becomes mature along with the continuous development of the current society;

weaving is the process that a cloth was woven, and at this in-process, can not avoid having the dust to produce, and these dusts can adhere to the cloth of weaving on some, have reduced the quality behind the shaping of cloth later stage, and some dusts can be filled the workshop inside in the follow-up course of working of cloth, lead to the air circumstance of workshop inside relatively poor, and the health safety of weaving workman can not obtain the assurance, so, how to solve these problems and be our required consideration.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides a dust removing system for textile cloth production, which can adsorb and collect dust adhered in the cloth textile process in the using process, is convenient for post-treatment, improves the quality of the internal environment of a workshop, and ensures the health and safety of factory workers.

In order to achieve the purpose, the invention adopts the following technical scheme:

a dust removing system for textile fabric production comprises a shell, wherein a dust removing cavity is formed in the shell, a dust removing block is mounted on the inner wall of the left side of the dust removing cavity, a sliding groove is formed in the right side of the dust removing block, an ash storing groove communicated with the sliding groove is formed in the dust removing block, and a trigger box is mounted on the left side of the shell;

the dust removal device comprises a plurality of abutting mechanisms, wherein each abutting mechanism comprises a vertical strip arranged at the bottom in a dust removal cavity, the upper end of each vertical strip is provided with a shaking groove, a conductive sliding block used for sliding up and down is arranged in each shaking groove, the lower end of each conductive sliding block is elastically connected with the inner bottom of each shaking groove through a conductive spring, the inner wall of the right side of each shaking groove is provided with a first conductive block matched with each conductive sliding block, the bottom space of each shaking groove is communicated with an external communicating pipe through a one-way air inlet pipe, and the bottom space of each shaking groove is communicated with the dust removal cavity through a one-way air outlet pipe;

dust removal mechanism, dust removal mechanism includes that the level sets up a plurality of guide bars in the dust removal intracavity, the right-hand member of guide bar all with the right side inner wall fixed connection in dust removal chamber, it is a plurality of the left end of guide bar extends to in the spout to with the left side inner wall fixed connection of spout, it is a plurality of run through two metal connecting plates on the guide bar jointly, two fixedly connected with metal mesh between the metal connecting plate.

Preferably, the inner top of the dust removing cavity is communicated with the outside through an air outlet.

Preferably, the one-way air outlet pipe and the one-way air inlet pipe are internally provided with a one-way valve.

Preferably, still include pushing mechanism, pushing mechanism is including installing the electromagnetism piece in the box inner bottom that triggers, it is used for gliding piston plate from top to bottom to trigger to be equipped with in the box, the lower extreme and the electromagnetism piece of piston plate are through a plurality of recovery spring elastic connection, are located the left metal connecting plate left side is passed through the gasbag and is connected with the left side inner wall of spout, the headspace of triggering the box passes through the connecting pipe and communicates with the gasbag.

Preferably, install two on the right side inner wall in dust removal chamber and metal connecting plate matched with conducting strip, the interior top of spout is equipped with the second conducting block, the second conducting block pass through the wire and be connected with ground, electrostatic generator is installed on the right side of casing, electrostatic generator's both ends and two conducting strips pass through wire electric connection, the right side wall-mounting of casing has the battery, the battery passes through the wire with the electromagnetism piece and forms a closed circuit, the anodal of battery and a plurality of conductive spring's lower extreme are respectively through a plurality of wire electric connection, and are a plurality of first conducting block is respectively through the negative pole electric connection of a plurality of wires and battery.

Preferably, the plurality of the conductive springs are different in elastic modulus.

Compared with the prior art, the invention has the beneficial effects that:

1. after the battery circular telegram, a plurality of electrically conductive springs can be continuous shake, thereby drive the electrically conductive slider that corresponds and support the continuous shake of pole, carry out continuous the supporting to the cloth, shake off the dust of adhesion on the cloth, avoid influencing the whole quality of cloth, discharge the possibility in the external world with the later stage dust, when a plurality of electrically conductive sliders shift up, shake the groove and can follow the external world and inhale gas through one-way air-supply line, when electrically conductive slider moves down, can will shake the gaseous extrusion of play inslot through one-way play tuber pipe, produce an ascending air current, blow to the metal mesh with shaking off the dust, be adsorbed by the metal mesh with static, the effectual dust to adhesion on the cloth is handled, the environmental quality in workshop has been improved, the quality of cloth has been improved simultaneously.

2. Because the shapes of the conductive springs are the same and the elastic coefficients are different, the time and amplitude of each conductive spring which contracts once are different, namely the resisting frequency and amplitude of each resisting rod are different, and the overall dust shaking-off effect is better.

3. After the completion removes the dust, close electrostatic generator and battery can, the electromagnetism piece outage this moment, the repulsion disappears, receive the elastic action of recovery spring, the piston plate moves down, and inhale the gas in the gasbag and trigger the box, the gasbag shrink, and the pulling metal mesh moves to the left, until the second conducting block of left metal connecting plate contact, static on the metal mesh can be discharged ground through the second conducting block in, static disappears in the twinkling of an eye, the adsorbed dust on the metal mesh receives self action of gravity, fall to depositing in the ash chute, the dust is concentrated and is collected, the processing in the later stage of being convenient for.

Drawings

FIG. 1 is a schematic structural view of a dust removal system for textile fabric production according to the present invention;

FIG. 2 is an enlarged view of FIG. 1 at A;

FIG. 3 is an enlarged view of FIG. 1 at B;

fig. 4 is an enlarged view of fig. 1 at C.

In the figure: the device comprises a shell 1, a dust removing cavity 2, a dust removing block 3, a vertical bar 4, a unidirectional air inlet pipe 5, an electrostatic generator 6, an ash storage groove 7, a sliding groove 8, a guide rod 9, a metal net 10, a trigger box 11, an electromagnetic block 12, a piston plate 13, a recovery spring 14, a connecting pipe 15, a conductive sliding block 16, a pushing rod 17, a unidirectional air outlet pipe 18, a shaking groove 19, a first conductive block 20, a conductive spring 21, a conductive sheet 22, a second conductive block 23, an air bag 24 and a storage battery 25.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1-4, a dust removing system for textile fabric production comprises a shell 1, a dust removing cavity 2 is arranged in the shell 1, a dust removing block 3 is arranged on the inner wall of the left side of the dust removing cavity 2, a sliding groove 8 is arranged on the right side of the dust removing block 3, a dust storage groove 7 communicated with the sliding groove 8 is arranged in the dust removing block 3, the inner top of the dust removing cavity 2 is communicated with the outside through a plurality of air outlets, sliding doors can be respectively arranged on the front side of the shell 1 and the front side of the dust removing block 3, subsequent dust treatment is facilitated, and a trigger box 11 is arranged on the left side of the shell 1;

the dust removing device comprises a plurality of abutting mechanisms, each abutting mechanism comprises a vertical strip 4 arranged at the inner bottom of a dust removing cavity 2, the upper end of each vertical strip 4 is provided with a shaking groove 19, a conductive sliding block 16 used for sliding up and down is arranged in each shaking groove 19, the lower end of each conductive sliding block 16 is elastically connected with the inner bottom of each shaking groove 19 through a conductive spring 21, the inner wall of the right side of each shaking groove 19 is provided with a first conductive block 20 matched with each conductive sliding block 16, the bottom space of each shaking groove 19 is communicated with the outside through a one-way air inlet pipe 5, the bottom space of each shaking groove 19 is communicated with the dust removing cavity 2 through a one-way air outlet pipe 18, and one-way valves are arranged in the one-way air outlet pipe 18 and the one-way air inlet pipe 5;

dust removal mechanism, dust removal mechanism include that the level sets up a plurality of guide bars 9 in dust removal chamber 2, the right-hand member of guide bar 9 all with the right side inner wall fixed connection in dust removal chamber 2, the left end of a plurality of guide bars 9 extends to in the spout 8 to with the left side inner wall fixed connection of spout 8, run through two metal connecting plates jointly on a plurality of guide bars 9, fixedly connected with metal mesh 10 between two metal connecting plates.

The electromagnetic block type electromagnetic switch further comprises a pushing mechanism, the pushing mechanism comprises an electromagnetic block 12 arranged at the bottom in a trigger box 11, a piston plate 13 used for sliding up and down is arranged in the trigger box 11, the piston plate 13 has magnetism and repels like poles of the adjacent surface of the electromagnetic block 12 after being electrified, the lower end of the piston plate 13 is elastically connected with the electromagnetic block 12 through a plurality of restoring springs 14, the left side of a metal connecting plate positioned on the left side is connected with the left side inner wall of the sliding groove 8 through an air bag 24, and the top space of the trigger box 11 is communicated with the air bag 24 through a connecting pipe 15.

Wherein, install two conducting strips 22 with metal connecting plate matched with on the right side inner wall in dust removal chamber 2, the interior top of spout 8 is equipped with second conducting block 23, second conducting block 23 pass through the wire and be connected with ground, electrostatic generator 6 is installed on the right side of casing 1, the both ends and two conducting strips 22 of electrostatic generator 6 pass through wire electric connection, the right side wall mounting of casing 1 has battery 25, battery 25 here refers to the power supply battery that can open and close through control switch, control switch here is not shown in the drawing, battery 25 and electromagnetism piece 12 pass through the wire and form a closed circuit, battery 25's anodal and the lower extreme of a plurality of conductive spring 21 are respectively through a plurality of wire electric connection, a plurality of first conducting blocks 20 are respectively through a plurality of wires and battery 25's negative pole electric connection.

The elastic coefficients of the plurality of conductive springs 21 are different, the plurality of conductive springs 21 are identical in shape, a reverse magnetic field is formed between every two adjacent turns of spring coils after the power is turned on, attraction is generated between every two adjacent turns of spring coils, and therefore the conductive springs 21 are integrally contracted, and the time and the amplitude of one-time contraction of each conductive spring 21 are different due to the fact that the plurality of conductive springs 21 are identical in shape and different in elastic coefficient.

The working principle of the invention can be explained as follows: in the using process, the cloth penetrates through the shell 1 as shown in the figure (through holes for the cloth to pass through are formed in two side walls of the shell 1);

at this time, the switch of the storage battery 25 and the electrostatic generator 6 is turned on, after the storage battery 25 is turned on, the electromagnetic block 12 is electrified and provides an upward repulsive force for the piston plate 13, at this time, as shown in fig. 1, the piston plate 13 moves upwards and exhausts the gas in the top space of the trigger box 11 through the connecting pipe 15 into the gas bag 24, the gas bag 24 expands to push the metal net 10 and the two metal connecting plates to move right until the metal connecting plate on the right side contacts the two conducting plates 22 on the right side wall of the dust removal cavity 2, and at this time, the metal net 10 is charged with static electricity and has strong dust attraction force;

after the storage battery 25 is powered on, the plurality of conductive springs 21 are also powered on, a reverse magnetic field is formed between every two adjacent spring coils after the power on, attraction is generated between every two adjacent spring coils, so that the conductive spring 21 is integrally contracted, for one conductive spring 21, the conductive slider 16 is pulled to move downwards after the conductive spring 21 is contracted, at the moment, the conductive slider 16 is not in contact with the first conductive block 20, a circuit where the conductive spring 21 is located is disconnected, but under the inertia effect, the conductive slider 16 moves downwards for a certain distance and then moves upwards under the elastic effect of the conductive spring 21, when the conductive slider 16 is in contact with the first conductive block 20 again, the circuit where the conductive spring 21 is located is conducted, the actions are repeated, namely, after the storage battery 25 is powered on, the plurality of conductive springs 21 can continuously shake, so that the corresponding conductive sliders 16 and the abutting rods 17 are driven to shake continuously, the cloth is continuously abutted to shake off dust adhered to the cloth, so that the influence on the overall quality of the cloth and the possibility of discharging the dust to the outside in the later period are avoided, and as the plurality of conductive springs 21 are the same in shape and different in elastic coefficient, the time and amplitude for contracting each conductive spring 21 once are different, namely the abutting frequency and amplitude of each abutting rod 17 are different, so that the overall dust shaking-off effect is better;

when the conductive sliders 16 move upwards, the shaking grooves 19 suck gas from the outside through the one-way air inlet pipe 5, and when the conductive sliders 16 move downwards, the gas in the shaking grooves 19 is pressed out through the one-way air outlet pipe 18 to generate an upward air flow, so that shaken dust is blown onto the metal mesh 10 and is adsorbed by the metal mesh 10 with static electricity;

it should be noted here that when the conductive slider 16 and the abutting rod 17 move up, the cloth is abutted and the air is supplemented from the outside, and when the conductive slider 16 moves down, the air in the shaking groove 19 is blown to the cloth which is just shaken off the dust through the one-way air outlet pipe 18, so that the just shaken off dust is lifted to contact the metal mesh 10 with static electricity;

after dust removal is completed, the electrostatic generator 6 and the storage battery 25 are closed, the electromagnetic block 12 is powered off at the moment, repulsive force disappears, the repulsive force disappears under the elastic action of the restoring spring 14, the piston plate 13 moves downwards, gas in the air bag 24 is sucked into the trigger box 11, the air bag 24 contracts and pulls the metal net 10 to move left until the second conductive block 23 is contacted with the metal connecting plate on the left side, static on the metal net 10 can be discharged into the ground through the second conductive block 23, the static disappears instantly, dust adsorbed on the metal net 10 falls into the dust storage groove 7 under the action of self gravity, the dust is collected in a centralized mode, and later-stage treatment is facilitated.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (6)

1. A dust removal system for textile fabric production, comprising:

the dust collection device comprises a shell (1), wherein a dust collection cavity (2) is arranged in the shell (1), a dust collection block (3) is arranged on the inner wall of the left side of the dust collection cavity (2), a sliding groove (8) is arranged on the right side of the dust collection block (3), an ash storage groove (7) communicated with the sliding groove (8) is arranged in the dust collection block (3), and a trigger box (11) is arranged on the left side of the shell (1);

the dust removal device comprises a plurality of abutting mechanisms, wherein each abutting mechanism comprises a vertical strip (4) arranged at the inner bottom of a dust removal cavity (2), a shaking groove (19) is formed in the upper end of each vertical strip (4), a conductive sliding block (16) used for sliding up and down is arranged in each shaking groove (19), the lower end of each conductive sliding block (16) is elastically connected with the inner bottom of each shaking groove (19) through a conductive spring (21), a first conductive block (20) matched with each conductive sliding block (16) is arranged on the inner wall of the right side of each shaking groove (19), the bottom space of each shaking groove (19) is communicated with the dust removal cavity (2) through a one-way air outlet pipe (18) and is empty in the bottom space of each shaking groove (19);

dust removal mechanism, dust removal mechanism includes that the level sets up a plurality of guide bars (9) in dust removal chamber (2), the right-hand member of guide bar (9) all with the right side inner wall fixed connection in dust removal chamber (2), a plurality of the left end of guide bar (9) extends to in spout (8) to with the left side inner wall fixed connection of spout (8), a plurality of run through two metal connecting plates, two jointly on guide bar (9) fixedly connected with metal mesh (10) between the metal connecting plate.

2. A dust removal system for textile cloth production according to claim 1, wherein the inner top of the dust removal chamber (2) is connected to the outside via an outlet.

3. A dust removal system for textile fabric production according to claim 1, wherein one-way valves are installed in both the one-way outlet duct (18) and the one-way inlet duct (5).

4. The dust removing system for the textile cloth production of claim 1, further comprising a pushing mechanism, wherein the pushing mechanism comprises an electromagnetic block (12) installed at the bottom in the trigger box (11), a piston plate (13) for sliding up and down is arranged in the trigger box (11), the lower end of the piston plate (13) is elastically connected with the electromagnetic block (12) through a plurality of restoring springs (14), the left side of the metal connecting plate on the left side is connected with the left inner wall of the chute (8) through an air bag (24), and the top space of the trigger box (11) is communicated with the air bag (24) through a connecting pipe (15).

5. The dust removing system for the textile fabric production as recited in claim 4, wherein two conducting strips (22) matched with the metal connecting plate are mounted on the inner wall of the right side of the dust removing cavity (2), a second conducting block (23) is arranged at the top of the sliding groove (8), the second conducting block (23) is connected with the ground through a wire, the right side of the shell (1) is provided with the static generator (6), two ends of the static generator (6) are electrically connected with the two conducting strips (22) through wires, a storage battery (25) is mounted on the wall of the right side of the shell (1), the storage battery (25) and the electromagnetic block (12) form a closed loop through wires, the positive electrode of the storage battery (25) is electrically connected with the lower ends of the conducting springs (21) through a plurality of wires, and the first conducting blocks (20) are electrically connected with the negative electrode of the storage battery (25) through a plurality of wires.

6. A dust removing system for textile cloth production according to claim 1, wherein a plurality of said conductive springs (21) have different spring constants.

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