CN107081308B - Dust removal mechanism for clothing cut-parts and automatic dust remover thereof - Google Patents

Abstract

The invention discloses a dust removing mechanism for clothing cutting pieces and an automatic dust remover, wherein the dust removing mechanism comprises: a roller for conveying the cut sheet; the first and second suction boxes are used for adsorbing and dedusting the cut pieces; a negative pressure generating mechanism for transmitting negative pressure to the first and second suction boxes; the control mechanism controls the rotation direction of the roller and controls the negative pressure generating mechanism to alternately switch and transmit the negative pressure action to the first suction box and the second suction box; the first and second sets of suction boxes are respectively positioned at the front and rear ends of the conveying channel, and each set of suction boxes is distributed at the two sides of the conveying channel; the first sensor and the second sensor are respectively arranged on one side of the conveying channel between the roller and the first suction box and the second suction box and are respectively used for detecting signals of two end positions of the cut piece; the control mechanism controls the rotation direction of the roller according to the signals sent by the first and second sensors and controls the negative pressure generating mechanism to transmit the negative pressure action to one of the first and second suction boxes. Dust removal mechanism can carry out the clearance of full range no blind area to the dust of cut-parts.

Description

Dust removal mechanism for clothing cut-parts and automatic dust remover thereof

Technical Field

The invention belongs to auxiliary equipment of a garment hot-press forming machine, relates to dust removal of garment cut pieces before hot-press forming, and particularly relates to an automatic dust removal mechanism for the garment cut pieces and an automatic dust remover comprising the same.

Background

At present, the underwear bra cup cut pieces are usually made of foaming sponge and upper and lower layers of cloth, and the sponge and the cloth are both breathable fabrics, and a plurality of pores are formed in the sponge and the cloth, so that fine dust is easily adhered to the cut pieces in the manufacturing and transportation processes of the cut pieces, therefore, the dust on the underwear bra cup cut pieces needs to be removed in advance before hot-pressing setting, and the dust is prevented from being retained on the cut pieces in the hot-pressing setting process and becoming stains which are difficult to remove after the hot-pressing setting.

In the existing factory production, people usually use a rolling brush with adhesive paper, and the dust on the cut pieces is stripped by using the viscosity of the adhesive paper. The method has the advantages of high labor intensity, large labor amount, unstable and ideal clearing effect, consumption of a large amount of adhesive paper, great increase of manufacturing cost and incapability of meeting the environmental protection requirement due to the fact that the adhesive paper is difficult to degrade.

Disclosure of Invention

According to the dust remover provided by the invention, the stacked clothing cutting pieces are placed in the feeding frame, the pushing mechanism can peel the cutting piece positioned at the forefront out of the feeding frame in each operation and push the cutting piece to the dust removing mechanism, each cutting piece is subjected to dust removing treatment by the dust removing mechanism, and then the cutting piece is pushed out to the collecting frame by the pushing mechanism, so that the novel characteristic is displayed.

The pushing mechanism of the dust remover adopts the movable wind blocking plate to realize the connection or isolation between the material plate and the exhaust fan, can transmit the negative pressure generated by the exhaust fan to the through holes of the material plate when the pushing mechanism is away from the material plate, strip the cut pieces of clothing by the material plate, and can separate the cut pieces of clothing and push the cut pieces by the wind blocking plate when the pushing mechanism is isolated, thereby embodying the innovative characteristics of the pushing mechanism.

In the dust removal mechanism of the dust remover, the clothing cut pieces can be conveyed by the roller reciprocating rolling pinch, and two sets of suction boxes alternately adopt negative pressure to adsorb dust on the cut pieces from bottom to top or from right to left and from left to right, so that the characteristics created by the dust remover are further shown.

Therefore, the invention aims to provide a dust removing mechanism for clothing cutting pieces and an automatic dust remover thereof, wherein the dust removing mechanism repeatedly adsorbs the cutting pieces through negative pressure generated by suction boxes by utilizing the fact that the cutting pieces pass through the suction boxes on two sides in the reciprocating rolling conveying process, so that dust on the clothing cutting pieces can be removed, and the dust removing effect has no blind area on the whole range of the clothing cutting pieces.

In addition, the invention also aims to provide an automatic dust remover, and the automatic dust remover also provides a pushing mechanism which can automatically peel off each cut piece one by one from a stacked clothing cut piece and push the cut piece into the dust removing mechanism for dust removal treatment.

The dust removal mechanism of the clothing cutting piece is realized as follows:

the utility model provides a dust removal mechanism of clothing cut-parts, characterized by includes: a roller for conveying the cut pieces of the clothing; a first set of suction box and a second set of suction box for adsorbing and dedusting the clothing cutting pieces; a negative pressure generating mechanism for transmitting negative pressure to the first set of suction box and the second set of suction box; the control mechanism controls the rotation direction of the roller and controls the negative pressure generating mechanism to alternately transfer the negative pressure to the first set of suction boxes and the second set of suction boxes; the first set of suction boxes and the second set of suction boxes are respectively positioned at the front end and the rear end of the conveying channel, and each set of suction boxes are distributed at the two sides of the conveying channel; the first sensor and the second sensor are respectively arranged on one side of a conveying channel between the roller and the first set of suction box and the second set of suction box and are respectively used for detecting signals of two end positions of a clothing cutting piece; the control mechanism controls the rotation direction of the roller according to signals sent by the first sensor and the second sensor and controls the negative pressure generating mechanism to transmit the negative pressure action to one of the first set of suction boxes and the second set of suction boxes.

Therefore, the roller can clamp and convey the clothing pieces, the suction boxes positioned on two sides of the conveying channel can adsorb dust on the clothing pieces passing through the conveying channel, the dust on the clothing pieces is removed, and meanwhile, the roller can be used for rolling the clothing pieces in a reciprocating mode and repeatedly adsorbing the clothing pieces by using the two suction boxes.

Preferably, in the above scheme, the first sensor or the second sensor does not detect the signal that the clothing cut-parts exist, and the control mechanism then controls the running roller to rotate in the opposite direction, and controls the negative pressure generating mechanism to stop transmitting the negative pressure action to the suction box at the same end of the conveying channel, and then transmits the negative pressure action to the suction box at the other end of the conveying channel.

Therefore, the negative pressure effect generated by the first set of suction boxes and the second set of suction boxes can adsorb dust on the clothing cutting pieces from top to bottom or from right to left.

Preferably, in the above scheme, the garment cutting device further comprises a push-out mechanism, the push-out mechanism is arranged on the outer side of the conveying channel between the roller and the first set of suction boxes, the push-out mechanism is controlled by the control mechanism, and the control mechanism controls the push-out mechanism to act while controlling the roller to rotate reversely when a complete stroke of a garment cut piece is completed.

Like this, when the running roller antiport, the release mechanism action pole stretches out, the action pole can be used in the clothing cut-parts, release the clothing cut-parts from another outside of transport corridor between running roller and the first set of box of inhaling, make dust removal mechanism can send it out automatically after the clothing cut-parts remove dust, in addition, control mechanism control running roller antiport can make the clothing cut-parts have the trend of downstream, this trend combines with horizontal effort, can make the clothing cut-parts of sending out have better directionality, be favorable to making things convenient for the collection of clothing cut-parts.

Preferably, in the above scheme, the conveying direction of the clothing cutting pieces is perpendicular to the horizontal plane. Like this, can carry the clothing cut-parts with the help of gravity to reduce the influence of gravity to clothing cut-parts transportation process, can make and carry more steadily.

According to the dust removing mechanism provided by the invention, the two sets of suction boxes are respectively arranged at the front end and the rear end of the roller wheel of the conveying channel, and can be in reverse rotation fit with the roller wheel, so that a negative pressure effect can be generated in turn, and cut pieces positioned at the front end and the rear end of the roller wheel can be adsorbed from bottom to top or from right to left and from left to right, so that the dust on the cut pieces of clothes can be cleaned in a full range, and a blind area on cleaning is avoided.

The automatic dust remover of the invention is realized as follows:

an automatic dust remover is characterized by comprising the dust removing mechanism.

In the scheme, the device also comprises a pushing mechanism, wherein the pushing mechanism comprises a feeding frame, a material plate, an exhaust fan, an air blocking plate and a driving mechanism, the material plate is arranged at the outlet of the feeding frame, the exhaust fan faces to a through hole of the material plate, the air blocking plate is arranged between the material plate and the exhaust fan, and the air blocking plate is controlled by the driving mechanism to move;

the dust removal mechanism is arranged below the pushing mechanism.

Therefore, the clothing pieces can be placed in the feeding frame, if the air blocking plate leaves between the material plate and the exhaust fan, the clothing pieces can be peeled off and adsorbed on the material plate through suction force formed by the through holes of the material plate when the exhaust fan works, then the air blocking plate can move to a position between the material plate and the exhaust fan to block air flow, the exhaust fan is prevented from generating suction force in the through holes of the material plate, the clothing pieces can be separated from the material plate and fall down along the plane of the material plate, and the clothing pieces coming out of the pushing mechanism can be introduced into the dust removing mechanism to be subjected to dust removing treatment through the dust removing mechanism.

Preferably, in the above scheme, a fixed frame is further provided, the fixed frame is provided with a rail, the wind guard is mounted on the rail, and the fixed frame is provided with a cylinder which drives the wind guard to enable the wind guard to be controlled to move along the rail.

Preferably, in the above scheme, the air blocking plate is provided with a transverse acting rod connected by the suspension beam, the transverse acting rod protrudes out of the plane of the air blocking plate, and a notch is formed on the flitch at a position corresponding to the suspension beam. The transverse action rod can move along with the wind blocking plate, the suspension beam can move in the notch, and the transverse action rod can act on the cut pieces in the moving process and push the cut pieces to the roller of the dust removing mechanism.

According to the dust remover obtained by the method, the wind blocking plate gradually blocks the through holes of all rows of the material plates from top to bottom, and the cut pieces of clothes are gradually separated from the material plates from top to bottom, so that the lower parts of the material plates are always adsorbed by negative pressure before the cut pieces of clothes are conveyed to the rollers, and the cut pieces of clothes can be ensured not to deviate and can accurately enter between the rollers in subsequent pushing.

Preferably, in the above scheme, the feeding frame is arranged obliquely, so that the clothing cutting piece tends to incline forwards, and the bottom of the feeding frame is provided with the micro vibrating motor.

Preferably, in the above scheme, the feeding frame is provided with a driving and moving vehicle. The driving and moving vehicle can act on the clothes cutting pieces from the back of the whole stack of the clothes cutting pieces, so that the clothes cutting pieces always keep the trend of moving forwards.

Both measures can lead the whole stack of the clothing cutting piece to be displaced forwards after the clothing cutting piece positioned at the forefront is peeled off, and the clothing cutting piece is always kept at the outlet of the feeding frame for subsequent needs.

The dust remover for the clothing cutting pieces has the characteristic of full automation in the processes of pushing, dust removal and collection.

Drawings

FIG. 1 is a schematic structural view of one embodiment of a dust collector of the present invention;

FIG. 2 is a schematic cross-sectional view of the dust extractor of FIG. 1;

FIG. 3 is a schematic structural view of a pushing mechanism in the dust remover of FIG. 1;

FIG. 4 is a schematic cross-sectional structural view of the pushing mechanism of FIG. 3;

FIG. 5 is a schematic structural view of a dust removal mechanism in the dust remover of FIG. 1;

fig. 6 is a schematic view of a sectional structure of the dust removing mechanism of fig. 5.

Detailed Description

The following detailed description of embodiments of the invention refers to the accompanying drawings in which:

referring to fig. 1, 2, 3 and 4, the pushing mechanism a includes a feeding frame a1, a material plate a2, an exhaust fan A3, a wind blocking plate a4, a cylinder A5 and a fixed frame A6, wherein the material plate a2 is installed at an outlet of the feeding frame a1, a row of through holes are opened on the material plate a2, the exhaust fan A3 faces the through holes of the material plate a2, the fixed frame A6 is installed between the material plate a2 and the exhaust fan a2, the wind blocking plate a2 is installed on rails on both sides of the fixed frame a2, the cylinder a2 is installed on top of the fixed frame a2, the wind blocking plate a2 can move up and down along the rails on both sides of the fixed frame a2 under the control of the cylinder a2, in addition, a transverse acting rod a2 connected by the suspension beam a2 is arranged on the wind blocking plate a2, a notch is formed on the transverse acting rod a2 corresponding to the position of the suspension plate a 2.

Therefore, the clothing pieces 7 can be placed in the feeding frame A1, if the air blocking plate A4 moves upwards and leaves between the material plate A2 and the exhaust fan A3, when the exhaust fan A3 exhausts air, the clothing pieces 7 can be peeled off and adsorbed on the material plate A2 by suction by forming suction in the through holes of the material plate A2; subsequently, if the wind blocking plate a4 moves downwards to a position between the material plate a2 and the exhaust fan A3, the air flow of the exhaust fan A3 can be blocked, and the exhaust fan A3 is prevented from generating suction in through holes of the material plate a2, so that the clothing pieces 7 can be separated from the material plate a 2; in addition, the transverse action rod A8 can move downwards along with the wind deflector A4, the suspension beam A7 can move in the notch A9, the transverse action rod A8 can act on the clothing piece 7 in the downward movement process, and the clothing piece 7 can be pushed to the space between the rollers B1 of the dust removal mechanism B.

Referring to fig. 1, 2, 5 and 6, the dust removing mechanism B includes a pair of rollers B1, a first suction box B21 and a second suction box B22, a negative pressure generating mechanism B3, a first sensor B41 and a second sensor B42 (only their positions are shown in the drawings), and a control mechanism 5. Wherein: the vertical conveying of the cut pieces 7 is realized by a roller B1; the first set of suction box B21 and the second set of suction box B22 are respectively positioned at the upper end and the lower end of the roller 1 in the conveying direction, and each set of suction box B21 or B22 is uniformly distributed at the two sides of the conveying channel of the cut pieces 7 and can simultaneously adsorb the cut pieces 7 from the two sides; the control mechanism 5 controls the rotation direction of the roller B1 and the control mechanism 5 controls the negative pressure generating mechanism B3 to transmit the conversion of the negative pressure action to the two sets of suction boxes B21 or B22; the first sensor B41 and the second sensor B42 are respectively positioned at the outer sides of the conveying channel between the roller B1 and the first set of suction box B21 and the second set of suction box B22, and the first sensor B41 and the second sensor B42 are respectively used for detecting the positions of the upper end and the lower end of the cut piece 7. In addition, the control mechanism 5 performs the following control in accordance with the signals supplied from the first sensor B41 and the second sensor B42: when the first sensor B41 does not detect the signal of the cut piece 7, the control mechanism 5 controls the roller B1 to rotate reversely, and controls the negative pressure generating mechanism B3 to transmit the negative pressure action to the second suction box B22 positioned below the roller B1; when the second sensor B42 does not detect the presence of the cut pieces 7, the control mechanism 5 controls the roller B1 to rotate in the reverse direction, and controls the negative pressure generating mechanism B3 to transmit the negative pressure action to the first suction box B21 located above the roller 1.

Then, when the first sensor B41 does not detect the presence of the garment piece 7, it indicates that the garment piece 7 is completely located under the first sensor B41, and the majority of the garment piece 7 is located under the roller B1, at this time, the roller B1 rotates reversely to move the garment piece 7 upward, and at the same time, the negative pressure generating mechanism B3 no longer transmits the negative pressure action to the first suction box B21, but transmits the negative pressure to the second suction box B22, starts to absorb from the upper part of the garment piece 7, and with the upward movement of the garment piece 7, the absorption continuously moves to the lower part of the garment piece 7 to the lower end of the garment piece 7; when the second sensor B42 does not detect the presence of the garment piece 7, it indicates that the garment piece 7 is completely located above the second sensor B42, and the majority of the garment piece 7 is located on the upper portion of the roller B1, at this time, the roller B1 rotates reversely to move the garment piece 7 downward, and at the same time, the negative pressure generating mechanism B3 no longer transmits the negative pressure action to the second suction box B22, but transmits the negative pressure action to the first suction box B21, starts to absorb from the lower portion of the garment piece 7, and as the garment piece 7 moves downward, the absorption continuously moves to the upper portion of the garment piece 7 to the upper end of the garment piece 7.

Therefore, the dust on the clothing cutting pieces 7 can be cleaned in a full range without dead corners or blind areas, in addition, when the clothing cutting pieces 7 move up and down, the negative pressure does not exist in the areas after passing through the roller B1 any more, and the negative pressure is always reserved in the areas without passing through the roller B1, so that the interference on the conveying of the clothing cutting pieces can be reduced, and the roller can scrape the clothing cutting pieces.

Referring to fig. 6, the pushing mechanism C is arranged at the outer side of the conveying channel between the roller B1 and the first set of suction box B21, the pushing mechanism C is controlled by the control mechanism 5, the control mechanism 5 controls the roller B1 to rotate reversely and simultaneously controls the pushing mechanism C to act when the clothing piece 7 completes a complete stroke, and the action rod of the pushing mechanism C can act on the clothing piece 7 to push the clothing piece 7 out from the other outer side of the conveying channel between the roller B1 and the first set of suction box B21, so that the dust removing mechanism B can automatically send out the clothing piece 7 after dust removal.

Referring to fig. 1 and 2, the dust collector of the present embodiment includes a pushing mechanism a, a dust removing mechanism B, and a pushing mechanism C, wherein the dust removing mechanism B is disposed below the pushing mechanism a, the clothing pieces 7 are acted by a transverse action rod A8 of the pushing mechanism a and pushed to a roller B1 of the dust removing mechanism B, a material receiving frame 9 of the pushing mechanism C is disposed below the material sending frame of the pushing mechanism a, and the clothing pieces 7 pushed out by the action rod of the pushing mechanism C are collected in the material receiving frame 9.

In this embodiment, from the beginning that the clothing cut piece 7 is pushed to the dust removing mechanism B, the lower end of the clothing cut piece 7 passes through the first set of suction box B21, the first sensor B41, the roller B1, the second sensor B42 and the second set of suction box B22, and then, the lower end of the clothing cut piece 7 returns to pass through the second set of suction box B22, the second sensor B42 and the roller B1, so as to form a complete stroke, and at the same time, when the lower end of the clothing cut piece 7 starts to shield the first sensor B41 and the second sensor B42 does not sense the clothing cut piece 7, the control mechanism 5 can be set to control the negative pressure generating mechanism B3 to transmit the negative pressure to the first set of suction box, and when the complete stroke is completed, the push-out mechanism C pushes the clothing cut piece 7 out, so that the cleaning of the whole range of the clothing cut piece 7 without blind area can.

Claims (10)

1. The utility model provides a dust removal mechanism of clothing cut-parts, characterized by includes: a roller for conveying the cut pieces of the clothing; a first set of suction box and a second set of suction box for adsorbing and dedusting the clothing cutting pieces; a negative pressure generating mechanism for transmitting negative pressure to the first set of suction box and the second set of suction box; the control mechanism controls the rotation direction of the roller and controls the negative pressure generating mechanism to alternately transfer the negative pressure to the first set of suction boxes and the second set of suction boxes; the first set of suction boxes and the second set of suction boxes are respectively positioned at the upper end and the lower end of the conveying channel, and each set of suction boxes are distributed at the two sides of the conveying channel; the first sensor and the second sensor are respectively arranged on one side of a conveying channel between the roller and the first set of suction box and the second set of suction box and are respectively used for detecting signals of two end positions of a clothing cutting piece; the control mechanism controls the rotation direction of the roller according to signals sent by the first sensor and the second sensor and controls the negative pressure generating mechanism to transmit the negative pressure action to one of the first set of suction boxes and the second set of suction boxes.

2. The mechanism of claim 1, wherein the first sensor or the second sensor does not detect the presence of the clothing piece, the control mechanism controls the roller to rotate in a reverse direction, and controls the negative pressure generating mechanism to stop transmitting the negative pressure to the suction box at the same end of the transport channel and to transmit the negative pressure to the suction box at the other end of the transport channel.

3. The dust removing mechanism for the clothing cutting pieces as claimed in claim 1 or 2, further comprising a push-out mechanism, wherein the push-out mechanism is arranged outside the conveying channel between the roller and the first set of suction boxes, the push-out mechanism is controlled by the control mechanism, and the control mechanism controls the push-out mechanism to act while controlling the roller to rotate reversely when the clothing cutting pieces complete a complete stroke.

4. An automatic dust collector, characterized by comprising the dust collecting mechanism of any one of claims 1 to 3.

5. The automatic dust collector of claim 4, further comprising a pushing mechanism, wherein the pushing mechanism comprises a feeding frame, a material plate, an exhaust fan, a wind blocking plate and a driving mechanism; wherein: the material plate is arranged at the outlet of the feeding frame, the exhaust fan faces the through hole of the material plate, the wind blocking plate is arranged between the material plate and the exhaust fan, and the wind blocking plate is controlled by the driving mechanism to move; the dust removal mechanism is arranged below the pushing mechanism.

6. The automatic dust collector as claimed in claim 5, further comprising a fixed frame, wherein the fixed frame is provided with a rail, the wind guard is mounted on the rail, and the fixed frame is provided with a cylinder, and the cylinder drives the wind guard to move along the rail in a controlled manner.

7. The automatic dust collector of claim 5, wherein the wind guard has a transverse operating rod connected by a suspension beam, the transverse operating rod protrudes out of the plane of the wind guard, a notch is formed on the material plate corresponding to the suspension beam, the transverse operating rod can move along with the wind guard, the suspension beam can move in the notch, and the transverse operating rod can act on the cut pieces during moving and push the cut pieces to between the rollers of the dust removing mechanism.

8. The automatic dust collector of claim 6, wherein the wind guard has a transverse operating rod connected by a suspension beam, the transverse operating rod protrudes out of the plane of the wind guard, a notch is formed on the material plate corresponding to the suspension beam, the transverse operating rod can move along with the wind guard, the suspension beam can move in the notch, and the transverse operating rod can act on the cut pieces during moving and push the cut pieces to between the rollers of the dust removing mechanism.

9. The automatic dust collector as claimed in claim 8, wherein the feeding frame is inclined to make the cut pieces of clothes inclined forward, and a micro vibration motor is installed at the bottom of the feeding frame.

10. An automatic dust collector as claimed in claim 8, wherein a driving vehicle is provided in the material feeding frame.

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