CN105109195A

CN105109195A - Hot-melt adhesive powder distributing mechanism

Info

Publication number: CN105109195A
Application number: CN201510495949.8A
Authority: CN
Inventors: 张国荣; 张利华; 曹明昌
Original assignee: Changxing Sanmass Textile Co Ltd
Current assignee: Taicang Taibang Electronic Technology Co., Ltd.
Priority date: 2015-08-13
Filing date: 2015-08-13
Publication date: 2015-12-02
Anticipated expiration: 2035-08-13
Also published as: CN105109195B

Abstract

The invention discloses a hot-melt adhesive powder distributing mechanism. The mechanism comprises a rack, a hopper, a vibrating screen motor, an infrared sensing device, a driven rotating shaft, a hot-melt adhesive powder recovering bucket, a wind-driven powder separator, a blast pipe, a negative pressure fan, a rotating shaft motor, a drive rotating shaft, a conveyor belt, a control device, a vibrating screen and air holes. According to the hot-melt adhesive powder distributing mechanism, the conveyor belt of the traditional hot-melt adhesive powder distributing machine is replaced by the conveyor belt with a plurality of air holes, and the hot-melt adhesive powder recovering bucket and the negative pressure fan are arranged below the conveyor belt, so that a coiled fabric material can be flattened on the surface of the conveyor belt through the negative pressure fan and the conveyor belt with the plurality of air holes, and as a result, the hot-melt adhesive powder can be uniformly distributed; in addition, a screening structure of the vibrating screen is added to the hopper of the traditional hot-molt machine, and thus the phenomenon that the hopper is blocked by the hot-melt adhesive powder can be avoided.

Description

A kind of thermosol dusting mechanism

[technical field]

The present invention relates to the technical field of thermosol duster, particularly a kind of technical field of thermosol dusting mechanism.

[background technology]

Word on current clothes and pattern normally adopt the mode of hot transfer printing to be attached on clothes.This just needs first to become heat transfer label for clothing factory with design producing word, in making heat transfer label process, reliably being attached on ink by hot-melt adhesive powder is the key ensureing heat transfer label quality, the transport tape of traditional PUR duster does not offer pore, if therefore run into clothes or fabric has curling situation, just be difficult to thermal fusing powder to sprinkle even, thus affect the total quality of fabric; General without reciprocating sieve in the hopper of traditional hot-melt adhesive duster, therefore the hopper of traditional hot-melt adhesive duster is easy to the clogging that thermal fusing powder occurs.

[summary of the invention]

Object of the present invention is exactly to solve the problems of the prior art, a kind of thermosol dusting mechanism is proposed, the present invention passes through the conveyer belt of traditional thermosol duster, change the conveyer belt with several pores into, and below conveyer belt, be provided with thermal fusing powder recovery hopper and negative-pressure air fan, so just by negative-pressure air fan with the conveyer belt of several pores, the surface of curling fabric at conveyer belt has been shakeout, thus it is even just thermal fusing powder to be made to sprinkle; The present invention also by adding the sieve material structure of reciprocating sieve in the hopper of conventional hot melt machine, thus avoids the clogging of thermal fusing powder in hopper.

For achieving the above object, the present invention proposes a kind of thermosol dusting mechanism, comprise the frame of duster, hopper, reciprocating sieve motor, infrared induction device, driven spindle, thermal fusing powder reclaims hopper, wind powder separator, blast pipe, negative-pressure air fan, rotating shaft electric motor, active rotating shaft, feed belt, control device, reciprocating sieve and pore, described hopper is directly installed in the frame of duster, described reciprocating sieve is arranged in hopper, described reciprocating sieve motor is directly connected with the main shaft of reciprocating sieve, described infrared induction device is directly installed on the inside of the frame of duster, described driven spindle and material-falling hopper are directly installed on the machine frame inside of duster, one end of described wind powder separator is directly connected with material-falling hopper, the other end of described wind powder separator is directly connected with negative-pressure air fan by blast pipe, described rotating shaft electric motor is connected with active rotating shaft by gear, described feed belt is directly enclosed within driven spindle and active rotating shaft, and described control device is direct and infrared induction device by wire, negative-pressure air fan, rotating shaft electric motor is connected with reciprocating sieve motor, described feed belt has several pores.

As preferably, described hopper is divided into upper, middle and lower three part, the cross sectional shape of described hopper upper part is infundibulate, the mid portion of described hopper is rectangular structure, the cross sectional shape of the lower part of described hopper is also infundibulate, described reciprocating sieve is arranged on the mid portion of hopper, and leaves enough bump clearances between the inwall of described hopper mid portion and reciprocating sieve.

As preferably, intensively on described feed belt have several pores, and that pore is directly 2mm-3mm, the junction of the frame of described material-falling hopper and duster is seamless link.

As preferably, described control device is provided with negative-pressure air fan shift knob, the adjustment of negative pressure wind pectinid power button, rotating shaft electric motor control button, reciprocating sieve Electric Machine Control button and negative-pressure air fan arrange button running time, described wind powder separator also offers the feed opening of PUR.

Beneficial effect of the present invention: the present invention passes through the conveyer belt of traditional thermosol duster, change the conveyer belt with several pores into, and below conveyer belt, be provided with thermal fusing powder recovery hopper and negative-pressure air fan, so just by negative-pressure air fan with the conveyer belt of several pores, the surface of curling fabric at conveyer belt has been shakeout, thus it is even just thermal fusing powder to be made to sprinkle; The present invention also by adding the sieve material structure of reciprocating sieve in the hopper of conventional hot melt machine, thus avoids the clogging of thermal fusing powder in hopper.

Feature of the present invention and advantage will be described in detail by reference to the accompanying drawings by embodiment.

[accompanying drawing explanation]

Fig. 1 is the structural representation of a kind of thermosol dusting mechanism of the present invention;

Fig. 2 is the structural representation of feed belt of the present invention.

In figure: the frame of 1-duster, 2-hopper, 3-reciprocating sieve motor, 4-infrared induction device, 5-driven spindle, 6-thermal fusing powder reclaim hopper, 7-wind powder separator, 8-blast pipe, 9-negative-pressure air fan, 10-rotating shaft electric motor, 11-active rotating shaft, 12-feed belt, 13-control device, 14-reciprocating sieve, 15-pore.

[detailed description of the invention]

Consult Fig. 1 and Fig. 2, a kind of thermosol dusting of the present invention mechanism, comprise the frame 1 of duster, hopper 2, reciprocating sieve motor 3, infrared induction device 4, driven spindle 5, thermal fusing powder reclaims hopper 6, wind powder separator 7, blast pipe 8, negative-pressure air fan 9, rotating shaft electric motor 10, active rotating shaft 11, feed belt 12, control device 13, reciprocating sieve 14 and pore 15, described hopper 2 is directly installed in the frame 1 of duster, described reciprocating sieve 14 is arranged in hopper 2, described reciprocating sieve motor 3 is directly connected with the main shaft of reciprocating sieve 14, described infrared induction device 4 is directly installed on the inside of the frame 1 of duster, the frame 1 that described driven spindle 5 and material-falling hopper 6 are directly installed on duster is inner, one end of described wind powder separator 7 is directly connected with material-falling hopper 6, the other end of described wind powder separator 7 is directly connected with negative-pressure air fan 9 by blast pipe 8, described rotating shaft electric motor 10 is connected with active rotating shaft 11 by gear, described feed belt 12 is directly enclosed within driven spindle 5 and active rotating shaft 11, described control device 13 is direct and infrared induction device 4 by wire, negative-pressure air fan 9, rotating shaft electric motor 10 is connected with reciprocating sieve motor 3, described feed belt 12 has several pores 15, described hopper 2 is divided into upper, middle and lower three part, the cross sectional shape of described hopper 2 upper part is infundibulate, the mid portion of described hopper 2 is rectangular structure, the cross sectional shape of the lower part of described hopper 2 is also infundibulate, described reciprocating sieve 14 is arranged on the mid portion of hopper 2, and leave enough bump clearances between the inwall of described hopper 2 mid portion and reciprocating sieve 14, intensively on described feed belt 12 have several pores 15, and that pore is directly 2mm-3mm, described material-falling hopper 6 is seamless link with the junction of the frame 1 of duster, 4. described in, control device 13 is provided with negative-pressure air fan shift knob, negative pressure wind pectinid power adjustment button, rotating shaft electric motor control button, reciprocating sieve Electric Machine Control button and negative-pressure air fan arrange button running time, described wind powder separator 7 also offers the feed opening of PUR.

The course of work of the present invention:

The course of work of a kind of thermosol dusting of the present invention mechanism, first the cycle of operation of each negative-pressure air fan is set by control device 13, then started respectively by control device 13: infrared induction device 4, negative-pressure air fan 9, rotating shaft electric motor 10 and reciprocating sieve motor 3, then thermal fusing powder is added in material bin 2, subsequently fabric is placed on feed belt 12, when fabric moves to below infrared induction device 4, control device 13 will start negative-pressure air fan 9, because curling fabric shakeouts on feed belt 12 by the comprehensive function of negative-pressure air fan 9 and the leachy feed belt 12 of band, simultaneously thermal fusing powder is due to the comprehensive function of self gravitation and reciprocating sieve 14, thermal fusing powder is sprinkling upon the web surface shakeout, finally unnecessary thermal fusing powder reclaims hopper 6 by thermal fusing powder, the comprehensive function of wind powder separator 7 and negative-pressure air fan 9 is flowed out from the feed opening of wind powder separator 7, thus complete the whole course of work.

The present invention passes through the conveyer belt of traditional thermosol duster, change the conveyer belt with several pores into, and below conveyer belt, be provided with thermal fusing powder recovery hopper and negative-pressure air fan, so just by negative-pressure air fan with the conveyer belt of several pores, the surface of curling fabric at conveyer belt has been shakeout, thus it is even just thermal fusing powder to be made to sprinkle; The present invention also by adding the sieve material structure of reciprocating sieve in the hopper of conventional hot melt machine, thus avoids the clogging of thermal fusing powder in hopper.

Above-described embodiment is to explanation of the present invention, is not limitation of the invention, anyly all belongs to protection scope of the present invention to the scheme after simple transformation of the present invention.

Claims

1. a thermosol dusting mechanism, it is characterized in that: the frame (1) comprising duster, hopper (2), reciprocating sieve motor (3), infrared induction device (4), driven spindle (5), thermal fusing powder reclaims hopper (6), wind powder separator (7), blast pipe (8), negative-pressure air fan (9), rotating shaft electric motor (10), active rotating shaft (11), feed belt (12), control device (13), reciprocating sieve (14) and pore (15), described hopper (2) is directly installed in the frame (1) of duster, described reciprocating sieve (14) is arranged in hopper (2), described reciprocating sieve motor (3) is directly connected with the main shaft of reciprocating sieve (14), described infrared induction device (4) is directly installed on the inside of the frame (1) of duster, the frame (1) that described driven spindle (5) and material-falling hopper (6) are directly installed on duster is inner, one end of described wind powder separator (7) is directly connected with material-falling hopper (6), the other end of described wind powder separator (7) is directly connected with negative-pressure air fan (9) by blast pipe (8), described rotating shaft electric motor (10) is connected with active rotating shaft (11) by gear, described feed belt (12) is directly enclosed within driven spindle (5) and active rotating shaft (11), described control device (13) is direct and infrared induction device (4) by wire, negative-pressure air fan (9), rotating shaft electric motor (10) is connected with reciprocating sieve motor (3), described feed belt (12) has several pores (15).

2. a kind of thermosol dusting mechanism as claimed in claim 1, it is characterized in that: described hopper (2) is divided into upper, middle and lower three part, the cross sectional shape of described hopper (2) upper part is infundibulate, the mid portion of described hopper (2) is rectangular structure, the cross sectional shape of the lower part of described hopper (2) is also infundibulate, described reciprocating sieve (14) is arranged on the mid portion of hopper (2), and leaves enough bump clearances between the inwall of described hopper (2) mid portion and reciprocating sieve (14).

3. a kind of thermosol dusting mechanism as claimed in claim 1, it is characterized in that: described feed belt (12) is upper intensive has several pores (15), and that pore is directly 2mm-3mm, described material-falling hopper (6) is seamless link with the junction of the frame (1) of duster.

4. a kind of thermosol dusting mechanism as claimed in claim 1, it is characterized in that: the cycle of operation that described control device (13) is provided with negative-pressure air fan shift knob, negative pressure wind pectinid power adjusts button, rotating shaft electric motor control button, reciprocating sieve Electric Machine Control button and negative-pressure air fan arranges button, described wind powder separator (7) also offers the feed opening of PUR.