CN210002088U - Steam thermal shrinkage device - Google Patents

Abstract

The utility model discloses an steam pyrocondensation device this steam pyrocondensation device includes workstation, guiding mechanism, slide mechanism, actuating mechanism and the steam mould that generates heat, be equipped with on the workstation and be used for supplying the cut-parts to put the shop position of putting, guiding mechanism establishes just be close to in put the shop position on the workstation, slide mechanism sliding connection is in on the guiding mechanism, actuating mechanism installs on the workstation and connect in slide mechanism, actuating mechanism is used for the drive slide mechanism removes, the steam mould that generates heat is connected slide mechanism is last, the steam mould that generates heat has the steam chamber, the lower bottom surface orientation of the steam mould that generates heat put shop position and its lower bottom surface have a plurality of communicate in the steam orifice of steam chamber this steam pyrocondensation device can improve cut-parts embroidery stereoeffect and production efficiency height.

Description

Steam thermal shrinkage device

Technical Field

The utility model relates to a textile sector especially relates to kinds of steam pyrocondensation devices.

Background

In the textile field, the cut-parts after having usually required to have embroidered in the embroidery technology present the stereoeffect, cut-parts present stereoeffect and half add kinds of thermal shrinkage plain strips that contain the three-dimensional glue at the embroidery in-process, reuse industry electric steam iron heating 200 ℃ after and aim at the embroidery position and heat, so that contain the stereoeffect on the thermal shrinkage plain strip and soak in the pinhole of embroidery stitch, in actual operation process, need the manual work to drive industry electric steam iron removal repeatedly, manual operation wastes time and energy, low in production efficiency.

SUMMERY OF THE UTILITY MODEL

Based on this, it is necessary to provide kinds of steam heat shrinking devices which can save labor and improve production efficiency.

steam thermal shrinkage device comprises a workbench, a guide mechanism, a sliding mechanism, a driving mechanism and a heating steam mold, wherein the workbench is provided with a laying station for laying cut pieces, the guide mechanism is arranged on the workbench and close to the laying station, the sliding mechanism is connected to the guide mechanism in a sliding manner, the driving mechanism is arranged on the workbench and connected to the sliding mechanism, the driving mechanism is used for driving the sliding mechanism to move, the heating steam mold is connected to the sliding mechanism, the heating steam mold is provided with a steam cavity, the lower bottom surface of the heating steam mold faces the laying station, and the lower bottom surface of the heating steam mold is provided with a plurality of steam spray holes communicated with the steam cavity.

In of these examples, the placement station had a plurality of suction holes.

In embodiments, the steam thermal shrinkage device further comprises an air suction mechanism, the air suction mechanism is communicated with the air suction hole, and the air suction mechanism can suck air through the air suction hole.

In embodiments, the steam thermal shrinkage device further comprises a steam pipe connected to the heat-generating steam mold and communicated with the steam cavity, and a control valve provided on the steam pipe for opening or closing the steam pipe.

In of these embodiments, the control valve is a solenoid valve.

In embodiments, the steam thermal shrinkage device further comprises an input display mechanism, the input display mechanism is arranged on the workbench, and the input display mechanism is connected to the driving mechanism and the control valve through a control mechanism.

In embodiments, the steam thermal shrinkage device further comprises an activation mechanism, the activation mechanism comprises a th activation button and a second activation button which are electrically connected to the control mechanism, when the th activation button and the second activation button are simultaneously opened, the control valve is opened and the driving mechanism is activated.

In of these embodiments, the slide mechanism includes a slide block slidably attached to the guide mechanism and a slide arm attached to the slide block, the slide arm extending above the lay-down station, the heat-generating steam mold being attached to the slide arm.

In of these embodiments, the heat-generating steam mold was removably attached to the slide arm.

In of these embodiments, the guide mechanism is a slide rail.

Above-mentioned steam pyrocondensation device can be arranged in embroidering technology with to the cut-parts preparation stereoeffect after having embroidered, and stereoeffect is good, degree of automation is high, use manpower sparingly, and production efficiency is high compare in traditional staff operation, the utility model discloses an in the aspect of steam pyrocondensation device practice thrift the manpower, improved production efficiency, in addition aspect, actuating mechanism drives the steam mould that generates heat at the uniform velocity reciprocating motion, can realize the homogeneity that steam sprayed, promotes the stereoeffect of cut-parts embroidery position.

Above-mentioned steam pyrocondensation device can realize fixing the absorption of laying the cut-parts on the station through laying station department and being provided with a plurality of holes of induced drafting, avoids the cut-parts to remove, effectively guarantees steam and to spraying of cut-parts, promotes the three-dimensional effect of cut-parts.

Above-mentioned steam pyrocondensation device realizes the control to steam spray state through setting up steam pipe and control valve, and after the cut-parts are taken one's place, can improve the stability of production through opening or closing of control valve control steam pipe.

Above-mentioned steam pyrocondensation device can realize man-machine interaction through setting up input display mechanism, and the operation workman inputs the corresponding production data of cut-parts through input display mechanism, and the corresponding data in the production process shows through input display mechanism, and the operating personnel of being convenient for observes.

The starting mechanism comprises an th starting button and a second starting button which are electrically connected with the control mechanism, when the th starting button and the second starting button are simultaneously started, the control valve is started, the driving mechanism is started, and the safety of operation is effectively improved through simultaneous control of the two th starting buttons and the second starting button.

Drawings

FIG. 1 is a schematic view of a steam shrinking device according to an embodiment.

Description of the reference numerals

10: a steam thermal shrinkage device, 100: a workbench, 110: an air suction hole, 200: a guide mechanism, 300: a sliding mechanism, 310: a sliding seat, 320: a sliding arm, 330: a connecting seat, 400: a driving mechanism, 500: a heating steam mold, 600: an input display mechanism, 700: a starting mechanism, 710: an th starting button, 720: a second starting button, 810: a steam pipe, 820: a control valve.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It is noted that when an element is referred to as being "secured to" another elements, it may be directly secured to another elements or intervening elements may be present as well. 0 elements are referred to as being "coupled" to another elements, it may be directly coupled to another elements or intervening elements may be present at the same time. elements are referred to as being "mounted" to another elements, it may be directly mounted to another elements or intervening elements may be present at the same time. elements are referred to as being "disposed" to another elements, it may be directly disposed to another elements or intervening elements may be present at the same time.

The terminology used herein in the description of the present invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention, the terminology used herein "and/or" includes any and all combinations of or more of the associated listed items.

Referring to fig. 1, an embodiment of the present invention provides steam heat-shrinking device 10, which includes a workbench 100, a guiding mechanism 200, a sliding mechanism 300, a driving mechanism 400, a heat-generating steam mold 500, and a control mechanism.

The workbench 100 is provided with a laying station for laying cut pieces. The guide mechanism 200 is provided on the table 100 and close to the laying station. The sliding mechanism 300 is slidably coupled to the guide mechanism 200.

The driving mechanism 400 is mounted on the table 100 and connected to the sliding mechanism 300 for driving the sliding mechanism 300 to move. The control mechanism is electrically connected to the driving mechanism 400.

The heat-generating steam mold 500 is coupled to the sliding mechanism 300, and the heat-generating steam mold 500 has a steam cavity. The heating steam mold 500 is connected with an external steam source, the lower bottom surface of the heating steam mold 500 faces the laying station, and the lower bottom surface of the heating steam mold is provided with a plurality of steam jet holes communicated with the steam cavity.

According to the specific example , the laying station is provided with a plurality of air suction holes 110, preferably, the air suction holes 110 are uniformly distributed at the laying station, the steam thermal shrinkage device 10 can realize adsorption and fixation of the cut pieces on the laying station through the air suction holes 110 arranged at the laying station, so that the cut pieces are prevented from moving, spraying of steam to the cut pieces is effectively guaranteed, the three-dimensional effect of the cut pieces is improved, in addition, the arrangement of the air suction holes 110 can also assist the steam part sprayed out from the steam spray holes of the heating steam mold 500 to be shunted into the air suction holes 110, and the impact of the steam to the cut pieces is reduced.

, the steam thermal shrinkage device 10 further comprises an air suction mechanism, wherein the air suction mechanism is connected to the air suction hole 110, the air suction mechanism can suck air through the air suction hole 110, and the control mechanism is electrically connected to the air suction mechanism.

Optionally, the steam heat-shrinkable device 10 further includes a steam pipe 810 and a control valve 820, wherein an end of the steam pipe 810 is connected to the heat-generating steam mold 500 and communicated with the steam cavity, another end of the steam pipe 810 is connected to a steam source, wherein the steam from the steam source may be steam with a predetermined temperature, the control valve 820 is disposed on the steam pipe 810 for opening or closing the steam pipe 810, the control mechanism is electrically connected to the control valve 820, the steam heat-shrinkable device 10 controls the spraying state of the steam by disposing the steam pipe 810 and the control valve 820, and when the cut pieces are in place, the opening or closing of the steam pipe 810 can be controlled by the control valve 820, so as to improve the production stability.

Preferably, the steam thermal shrinkage device 10 further comprises a heating mechanism, the heating mechanism comprises a heating pipe and a temperature detector, the heating pipe and the temperature detector are not shown in fig. 1, the heating pipe is arranged in the steam cavity, an end of the heating pipe is communicated with the steam pipe 810, the other end of the heating pipe faces the steam cavity, the heating pipe is made of metal materials, such as iron, copper or aluminum, and the temperature detector is connected to the control mechanism for detecting the temperature of the steam flowing out of an outlet of the heating pipe.

, the steam tube 810 may be a rubber tube, bellows, or other conduit, and the steam tube 810 has bending properties and can withstand a temperature of degrees.

Optionally, the control valve 820 is an electromagnetic valve, and the setting of the electromagnetic valve can improve the automation degree of control, reduce manual participation operation, and improve the accuracy and convenience of operation.

, the steam thermal shrinkage device 10 further comprises an input display mechanism 600, the input display mechanism 600 is disposed on the worktable 100, the input display mechanism 600 is connected to the driving mechanism 400 and the control valve 820 through a control mechanism, the control mechanism is electrically connected to the input display mechanism 600, the steam thermal shrinkage device 10 can realize human-computer interaction through the input display mechanism 600, an operator inputs corresponding production data of cut pieces through the input display mechanism 600, and the corresponding data in the production process is displayed through the input display mechanism 600, so that the operator can observe the data conveniently.

, the input display mechanism 600 includes a touch display screen and a heating switch electrically connected to the control mechanism, the touch display screen can be written in by touch and can display related data, when the heating switch is turned on, the touch display screen displays a temperature input frame, and an operator can write in a predetermined temperature through the touch display screen, i.e. the heating temperature of the heating component can be controlled by the control mechanism.

, the heat shrink device 10 further comprises an activation mechanism 700. the activation mechanism 700 comprises a th activation button 710 and a second activation button 720 electrically connected to the control mechanism, and when the th activation button 710 and the second activation button 720 are simultaneously activated, the control valve 820 is activated and the driving mechanism 400 is activated. the control mechanism is electrically connected to the th activation button 710 and the second activation button 720. the heat shrink device 10 is effective to protect the safety of the worker by providing the activation mechanism 700. the activation mechanism 700 comprises a th activation button 710 and a second activation button 720 electrically connected to the control mechanism, and when the th activation button 710 and the second activation button 720 are simultaneously activated, the control valve 820 is activated and the driving mechanism 400 is activated, and the simultaneous control of the two th activation buttons 710 and the second activation button 720 is effective to improve the safety of the operation.

, the slide mechanism 300 includes a slide block 310 slidably coupled to the guiding mechanism 200 and a slide arm 320 coupled to the slide block 310. the slide arm 320 extends above the depositing station and the heat-generating steam mold 500 is coupled to the slide arm 320.

In the specific example of , the heat-generating steam mold 500 is removably coupled to the slide arm 320.

, the sliding mechanism 300 further includes a connecting seat 330, the connecting seat 330 is connected to the outward end of the sliding arm 320, and the top of the heat-generating steam mold 500 is connected to the connecting seat 330 by a plurality of fasteners, wherein the fasteners are threadedly connected to the connecting seat 330, the fasteners may be fastening bolts, and the fasteners are inserted through the top of the heat-generating steam mold 500 and the connecting seat 330 and threadedly connected to the top of the heat-generating steam mold 500 and the connecting seat 330.

The sliding arm 320 is elongated, and it is understood that in other embodiments, the structure and shape of the sliding arm 320 is not limited to the above, and the structure and shape of the sliding arm 320 may also be rod-shaped, tubular, etc.

Optionally, the guiding mechanism 200 is a slide rail, the arrangement of the slide rail improves the guiding accuracy, and the slide rail is easy to obtain and machine-shaping.

When the steam thermal shrinkage device 10 is used, the method comprises the following steps:

the cut pieces are placed on a laying station on the workbench 100, and are laid neatly by manual assistance. The control mechanism controls the air suction mechanism to work, and the air suction mechanism sucks air through the air suction hole 110 to fix the cut pieces.

The worker inputs process parameters, such as the driving speed of the driving mechanism 400, the heating temperature of the heating mechanism, and the like, through the touch display screen. The control mechanism controls the heating mechanism to heat to a preset temperature.

The workman opens start button 710 and second start button 720 simultaneously, and control mechanism control actuating mechanism 400 drive slide mechanism 300 along guiding mechanism 200 reciprocating motion, and simultaneously, control mechanism starts the control valve, and the steam in the steam source is spout through the steam hole, realizes spraying cutting pieces reciprocating, promotes the three-dimensional effect of cutting piece embroidery position.

Steam pyrocondensation device 10 that this embodiment relates to can be arranged in embroidering technology with the cut-parts preparation stereoeffect after having embroidered, and the stereoeffect is good, degree of automation is high, use manpower sparingly, and production efficiency is high compare in traditional staff operation, the utility model discloses an aspect has practiced thrift the manpower in steam pyrocondensation device 10 , has improved production efficiency, and in the aspect of in addition, actuating mechanism 400 drives the steam mould 500 reciprocating motion at the uniform velocity that generates heat, can realize steam spray's homogeneity, promotes the stereoeffect of cut-parts embroidery position.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. The steam thermal shrinkage device is characterized by comprising a workbench, a guiding mechanism, a sliding mechanism, a driving mechanism and a heating steam mold, wherein a laying station for laying cut pieces is arranged on the workbench, the guiding mechanism is arranged on the workbench and close to the laying station, the sliding mechanism is connected to the guiding mechanism in a sliding mode, the driving mechanism is arranged on the workbench and connected to the sliding mechanism, the driving mechanism is used for driving the sliding mechanism to move, the heating steam mold is connected to the sliding mechanism, the heating steam mold is provided with a steam cavity, and the lower bottom surface of the heating steam mold faces the laying station and is provided with a plurality of steam spray holes communicated with the steam cavity.
2. 2. The steam heat-shrinking device according to claim 1, wherein the laying station has a plurality of air suction holes.
3. 3. The apparatus of claim 2, further comprising an air suction mechanism, wherein the air suction mechanism is connected to the air suction hole, and the air suction mechanism is capable of sucking air through the air suction hole.
4. 4. The steam heat shrink device of any one of claims 1-3 and , further comprising a steam tube connected to the heat generating steam die and in communication with the steam cavity, and a control valve provided on the steam tube for opening or closing the steam tube.
5. 5. The steam shrinking device of claim 4, wherein the control valve is a solenoid valve.
6. 6. The apparatus of claim 4, further comprising an input display mechanism disposed on the table, the input display mechanism being connected to the drive mechanism and the control valve via a control mechanism.
7. 7. The apparatus of claim 6 further comprising an activation mechanism including an th activation button electrically connected to the control mechanism and a second activation button, wherein when the th activation button and the second activation button are simultaneously activated, the control valve is activated and the drive mechanism is activated.
8. 8. The steam heat shrinking device of any one of claims 1-3 to , wherein the sliding mechanism comprises a slider block slidably attached to the guiding mechanism and a slider arm attached to the slider block, the slider arm extending above the placement station, the heat-generating steam die being attached to the slider arm.
9. 9. The steam heat-shrinking device of claim 8, wherein the heat-generating steam mold is detachably connected to the sliding arm.
10. 10. The apparatus according to any of wherein the guide means is a slide.