CN220615220U - Wallhanging printing embossing machine - Google Patents

Abstract

The utility model discloses a wallhanging printing embossing machine, which belongs to the technical field of wallhanging printing, wherein a main body consists of an unreeling roll, a heating unit, an embossing cooling unit, a discharging unit, a draw-off roller and a thermal compensation mechanism, raw wallhanging materials are put in from the unreeling roll, wallhanging on the unreeling roll is pulled by the heating unit to enter the heating unit for heating, the heated wallhanging led out from the heating unit is pulled by the draw-off roller to enter the draw-off roller, the thermal compensation mechanism carries out thermal compensation on the wallhanging conveyed on the draw-off roller, then the wallhanging enters the embossing cooling unit from the draw-off roller for embossing and cooling, and the embossed wallhanging led out from the embossing cooling unit enters the discharging unit for discharging integration.

Description

Wallhanging printing embossing machine

Technical Field

The utility model relates to the technical field of wallhanging printing, in particular to a wallhanging printing embossing machine.

Background

When the prior wallhanging printing embossing machine is used for embossing wallhanging, after the heating unit is used for heating the wallhanging, the wallhanging is directly conveyed to the embossing unit for embossing, the heating unit is generally long in distance from the embossing unit, deformation and heat loss can occur in the wallhanging during the process that the wallhanging is conveyed from the heating unit to the embossing unit, and the embossing quality of the wallhanging can be directly affected by the heat loss.

It can be seen that the prior art is still to be improved.

Disclosure of Invention

The utility model aims to: a wallpapering printing embosser is provided to solve the above problems in the prior art.

In order to solve the technical problems, the utility model provides a wallhanging printing embossing machine, which consists of an unreeling roll, a heating unit, an embossing cooling unit, a discharging unit, a drawing roller and a thermal compensation mechanism, wherein raw wallhanging materials to be processed are put in from the unreeling roll, wallhanging on the unreeling roll is drawn into the heating unit by the heating unit to be heated, the heated wallhanging led out from the heating unit is drawn into the drawing roller by the drawing roller, the thermal compensation mechanism carries out thermal compensation on wallhanging conveyed on the drawing roller, then the wallhanging enters the embossing cooling unit from the drawing roller to be embossed and cooled, and the embossed wallhanging led out from the embossing cooling unit enters the discharging unit to be discharged and integrated.

As a preferred embodiment, the heating unit includes a preheater for preheating the wallcoverings led out from the unreeling roll, and a heater for heating the wallcoverings led out from the preheater.

As a preferable scheme, the distance from the discharge hole of the actual heater to the feed hole of the embossing machine can be set to be two or more, and the separation roller is driven to rotate by a servo motor.

As a preferable scheme, the discharging unit is composed of an edge cutter, a needling machine, a material storage table and a winding machine, embossed wallworks led out from the embossing cooling unit are pulled into the edge cutter by the edge cutter to be cut, the wallworks with cut edges enter the needling machine, the needling machine is used for needling ventilation small holes on the wallworks and then stacking the wallworks on the material storage table, and finally the wallworks are wound up through the winding machine according to actual needs.

As a preferable scheme, the thermal compensation mechanism comprises a fixing frame arranged on one side of the leading-off roller, a thermal compensation cover is arranged on the fixing frame, a lifting module is further arranged on the fixing frame, the thermal compensation cover is driven by the lifting module to move up and down, and in order to enable two ends of the thermal compensation cover to synchronously and symmetrically lift, a balance lifting module for enabling the thermal compensation cover to realize balance lifting is arranged on the fixing frame.

As a preferable scheme, the lifting module comprises a cylinder vertically arranged on the fixing frame, the output end of the cylinder is fixedly connected with a pushing plate, and the pushing plate is fixedly connected with the thermal compensation cover.

As a preferable scheme, the balance lifting module comprises gears arranged at two ends of the thermal compensation cover in the length direction of the leading-out roller, a fixing piece is arranged on the pushing plate, the gears are rotationally connected with the fixing piece, the gears are meshed with the synchronous racks, the synchronous racks are vertically fixed on the fixing frame through mounting plates, and limiting through holes for the synchronous racks to pass through are formed in the thermal compensation cover and the pushing plate.

As a preferable mode, the thermal compensation cover is arranged in an arc shape near one surface of the leading-off roller.

The beneficial effects are that: the utility model relates to a wallhanging printing embosser, when the apparatus begins to work, the wallhanging raw material is put into from the unreeling, the wallhanging on the unreeling is pulled into the heating unit by the heating unit to heat, the wallhanging which is already heated and guided out from the heating unit is pulled into the leading-out roller by the leading-out roller, the thermal compensation mechanism carries on thermal compensation to the wallhanging conveyed on the leading-out roller, then the wallhanging enters the embossing cooling unit from the leading-out roller to emboss and cool, the embossed wallhanging guided out from the embossing cooling unit enters the discharging unit to discharge and integrate; the device is provided with the leading-out roller and the thermal compensation mechanism between the heating unit and the embossing cooling unit, so that deformation and heat loss of wallhanging during the process that wallhanging is conveyed from the heating unit to the embossing unit are avoided, and the reject ratio of wallhanging embossing is greatly reduced.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present utility model.

Fig. 2 is a schematic view of a part of the structure of the present utility model.

FIG. 3 is a schematic diagram of a thermal compensation mechanism according to the present utility model.

Fig. 4 is a schematic view of a part of the thermal compensation mechanism of the present utility model.

The reference numerals in the drawings are as follows: the cloth feeding device comprises a cloth feeding roll 1, a preheater 2, a heater 3, a drawing roller 4, an embossing cooler 5, a trimming machine 6, a needling machine 7, a material storage table 8, a winding machine 9, a thermal compensation mechanism 10, a thermal compensation cover 11, a fixing frame 12, an air cylinder 13, a pushing plate 14, a mounting plate 15, a gear 16, a rack 17, a fixing piece 18 and a limiting through hole 19.

Detailed Description

In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present utility model. It will be apparent, however, to one skilled in the art that the utility model may be practiced without one or more of these details. In other instances, well-known features have not been described in detail in order to avoid obscuring the utility model.

The applicant has found that conventional wallcoverings printing embossers deform and lose heat during the transfer of the wallcoverings from the heating unit to the embossing unit.

For this purpose, the present utility model provides a wallpapering embossing press, please refer to fig. 1 to 4, the apparatus is composed of an unreeling roll 1, a heating unit, an embossing cooling unit 5, a discharging unit, a drawing roller 4, and a thermal compensation mechanism 10, wherein the wallpapering raw material to be processed is put in from the unreeling roll 1, the wallpapering on the unreeling roll 1 is drawn into the heating unit by the heating unit to heat, the heated wallpapering led out from the heating unit is drawn into the drawing roller 4 by the drawing roller 4, the thermal compensation mechanism 10 thermally compensates the wallpapering conveyed on the drawing roller 4, then the wallpapering is drawn into the embossing cooling unit 5 from the drawing roller 4 to emboss and cool, and the embossed wallpapering led out from the embossing cooling unit 5 is drawn into the discharging unit to integrate.

Preferably, the heating unit comprises a preheater 2 for preheating wallcoverings derived from the unwind 1, and a heater 3 for heating wallcoverings derived from the preheater 2.

Preferably, the number of the separation rollers 4 is two or more according to the distance from the discharge port of the actual heater to the feed port of the embosser, and the separation rollers 4 are driven to rotate by a servo motor.

Further, the discharging unit is composed of an edge cutter 6, a needling machine 7, a material storage table 8 and a winding machine 9, embossed wallworks led out from the embossing cooling unit 5 are pulled into the edge cutter 6 by the edge cutter 6 to be cut, the wallworks after the edge cutting enter the needling machine 7, the needling machine 7 is used for needling ventilation small holes on the wallworks and then stacked on the material storage table 8, and finally the wallworks are wound up through the winding machine 9 according to actual needs.

Further, the thermal compensation mechanism 10 includes a fixing frame 12 installed at one side of the separation roller 4, a thermal compensation cover 11 is provided on the fixing frame 12, a lifting module is further provided on the fixing frame 12, the thermal compensation cover 11 is driven by the lifting module to move up and down, and in order to make two ends of the thermal compensation cover 11 synchronously and symmetrically lift, a balancing lifting module is provided on the fixing frame 12, so that the thermal compensation cover 11 realizes balanced lifting.

Further, the lifting module comprises an air cylinder 13 vertically arranged on the fixing frame 12, the output end of the air cylinder 13 is fixedly connected with a pushing plate 14, the pushing plate 14 is fixedly connected with the thermal compensation cover 11, and the thermal compensation cover 11 moves up and down through up and down expansion and contraction of the air cylinder 13.

Further, the balancing lifting module comprises gears 16 arranged at two ends of the thermal compensation cover 11 in the length direction of the separation roller 4, a fixing piece 18 is arranged on the pushing plate 14, the gears 16 are rotationally connected with the fixing piece 18, the gears 16 are meshed with a synchronous rack 17, the synchronous rack 17 is vertically fixed on the fixing frame 12 through a mounting plate 15, and limiting through holes 19 for the synchronous rack 17 to pass through are formed in the thermal compensation cover 11 and the pushing plate 14; the heights of the two ends of the thermal compensation cover 11, which are positioned in the length direction of the leading-out roller 4, are synchronous through the synchronous engagement of the gear and the rack, so that the situation that the heights of the two ends of the thermal compensation cover 11 are unbalanced when the thermal compensation cover 11 is lifted is avoided, and the synchronous rack slides in the limiting through hole 19 in the lifting process of the thermal compensation cover 11, so that the thermal compensation cover 11 is prevented from horizontally rotating.

Preferably, in order to increase the heat generating area of the thermal compensation cover 11 to increase the thermal compensation efficiency, the thermal compensation cover 11 is disposed in an arc shape on a surface close to the take-off roller 4.

The preferred embodiments of the present utility model have been described in detail above with reference to the accompanying drawings, but the present utility model is not limited to the specific details of the above embodiments, and various equivalent changes can be made to the technical solutions of the present utility model within the scope of the technical concept of the present utility model, and these equivalent changes all fall within the scope of the present utility model.

Claims (7)

1. A wallcovering printing embosser comprising:

the cloth unreeling roll is used for storing raw materials of the wall cloth to be processed;

the heating unit is used for heating the wallcovering raw material;

the embossing cooling unit is used for embossing and cooling the heated wallcoverings;

the discharging unit is used for discharging and integrating wallcoverings led out by the embossing cooling unit;

a separation roller disposed between the heating unit and the embossing cooling unit;

the number of the separation rollers is at least two, and the separation rollers are driven to rotate by a servo motor;

and the thermal compensation mechanism is used for thermally compensating the wallcoverings on the drawing-off roller.

2. The wallpapering print embosser of claim 1 wherein the heating unit comprises:

a preheating machine for preheating wallcoverings derived from the unreeling rolls;

and the heater is used for heating the wallcoverings led out from the preheater.

3. The wallcovering printing embosser of claim 1 wherein the outfeed unit comprises:

the edge cutter is used for cutting edges of wallcoverings led out from the embossing cooling unit;

the needling machine is used for needling ventilation holes on the wall cloth with cut edges;

a material storage table for storing wallcoverings led out from the needling machine;

and the winding machine is used for winding the wallpapers stacked on the material storage table.

4. The wallcovering print embosser of claim 1 wherein the thermal compensation mechanism comprises:

the fixing frame is arranged at one side of the separation roller;

the thermal compensation cover is arranged on the fixing frame;

the lifting module is arranged on the fixing frame and used for driving the thermal compensation cover to move up and down;

and the balance lifting module enables the thermal compensation cover to realize balance lifting.

5. The wallpapering print embosser of claim 4 wherein the lifting module comprises:

the cylinder is vertically arranged on the fixing frame;

the output end of the air cylinder is connected with a pushing plate, and the pushing plate is fixedly connected with the thermal compensation cover.

6. The wallpapering print embosser of claim 5 wherein the balancing lift module comprises:

gears arranged at two ends of the thermal compensation cover in the length direction of the leading-out roller;

the device is characterized in that a fixing piece is arranged on the pushing plate, the gear is rotationally connected with the fixing piece, the gear is meshed with the synchronous rack, the synchronous rack is vertically fixed on the fixing frame through a mounting plate, and a limiting through hole for the synchronous rack to pass through is formed in the thermal compensation cover and the pushing plate.

7. A wallcovering printing embosser of claim 5 wherein: the thermal compensation cover is arranged in an arc shape close to one surface of the leading-out roller.