CN216099162U - Thermal-insulated cotton non-woven fabrics layer feed arrangement - Google Patents

Abstract

The utility model belongs to the field of heat insulation cotton production, and discloses a non-woven fabric layer feeding device for heat insulation cotton, which comprises an unwinding roller for winding a non-woven fabric layer and a workbench arranged on one side of the unwinding roller; the end part of the non-woven fabric on the unwinding roller extends to one end of the workbench, and the non-woven fabric unwinding device further comprises an adsorption piece for adsorbing the end part of the non-woven fabric layer, a first driving module for driving the adsorption piece to move between the two ends of the workbench in a reciprocating mode, a pressing plate and a circular cutter which can lift in a reciprocating mode, and a second driving module for driving the circular cutter to cut along the width direction of the non-woven fabric layer; the pressing plate and the adsorption piece are both positioned on the upper side of the workbench, and the circular cutter penetrates through the workbench and is positioned on the lower side of the workbench; this scheme can realize the non-woven fabrics automatic feed and the high quality cutting in thermal-insulated cotton, improves production efficiency.

Description

Thermal-insulated cotton non-woven fabrics layer feed arrangement

Technical Field

The utility model relates to the field of heat insulation cotton production, in particular to a non-woven fabric layer feeding device for heat insulation cotton.

Background

The heat insulation cotton has the characteristics of high temperature resistance, difficult combustion, low heat conductivity coefficient and the like, and the heat insulation cotton widely applied to industry at present is processed and produced by adopting glass fiber as a material, such as glass fiber cotton and glass cotton; the glass fiber is the filling layer in the heat insulation cotton, the upper surface layer and the lower surface layer are non-woven fabric layers, and the filling layer is positioned between the non-woven fabric layers.

Thermal-insulated cotton production process does, superpose the filling layer on the non-woven fabrics layer, superpose the non-woven fabrics layer again, carry out hot briquetting at last, before the stack filling layer, need use and tailor cutting equipment and tailor the cutting to the non-woven fabrics, the specific structure that should tailor cutting equipment can refer to patent application No. 202020291158. X's technical scheme, it discloses a textile fabric shearing mechanism, comprises a workbench, control aircraft nose and shearing sword, electromagnetic chuck is installed to the bottom of clamp plate, and electromagnetic chuck is located the workstation inboard and embedded in the surperficial both ends department of workstation, the inside central authorities of workstation still are provided with the shearing groove corresponding with the shearing sword, slidable mounting has the fixation clamp in the spout, install the suction fan on the surface of shearing case, the end connection that the suction fan was inboard towards the shearing case has the exhaust column.

Above-mentioned this scheme utilizes the upside reciprocating motion of shearing sword at the workstation, cuts the cloth on the workstation, but the device can't automatic feed, and the cloth needs the manual work to lay on the workstation, complex operation, and is consuming time longer, leads to production efficiency lower.

Therefore, the problem is solved by the scheme, the automatic feeding and the high-quality cutting of the non-woven fabric in the heat insulation cotton are realized, and the production efficiency is improved.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a non-woven fabric layer feeding device of heat insulation cotton, which realizes automatic feeding and high-quality cutting of non-woven fabrics in the heat insulation cotton and improves the production efficiency.

The technical scheme provided by the utility model is as follows: a non-woven fabric layer feeding device of heat insulation cotton comprises an unwinding roller for winding a non-woven fabric layer and a workbench arranged on one side of the unwinding roller; the end part of the non-woven fabric on the unwinding roller extends to one end of the workbench, and the non-woven fabric unwinding device further comprises an adsorption piece for adsorbing the end part of the non-woven fabric layer, a first driving module for driving the adsorption piece to move between the two ends of the workbench in a reciprocating mode, a pressing plate and a circular cutter which can lift in a reciprocating mode, and a second driving module for driving the circular cutter to cut along the width direction of the non-woven fabric layer; the pressing plate and the adsorption piece are both positioned on the upper side of the workbench, and the circular cutter penetrates through the workbench and is positioned on the lower side of the workbench; when the end part of the non-woven fabric layer extends to the other end of the workbench, the pressing plate presses the non-woven fabric layer down onto the workbench so that the circular cutter can cut the non-woven fabric layer.

In the non-woven fabric layer feeding device of the heat insulation cotton, the adsorption piece is of a plate-shaped hollow structure and is communicated with an external vacuum extractor; the lower surface of the adsorption piece is provided with a plurality of air suction holes.

In the non-woven fabric layer feeding device of the heat insulation cotton, the lower surface of the adsorption piece is provided with the buffer layer, and the air suction holes penetrate through the buffer layer; the adsorption piece extends along the width direction of the non-woven fabric layer and extends to the outer side of the non-woven fabric layer.

The non-woven fabric layer feeding device for the heat insulation cotton further comprises a guide rail for guiding the first driving module to reciprocate between two ends of the workbench; first drive module and guide rail sliding fit, be equipped with the third drive module that the drive adsorbs the reciprocal lift of piece between adsorbing piece and the first drive module.

In the non-woven fabric layer feeding device for the heat insulation cotton, the pressing plates are respectively arranged at the edges of two sides of the workbench and are positioned at two axial sides of the circular cutter; the two sides of the pressure plate extend towards the corresponding ends of the workbench respectively.

In the above nonwoven fabric layer feeding device for heat insulation cotton, the blade of the circular cutter is provided with saw teeth in a surrounding manner.

In the non-woven fabric layer feeding device for the heat insulation cotton, a strip-shaped hole is formed in the workbench and is positioned right above the circular cutter; the strip-shaped holes extend along the width direction of the non-woven fabric and extend to the outer side of the non-woven fabric.

In the above nonwoven fabric layer feeding device for heat insulation cotton, a fourth driving module for driving the circular cutter to reciprocate is arranged between the circular cutter and the second driving module.

In the above-mentioned nonwoven fabric layer feeding device for heat insulation cotton, the workbench is provided with supporting legs and a flange located at the bottom of the supporting legs, and the flange is fixedly connected with the ground through bolts.

In the above nonwoven fabric layer feeding device for heat insulation cotton, a cushion pad is arranged between the flange and the ground.

After the technical scheme is adopted, the utility model has the beneficial effects that:

the scheme is characterized in that a workbench, an adsorption piece, a pressing plate and a circular cutter are arranged and matched with each other, the end part of a non-woven fabric on a unreeling roller is pulled to one end of the workbench in a manual mode, the adsorption piece is driven to move to the upper side of one end of the workbench, namely, the end part of a non-woven fabric layer is right above the end part of the non-woven fabric layer by a first driving module, the adsorption piece is driven to descend by a third driving module and is attached to the upper surface of the non-woven fabric layer, the adsorption piece adsorbs the end part of the non-woven fabric layer, the adsorption piece drives the adsorption piece to move towards the other end of the workbench, the adsorption piece drags the non-woven fabric layer to move, after the end part of the non-woven fabric layer reaches the other end of the workbench, the adsorption piece stops adsorbing and returns to the initial position, the non-woven fabric layer is pressed on the workbench by the pressing plate, the circular cutter ascends and penetrates through the workbench, the circular cutter is driven to cut along the width direction of the non-woven fabric layer by a second driving module, and then returns to the initial position, and a working cycle is completed, the automatic feeding and high-quality cutting of the non-woven fabric in the heat insulation cotton are realized, and the production efficiency is improved.

Drawings

FIG. 1 is a schematic view showing the structure of a nonwoven fabric layer feeding device for thermal insulation cotton of example 1 of the present invention;

fig. 2 is a schematic view showing the assembly of the table and the suction member according to embodiment 1 of the present invention.

Reference numerals: 1. unwinding rollers; 2. a guide rail; 3. a first driving module; 4. a third driving module; 5. an adsorbing member; 6. a work table; 7. pressing a plate; 8. a suction hole; 9. a circular cutter; 10. a fourth driving module; 11. a second driving module; 12. a strip-shaped hole; 13. supporting legs; 14. a flange; 15. a cushion pad.

Detailed Description

The technical solution of the present invention will be described in further detail with reference to the following embodiments, but the present invention is not limited thereto.

Example 1:

as shown in fig. 1-2, a non-woven fabric layer feeding device of heat insulation cotton comprises an unwinding roller 1 for winding a non-woven fabric layer, a working table 6 arranged at one side of the unwinding roller 1; the end part of the non-woven fabric on the unwinding roller 1 extends to one end of a workbench 6, and the unwinding roller further comprises an adsorption piece 5 for adsorbing the end part of the non-woven fabric layer, a first driving module 3 for driving the adsorption piece 5 to move between two ends of the workbench 6 in a reciprocating manner, a pressing plate 7 and a circular cutter 9 which can lift in a reciprocating manner, and a second driving module 11 for driving the circular cutter 9 to cut along the width direction of the non-woven fabric layer; the pressing plate 7 and the adsorption piece 5 are both positioned on the upper side of the workbench 6, and the circular cutter 9 penetrates through the workbench 6 and is positioned on the lower side of the workbench 6; when the end of the non-woven fabric layer extends to the other end of the workbench 6, the pressing plate 7 presses the non-woven fabric layer down onto the workbench 6 so that the circular cutter 9 can cut the non-woven fabric layer.

The operation process comprises the steps that through the mutual matching of the workbench 6, the adsorption piece 5, the pressing plate 7 and the circular cutter 9, the end part of the non-woven fabric on the unreeling roller 1 is pulled to one end of the workbench 6 in a manual mode, the first driving module 3 drives the adsorption piece 5 to move to the upper side of one end of the workbench 6, namely the upper side of the end part of the non-woven fabric layer, the third driving module 4 drives the adsorption piece 5 to descend and be attached to the upper surface of the non-woven fabric layer, the adsorption piece 5 adsorbs the end part of the non-woven fabric layer, the first driving module 3 drives the adsorption piece 5 to move towards the other end of the workbench 6, the adsorption piece 5 drags the non-woven fabric layer to move, after the end part of the non-woven fabric layer reaches the other end of the workbench 6, the adsorption piece 5 stops adsorbing and recovers to the initial position, the pressing plate 7 presses the non-woven fabric layer down on the workbench 6, the circular cutter 9 ascends and penetrates through the workbench 6, the second driving module 11 drives the circular cutter 9 to cut along the width direction of the non-woven fabric layer, the circular cutter 9 is restored to the initial position subsequently, a working cycle is completed, automatic feeding and high-quality cutting of non-woven fabrics in the heat insulation cotton are achieved, and production efficiency is improved.

The specific structure of the adsorption piece 5 is that the adsorption piece 5 is a plate-shaped hollow structure and is communicated with an external vacuum extractor; the lower surface of the adsorption piece 5 is provided with a plurality of air suction holes 8.

The adsorption principle of the adsorption piece 5 is that an external vacuum-pumping machine is communicated with the adsorption piece 5 by a hose, the adsorption piece 5 is attached to the upper surface of the non-woven fabric layer, the vacuum-pumping machine pumps air in the adsorption piece 5 away, and the adsorption piece 5 sucks up the non-woven fabric layer under the action of atmospheric pressure; the adsorption piece 5 is of a plate-shaped structure, so that the attaching area of the adsorption piece and the non-woven fabric layer is increased, and the adsorption effect is improved.

Preferably, a buffer layer is arranged on the lower surface of the adsorption piece 5, and the air suction holes 8 penetrate through the buffer layer; the absorbing member 5 extends along the width direction of the non-woven fabric layer and extends to the outside of the non-woven fabric layer.

When the buffer layer is pressed on the non-woven fabric layer, the buffer layer and the non-woven fabric layer are extruded by utilizing the characteristic that the buffer layer is soft and deformable, so that the tightness is improved, and the adsorption effect is increased; the extension of adsorption part 5 is arranged, strengthens adsorption effect, makes adsorption part 5 drag behind the non-woven fabrics layer simultaneously, and the non-woven fabrics layer still is in the tiling state.

In the concrete implementation, the device also comprises a guide rail 2 which guides the first driving module 3 to reciprocate between two ends of the workbench 6; first drive module 3 and guide rail 2 sliding fit, be equipped with the third drive module 4 that the drive adsorbs 5 reciprocal lifts between adsorbing piece 5 and the first drive module 3.

The third driving module 4 is specifically a first cylinder which stretches out and draws back from top to bottom, the first driving module 3 comprises a sliding seat and a first motor which drives the sliding seat to reciprocate along the guide rail 2, and the first cylinder is fixedly connected with the sliding seat and the adsorption piece 5 respectively.

The arrangement mode of the pressing plates 7 is that the pressing plates 7 are respectively arranged at the edges of two sides of the workbench 6 and are positioned at two axial sides of the circular cutter 9; both sides of the pressing plate 7 extend toward the corresponding ends of the table 6, respectively.

The pressing plate 7 presses the two sides of the non-woven fabric layer in the width direction to avoid the movement interference with the adsorption piece 5 and the circular cutter 9.

Preferably, the blade of the circular cutter 9 is provided with saw teeth around.

The circular cutter 9 penetrates through the workbench 6 in a mode that a strip-shaped hole 12 positioned right above the circular cutter 9 is formed in the workbench 6; the strip-shaped holes 12 extend in the width direction of the nonwoven fabric and extend to the outside of the nonwoven fabric.

In specific implementation, a fourth driving module 10 for driving the circular cutting knife 9 to reciprocate is arranged between the circular cutting knife 9 and the second driving module 11.

The fourth driving module 10 is specifically a second cylinder which can be lifted up and down, and the second driving module 11 comprises a fixed seat which is arranged at the lower side of the workbench 6, a screw rod which is in threaded fit with the fixed seat, a guide rod which is in sliding fit with the fixed seat, the fixed seat and a second motor which drives the screw rod to rotate forwards and backwards; the screw rod and the guide rod extend along the width direction of the non-woven fabric layer, and the circular cutter 9, the second cylinder and the fixing seat are sequentially fixed from top to bottom.

In a further improvement, the workbench 6 is provided with supporting legs 13 and a flange 14 positioned at the bottom of the supporting legs 13, and the flange 14 is fixedly connected with the ground through bolts.

Furthermore, a cushion 15 is provided between the flange 14 and the ground.

The above embodiments are preferred embodiments of the present invention, but the present invention is not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be construed as equivalents thereof, and all such changes, modifications, substitutions, combinations, and simplifications are intended to be included in the scope of the present invention.

Claims (10)

1. A non-woven fabric layer feeding device of heat insulation cotton comprises an unwinding roller for winding a non-woven fabric layer and a workbench arranged on one side of the unwinding roller; the end part of the non-woven fabric on the unwinding roller extends to one end of the workbench, and the non-woven fabric unwinding device is characterized by further comprising an adsorption piece for adsorbing the end part of the non-woven fabric layer, a first driving module for driving the adsorption piece to move between the two ends of the workbench in a reciprocating mode, a pressing plate and a circular cutter which can lift in a reciprocating mode, and a second driving module for driving the circular cutter to cut along the width direction of the non-woven fabric layer; the pressing plate and the adsorption piece are both positioned on the upper side of the workbench, and the circular cutter penetrates through the workbench and is positioned on the lower side of the workbench; when the end part of the non-woven fabric layer extends to the other end of the workbench, the pressing plate presses the non-woven fabric layer down onto the workbench so that the circular cutter can cut the non-woven fabric layer.

2. The nonwoven fabric layer feeding device of heat insulation cotton of claim 1, wherein the adsorption member is a plate-shaped hollow structure and is communicated with an external vacuum extractor; the lower surface of the adsorption piece is provided with a plurality of air suction holes.

3. The nonwoven fabric layer feeding device of heat insulation cotton of claim 2, wherein the lower surface of the adsorption member is provided with a buffer layer, and the air suction holes penetrate through the buffer layer; the adsorption piece extends along the width direction of the non-woven fabric layer and extends to the outer side of the non-woven fabric layer.

4. The nonwoven fabric layer feeding device of thermal insulation cotton of claim 3, further comprising a guide rail guiding the first driving module to reciprocate between both ends of the worktable; first drive module and guide rail sliding fit, be equipped with the third drive module that the drive adsorbs the reciprocal lift of piece between adsorbing piece and the first drive module.

5. The nonwoven fabric layer feeding device of heat insulation cotton of claim 1, wherein the pressing plates are respectively arranged at the two side edges of the workbench and are positioned at the two axial sides of the circular cutter; the two sides of the pressure plate extend towards the corresponding ends of the workbench respectively.

6. The nonwoven fabric layer feeding device of thermal insulation cotton of claim 1, wherein the blade of the circular cutter is provided with saw teeth around.

7. The non-woven fabric layer feeding device of the heat insulation cotton as claimed in claim 6, wherein the workbench is provided with a strip-shaped hole positioned right above the circular cutter; the strip-shaped holes extend along the width direction of the non-woven fabric and extend to the outer side of the non-woven fabric.

8. The nonwoven fabric layer feeding device of heat insulation cotton according to claim 7, wherein a fourth driving module for driving the circular cutter to reciprocate is arranged between the circular cutter and the second driving module.

9. The nonwoven fabric layer feeding device of thermal insulation cotton of any one of claims 1 to 8, wherein the workbench is provided with supporting legs and a flange positioned at the bottom of the supporting legs, and the flange is fixedly connected with the ground through bolts.

10. The nonwoven fabric layer feeding device of thermal insulation cotton of claim 9, wherein a cushion pad is provided between the flange and the ground.

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