CN218804133U - Punching and pasting device for nose bridge batten of mask - Google Patents

Abstract

The utility model relates to a gauze mask processing technology field especially relates to a gauze mask bridge of the nose layering dashes pastes device, and it includes operation panel, guide table, support A, motor B and support B. Set up the guide way on the operation panel, set up the conveyer belt by motor A driven in the guide way, set up the compression roller in the guide way, compression roller and driving roller linkage, and the rotation direction of compression roller is opposite with the rotation direction of driving roller. The guide table is arranged in the guide groove and located between the compression rollers on the two sides, the side wall of the guide groove is provided with a flanging plate, and the flanging plate is located between the guide groove and the guide table. And a winding roller is rotatably arranged on the bracket A. The motor B is arranged on the operating platform and is in driving connection with the guide roller, the guide roller is in rolling contact with the bevel edge of the guide platform, an annular groove is formed in the guide roller, and a cutter is arranged in the annular groove. The support B is provided with a hot connecting plate which is controlled to lift by a hydraulic cylinder B in a sliding manner. The utility model discloses automatic accomplish the turn-ups to the gauze mask and the function of bridge of the nose layering, degree of automation is high, and is efficient.

Description

Punching and pasting device for nose bridge batten of mask

Technical Field

The utility model relates to a gauze mask processing technology field especially relates to a gauze mask bridge of the nose layering dashes pastes device.

Background

The nose bridge strip of the mask mainly comprises galvanized filaments of plastic, pure aluminum and polyolefin polymer coating. Most of the masks produced by most manufacturers at present are galvanized filaments coated with polyolefin polymers, and the material has good quality and proper price. The bridge of the nose layering of gauze mask alternates usually inboard at the through-hole that the gauze mask edge formed, utilizes layering stamping equipment to carry out the punching press, and the punching press process adopts high temperature to be in the same place through-hole place two-layer melt-blown fabric hot melt, but the most operations of present bridge of the nose layering dashes and pastes the device all need artifical intervention, wastes time and energy.

Chinese patent with the publication number CN212666789U discloses a medical gauze mask bridge of the nose layering dashes and pastes device, and this utility model has reduced people and stamping device's contact, has reduced artificial operating risk, realizes stamping process's automation, has promoted work efficiency and machining precision.

However, the device still has the following defects: the device degree of automation is lower, and the nose bridge layering needs place in proper position at the gauze mask edge in advance, and manual operation wastes time and energy to place the position and probably appear the deviation.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a device is pasted to punching of gauze mask bridge of the nose layering to the problem that exists among the background art.

The technical scheme of the utility model: a punching and pasting device for a mask nose bridge pressing strip comprises an operating platform, a guide platform, a support A, a motor B and a support B. Set up the ascending guide way of opening on the operation panel, set up the conveyer belt in the guide way, set up the motor A of drive conveyer belt operation on the operation panel, set up a plurality of compression roller in the guide way, the compression roller is located the top of conveyer belt and links with the driving roller, and the rotation direction of compression roller is opposite with the rotation direction of driving roller. The guide table is arranged in the guide groove and located between the compression rollers on the two sides, the guide table is located above the conveying belt, the side wall of the guide groove is provided with a flanging plate, and the flanging plate is located between the guide groove and the guide table. Support A sets up on the operation panel, rotates on the support A and sets up the wind-up roll. The motor B is arranged on the operating platform, the motor B is connected with the guide roller in a driving mode, the guide roller is in rolling contact with the bevel edge of the guide platform, an annular groove is formed in the guide roller, a cutter is arranged in the guide roller, and the cutter is inserted into the annular groove and is tangent to the cambered surface of the guide roller. Support B sets up on the operation panel, and the sliding setting scalds the fishplate bar on support B, sets up the drive on the support B and scalds the pneumatic cylinder B that the fishplate bar goes up and down.

Preferably, the belt A and the belt B are also included. The side of operation panel sets up the side groove, and the side inslot internal rotation sets up the double flute belt pulley, all sets up the gear on the axle of double flute belt pulley and motor A's the output, and two gear engagement are connected, and the roller shaft tip of compression roller also is equipped with the double flute belt pulley, connects through belt A or belt B transmission between each double flute belt pulley.

Preferably, a sliding groove is formed in the support A, a clamping block is arranged in the sliding groove in a sliding mode, and a hydraulic cylinder A for driving the clamping block to slide is arranged on the support A. The inner side of the winding roller is provided with a rotating shaft, the winding roller is detachably connected with the rotating shaft, the rotating shaft is inserted into the sliding groove and is rotatably connected with the sliding groove, and the lower surface of the clamping block is in damping sliding connection with the outer surface of the rotating shaft.

Preferably, scald the fishplate bar and go up the symmetry and set up two slide bars, both sides slide bar all with support B's horizontal end sliding connection.

Preferably, a supporting plate is arranged in the guide groove, the supporting plate is located between the driving rollers on the two sides, and the supporting plate is connected with the lower surface of the upper transverse end of the conveying belt in a sliding mode.

Preferably, the bottoms of four corners of the operating platform are provided with supporting legs, and the bottoms of the supporting legs are provided with anti-skid pads.

Preferably, the bottom of the supporting leg is provided with a height-adjusting component, and the bottom of the height-adjusting component is connected with the non-slip mat.

Compared with the prior art, the utility model discloses following profitable technological effect has:

the compression roller is arranged, the mask running to the bottom of the guide table is flattened by the compression roller, the mask is prevented from being incapable of passing through the bottom of the guide table, the flanging plate is arranged, the edge of the mask nose bridge pressing strip, which is mounted on the mask, is turned up by the flanging plate, and the edge of the mask smoothly passes through a gap between the guide table and the flanging plate after being turned up; the nose bridge pressing strip is guided and cut by the guide roller driven by the motor B, so that the cut nose bridge pressing strip is inserted into the inner side of the U-shaped groove with the edge of the socket cover turned up, automatic cutting and automatic insertion are realized, and the processing efficiency and the automation degree are improved. The whole device is high in stability, simple and convenient to operate, very practical and suitable for popularization.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a connection structure diagram of each component on the bracket A;

fig. 3 is a connection structure view of each component on the guide roll.

Reference numerals are as follows: 1. an operation table; 101. a guide groove; 2. a conveyor belt; 3. a motor A; 4. a double-groove belt pulley; 5. a gear; 6. a compression roller; 7. a belt A; 8. a belt B; 9. a guide table; 10. a flanging plate; 11. a bracket A; 111. a chute; 112. a clamping block; 12. a wind-up roll; 121. a rotating shaft; 13. a hydraulic cylinder A; 14. a motor B; 15. a guide roller; 151. an annular groove; 16. a cutter; 17. a bracket B; 18. ironing and connecting the board; 19. and a hydraulic cylinder B.

Detailed Description

Example one

As shown in fig. 1-3, the utility model provides a gauze mask nose bridge layering dashes pastes device, including operation panel 1, guide table 9, support A11, motor B14 and support B17. Set up ascending guide way 101 of opening on the operation panel 1, set up conveyer belt 2 in the guide way 101, set up the motor A3 of 2 operations of drive conveyer belt on the operation panel 1, set up a plurality of compression roller 6 in the guide way 101, compression roller 6 is located conveyer belt 2's top and with the driving roller linkage, and the rotation direction of compression roller 6 is opposite with the rotation direction of driving roller. The guide table 9 is arranged in the guide groove 101, the guide table 9 is located between the press rollers 6 on the two sides, the guide table 9 is located above the conveyor belt 2, the flanging plate 10 is arranged on the side wall of the guide groove 101, and the flanging plate 10 is located between the guide groove 101 and the guide table 9. Support A11 sets up on operation panel 1, rotates on the support A11 and sets up wind-up roll 12. The motor B14 is arranged on the operating platform 1, the motor B14 is in driving connection with the guide roller 15, the guide roller 15 is in rolling contact with the oblique edge of the guide platform 9, an annular groove 151 is formed in the guide roller 15, a cutter 16 is arranged in the guide roller 15, and the cutter 16 is inserted into the annular groove 151 and is tangent to the arc surface of the guide roller 15. The support B17 is arranged on the operating platform 1, the ironing plate 18 is arranged on the support B17 in a sliding mode, and the hydraulic cylinder B19 for driving the ironing plate 18 to lift is arranged on the support B17.

In this embodiment, when the mask is conveyed to the lower part of the right compression roller 6 along the guide groove 101, the mask is rolled under the dual functions of the compression roller 6 and the conveyor belt 2, so that the mask can conveniently pass across from the lower part of the guide table 9, when the edge of the mask contacts the flanging plate 10, the edge of the mask is turned up and gradually forms a U-shaped flanging, the conveying of the mask is suspended when the mask is continuously conveyed to the feeding side of the left compression roller 6, at the moment, the motor B14 drives the guide roller 15 to rotate, further, the nose bridge flanging strip is pulled to extend along the inclined plane of the guide table 9, when the cutter in the annular groove 151 contacts the nose bridge flanging strip, the cutter automatically fixes the length to cut the nose bridge flanging strip and slides the nose bridge flanging strip into the U-shaped flanging of the mask, then the mask is continuously conveyed, the U-shaped flanging is flattened under the matching action of the left compression roller 6 and the conveyor belt 2, so that the nose bridge flanging strip is positioned in the U-shaped flanging, when the mask is conveyed to the lower part of the ironing plate 18, the hydraulic cylinder B19 drives the ironing plate 18 to slide down, and the edge of the ironing plate 18 to spray cloth, so as to form an automatic punching press the nose bridge flanging of the mask.

Example two

As shown in fig. 1, the mask nose bridge depression bar punching and attaching device of the present invention further includes a belt A7 and a belt B8, compared with the first embodiment. The side of operation panel 1 sets up the side groove, and the side inslot internal rotation sets up double groove belt pulley 4, all sets up gear 5 on the axle of double groove belt pulley 4 and motor A3's the output, and two gears 5 meshing are connected, and the roller shaft tip of compression roller 6 also is equipped with double groove belt pulley, connects through belt A7 or belt B8 transmission between each double groove belt pulley 4.

In this embodiment, the meshing action of two gears 5 is utilized to make compression roller 6 and driving roller realize synchronous reverse rotation, and it is unanimous to ensure the transmission speed of compression roller 6 and conveyer belt 2 to the gauze mask.

EXAMPLE III

As shown in fig. 2, the utility model provides a gauze mask bridge of the nose layering dashes pastes device compares in embodiment one, sets up spout 111 on the support A11, and it sets up fixture block 112 to slide in spout 111, sets up the gliding pneumatic cylinder A13 of drive fixture block 112 on the support A11. The rotating shaft 121 is arranged on the inner side of the winding roller 12, the winding roller 12 is detachably connected with the rotating shaft 121, the rotating shaft 121 is inserted into the sliding groove 111 and is rotatably connected with the sliding groove, and the lower surface of the clamping block 112 is in damping sliding connection with the outer surface of the rotating shaft 121.

In this embodiment, since the wind-up roll 12 rotates with the guide roll 15 rotating, when the wind-up roll 12 stops, the guide roll 15 may continue to rotate under the inertia effect, so as to release the redundant nose bridge molding, so that the nose bridge molding is in a loose state, and at this time, the linearity of the nose bridge molding is affected.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited thereto, and various changes can be made without departing from the gist of the present invention within the scope of knowledge possessed by those skilled in the art.

Claims (7)

1. A punching and pasting device for a nose bridge batten of a mask is characterized by comprising an operation table (1), a guide table (9), a support A (11), a motor B (14) and a support B (17);

the automatic conveying device is characterized in that a guide groove (101) with an upward opening is formed in an operating platform (1), a conveying belt (2) is arranged in the guide groove (101), a motor A (3) for driving the conveying belt (2) to run is arranged on the operating platform (1), a plurality of compression rollers (6) are arranged in the guide groove (101), the compression rollers (6) are located above the conveying belt (2) and are linked with a driving roller, and the rotating direction of the compression rollers (6) is opposite to the rotating direction of the driving roller;

the guide table (9) is arranged in the guide groove (101), the guide table (9) is positioned between the compression rollers (6) on the two sides, the guide table (9) is positioned above the conveyor belt (2), the side wall of the guide groove (101) is provided with a flanging plate (10), and the flanging plate (10) is positioned between the guide groove (101) and the guide table (9);

the support A (11) is arranged on the operating platform (1), and the winding roller (12) is rotatably arranged on the support A (11); the motor B (14) is arranged on the operating platform (1), the motor B (14) is in driving connection with the guide roller (15), the guide roller (15) is in rolling contact with the bevel edge of the guide platform (9), an annular groove (151) is formed in the guide roller (15), a cutter (16) is arranged in the guide roller (15), and the cutter (16) is inserted into the annular groove (151) and is tangent to the cambered surface of the guide roller (15); support B (17) set up on operation panel (1), and sliding setting scalds fishplate bar (18) on support B (17), sets up the drive on support B (17) and scalds hydraulic cylinder B (19) that fishplate bar (18) go up and down.

2. The mask nose bridge molding punch attachment device according to claim 1, further comprising a belt A (7) and a belt B (8); the side of operation panel (1) sets up the side groove, and the side inslot internal rotation sets up double groove belt pulley (4), all sets up gear (5) on the axle of double groove belt pulley (4) and the output of motor A (3), and two gears (5) meshing are connected, and the roller tip of compression roller (6) also is equipped with double groove belt pulley, connects through belt A (7) or belt B (8) transmission between each double groove belt pulley (4).

3. The punching and pasting device for the nose bridge molding of the mask as claimed in claim 1, wherein a sliding groove (111) is formed in the support A (11), a clamping block (112) is slidably arranged in the sliding groove (111), and a hydraulic cylinder A (13) for driving the clamping block (112) to slide is arranged on the support A (11); the inner side of the winding roller (12) is provided with a rotating shaft (121), the winding roller (12) is detachably connected with the rotating shaft (121), the rotating shaft (121) is inserted into the sliding groove (111) and is rotatably connected with the sliding groove, and the lower surface of the clamping block (112) is in damping sliding connection with the outer surface of the rotating shaft (121).

4. The punching and pasting device for the nose bridge molding of the mask as claimed in claim 1, wherein two sliding rods are symmetrically arranged on the ironing board (18), and both sliding rods are slidably connected with the transverse end of the bracket B (17).

5. The punching and pasting device for the nose bridge molding of the mask as claimed in claim 1, wherein a support plate is disposed in the guide groove (101), the support plate is disposed between the driving rollers at both sides, and the support plate is slidably connected to the lower surface of the upper lateral end of the conveyor belt (2).

6. The punching and pasting device for the nose bridge molding of the respirator as claimed in claim 1, wherein supporting feet are arranged at the bottoms of the four corners of the operating platform (1), and anti-slip pads are arranged at the bottoms of the supporting feet.

7. The punching and pasting device for a nose bridge molding of a mask as claimed in claim 6, wherein the bottom of the supporting leg is provided with a height-adjusting component, and the bottom of the height-adjusting component is connected with the non-slip mat.

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