CN215473199U - Intelligent gauze mask production facility - Google Patents

Abstract

The application relates to intelligent mask production equipment, which relates to the technical field of mask processing and comprises a workbench, wherein an unwinding roller is rotatably connected to the workbench along the horizontal direction; a conveying cylinder arranged along the horizontal direction is fixedly arranged on the workbench, and a conveying piece is arranged on an output shaft of the conveying cylinder; the working table is fixedly provided with a bearing table arranged along the length direction of the conveying cylinder, and the bearing table is positioned at the end part of the conveying piece far away from the conveying cylinder; a conveying table arranged along the length direction of the conveying cylinder is fixedly arranged on the working table, a cutting cylinder arranged along the vertical direction is fixedly arranged on the working table, the cutting cylinder is positioned between the bearing table and the conveying table, a cutting knife is fixedly arranged on an output shaft of the cutting cylinder, and the cutting knife is in sliding connection with the end face, close to the bearing table, of the conveying table; the workbench is rotatably connected with an upper material plate, and the bottom end of the upper material plate is provided with a pneumatic clamping jaw. This application has the effect that makes the bridge of the nose strip can be placed in on the gauze mask production line automatically.

Description

Intelligent gauze mask production facility

Technical Field

The application relates to the technical field of mask processing, in particular to intelligent mask production equipment.

Background

The mask is a sanitary article, and is generally a tool which is worn at the mouth and nose part and is used for filtering air entering the mouth and nose so as to prevent harmful gas, smell and spray from entering and exiting the mouth and nose of a wearer. When the mask is produced, the nose bridge strip needs to be placed on the raw materials for producing the mask, and then the raw materials are cut into the shape of the mask.

The traditional Chinese patent with the publication number of CN111248564A discloses a mask production device and a mask production process, which comprises a frame, a squeeze roll device arranged on the frame, two groups of ultrasonic vertical pressing devices, a roller wheel assembly, a folding mechanism, an ultrasonic vertical pressing and laminating edge device and a die cutting device, wherein the ultrasonic vertical pressing devices are used for finishing the processing of a hot sealing line, a nose strip positioning line, an ear band positioning point and two hot pressing lines which are parallel to each other on one side of the central line of a mask body on the mask fabric at one time, the folding mechanism is used for folding the mask fabric along the central line of the mask body, the folded mask fabric is in a horizontal shape, and the ultrasonic vertical pressing and laminating edge device is used for processing a laminating edge line which enables the lower parts of the two sides of the mask body to be bonded together.

To above-mentioned correlation technique, the inventor discovers that gauze mask apparatus for producing is carrying out the gauze mask production process, needs the user to place the bridge of the nose strip on the gauze mask production line in advance, and the artifical bridge of the nose strip of settling exists the higher defect of human cost.

SUMMERY OF THE UTILITY MODEL

In order to reduce workman's amount of labour, make the bridge of the nose strip can be arranged in gauze mask production line automatically on, this application provides an intelligent gauze mask production facility.

The application provides a pair of intelligent gauze mask production facility adopts following technical scheme:

an intelligent mask production device comprises a workbench, wherein an unwinding roller is rotatably connected to the workbench along the horizontal direction; a conveying cylinder arranged along the horizontal direction is fixedly arranged on the workbench, and a conveying piece is arranged on an output shaft of the conveying cylinder; the working table is fixedly provided with a bearing table arranged along the length direction of the conveying cylinder, and the bearing table is positioned at the end part of the conveying piece far away from the conveying cylinder; a conveying table arranged along the length direction of the conveying cylinder is fixedly arranged on the working table, a cutting cylinder arranged along the vertical direction is fixedly arranged on the working table, the cutting cylinder is positioned between the bearing table and the conveying table, a cutting knife is fixedly arranged on an output shaft of the cutting cylinder, and the cutting knife is in sliding connection with the end face, close to the bearing table, of the conveying table; the workbench is rotatably connected with an upper material plate, and the bottom end of the upper material plate is provided with a pneumatic clamping jaw.

By adopting the technical scheme, the nose bridge strip is supported on one side of the workbench by the unwinding roller, and the nose bridge strip is unwound, so that the loading operation of the nose bridge strip is more orderly; the conveying cylinder drives the conveying piece to move, and the conveying piece drives one end of the nose bridge strip to move, so that the loading and shifting process of the nose bridge strip is more complete; the cutting cylinder drives the cutting knife to move to cut the nose bridge strip, so that the nose bridge strip is cut into required length; the supporting table supports the bridge of the nose strips after cutting, the feeding plate rotates to enable the pneumatic clamping jaws to orderly place the bridge of the nose strips on the supporting table on the mask production line, the bridge of the nose strips can be automatically placed on the mask production line, the bridge of the nose strips does not need to be manually placed, and labor cost is reduced.

Optionally, the conveying piece comprises a conveying block, the conveying block is fixedly connected with an output shaft of the conveying cylinder, an extrusion cylinder arranged in the vertical direction is fixedly arranged on the conveying block, an extrusion block arranged in the vertical direction is arranged on the conveying block, and the extrusion block is fixedly connected with the output shaft of the extrusion cylinder.

By adopting the technical scheme, when the conveying block moves towards the direction close to the receiving table, the extrusion cylinder drives the extrusion block to press downwards, the nose bridge strip is pressed on the conveying block by the extrusion block, and the conveying block moves to convey the nose bridge strip; after the conveying block moves to the position closest to the bearing table, the extrusion cylinder drives the extrusion block to move upwards, the extrusion block is separated from the conveying block, the nose bridge strip is arranged between the conveying block and the extrusion block to move, the conveying block moves towards the direction far away from the bearing table, the subsequent nose bridge strip is conveyed towards the bearing table, and the conveying block is convenient to intermittently convey the nose bridge strip.

Optionally, a guide rod is fixedly arranged on the workbench along the length direction of the conveying cylinder, and the guide rod penetrates through the conveying block and is connected with the conveying block in a sliding manner.

Through adopting above-mentioned technical scheme, when the transport block removed, the guide bar played the spacing effect of direction to the removal process of transport block, and then made the transport block can move on its required aversion orbit better.

Optionally, the pneumatic clamping jaw comprises two clamping blocks arranged along the vertical direction, and the two clamping blocks are arranged oppositely and move along the horizontal direction; the end parts of the clamping blocks, which are close to each other, are provided with clamping grooves arranged along the width direction of the clamping blocks.

Through adopting above-mentioned technical scheme, when carrying out centre gripping aversion operation to bridge of the nose strip, bridge of the nose strip is arranged the centre gripping inslot in and is followed the grip block and remove, and then makes the grip block more perfect to bridge of the nose strip's transportation function.

Optionally, a bearing block arranged along the length direction of the bearing table is fixedly arranged on the bearing table, and the width of the bearing block is smaller than that of the nose bridge strip.

Through adopting above-mentioned technical scheme, when the nose bridge strip was arranged in and is held the bench in, hold the piece and prop up the nose bridge strip, when pneumatic clamping jaw carried out centre gripping aversion operation to the nose bridge strip, the grip block removed and opens, and two grip blocks remove respectively to the both sides of accepting the piece, and the grip block removes to be close to, will accept the nose bridge strip on the piece and clip, and it makes the transportation of holding the piece to the nose bridge strip more smooth and easy to accept piece and grip block cooperation.

Optionally, guide blocks are fixedly arranged at end corners of the bearing table, and the distance between every two adjacent guide blocks is the same as the width of the nose bridge strip.

Through adopting above-mentioned technical scheme, when nose bridge strip removed along the length direction who accepts the platform, the guide block made nose bridge strip can be better removed to accepting the bench.

Optionally, the conveying table is provided with a conveying opening arranged along the length direction of the conveying table, and the conveying opening is matched with the nose bridge strip.

Through adopting above-mentioned technical scheme, when the bridge of the nose strip removed, the bridge of the nose strip passed the transport opening, and the transport table carries out the guide effect to the bridge of the nose strip, makes the bridge of the nose strip can be carried to required position on.

Optionally, a control circuit is arranged on the workbench, and the control circuit includes a detection module and a feedback module;

the induction module comprises a photoelectric sensor fixedly connected with the unwinding roller, and when the photoelectric sensor detects an optical signal, the induction module sends an induction current signal;

the feedback module comprises an indicator lamp arranged on the workbench, the feedback module responds to an induced current signal sent by the induction module, and when the feedback module receives the induced current signal, the feedback module controls the indicator lamp to be turned on; when the feedback module does not receive the induction current signal, the feedback module controls the indicator lamp to be turned off.

Through adopting above-mentioned technical scheme, when the paper outside the unreeling roller will be unreeled, the photoelectric sensor detects light signal and sends induced-current signal, and feedback module responds induced-current signal and controls the pilot lamp and lights this moment, and the pilot lamp suggestion user in time carries out the continuation of material operation to the bridge of the nose strip.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the nose bridge strip is supported by the unwinding roller and is unwound, so that the nose bridge strip is more orderly fed; the conveying cylinder drives the conveying piece to move, and the conveying piece drives one end of the nose bridge strip to move, so that the loading and shifting process of the nose bridge strip is more complete; the cutting cylinder drives the cutting knife to move to cut the nose bridge strip, so that the nose bridge strip is cut into required length in order; the bridge of the nose strip that the platform will cut and accomplish supports, goes up the flitch and rotates and make pneumatic clamping jaw place the bridge of the nose strip on the platform in proper order on the gauze mask production line of accepting, makes the bridge of the nose strip can be arranged in on the gauze mask production line automatically, has improved the production efficiency of gauze mask.

2. When the conveying block moves to carry the operation to the bridge of the nose, the extrusion block pushes down, so that the bridge of the nose can better follow the conveying block to move, and when the conveying block moves towards the direction far away from the bearing table, the extrusion block is separated from the conveying block, so that the conveying block can carry out intermittent conveying operation to the bridge of the nose.

3. When the nose bridge strip is arranged on the bearing table, the bearing block supports the nose bridge strip, and when the pneumatic clamping jaw carries out clamping and shifting operation on the nose bridge strip, the bearing block is matched with the clamping block to enable the bearing block to convey the nose bridge strip more smoothly.

Drawings

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

Fig. 2 is a schematic structural diagram of the pressing block and the limiting block in the embodiment of the present application.

Fig. 3 is a schematic structural diagram of a conveying table and a conveying port in the embodiment of the present application.

Fig. 4 is a sectional view taken in the direction of a-a in fig. 3.

Fig. 5 is a partially enlarged view of a in fig. 4.

Fig. 6 is a schematic circuit diagram of a detection module in an embodiment of the present application.

Fig. 7 is a circuit diagram of a feedback module in an embodiment of the present application.

Description of reference numerals: 1. a work table; 2. unwinding rollers; 3. a conveying cylinder; 4. a conveying member; 41. a conveying block; 5. a receiving table; 6. a cutting cylinder; 7. cutting knife; 8. feeding plates; 9. a pneumatic clamping jaw; 91. a clamping block; 10. extruding the block; 11. a limiting block; 12. a guide bar; 13. a clamping groove; 14. a bearing block; 15. a guide block; 16. a conveying table; 17. a delivery port; 18. a detection module; 19. a feedback module; 20. an indicator light; 21. an extrusion cylinder; 22. a feeding motor.

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings.

The embodiment of the application discloses intelligent gauze mask production facility, refer to fig. 1, including workstation 1, be provided with loading attachment on the workstation 1, be provided with the apparatus for producing that is located workstation 1 one side on the workstation 1. When carrying out gauze mask production operation, loading attachment transports bridge of the nose strip to apparatus for producing in an orderly manner, and apparatus for producing carries out subsequent relevant production operation again, realizes the automated process of gauze mask production.

Referring to fig. 1, the feeding device includes an unwinding roller 2 and a conveying member 4. When carrying out material loading transport operation to nose bridge strip, carry 4 to carry nose bridge strip to the apparatus for producing orientation in an orderly manner, nose bridge strip removes the in-process, unreels roller 2 and unreels, realizes the lasting material loading function of nose bridge strip.

Referring to fig. 1, an unwinding roller 2 is disposed in a horizontal direction and rotatably connected to a table 1, and a rotation shaft of the unwinding roller 2 is disposed in an axial direction of itself. When carrying out material loading transport operation to nose bridge strip, unreel roller 2 and support a large amount of nose bridge strips simultaneously on workstation 1, unreel roller 2 and rotate, unreel the operation to nose bridge strip, make nose bridge strip can be carried to the apparatus for producing on.

Referring to fig. 1, two ends of the unwinding roller 2 are fixedly provided with a limit baffle, the limit baffle is circular, and the limit baffle is perpendicular to and fixedly connected with the unwinding roller 2. When unreeling roll 2 unreels the operation to the nose bridge strip, the winding of nose bridge strip is on unreeling roll 2's outer wall, and limit baffle separates the nose bridge strip shelves on unreeling roll 2, makes the nose bridge strip can stably arrange in on unreeling roll 2.

Referring to fig. 1, the workbench 1 is fixedly provided with a conveying cylinder 3, the conveying cylinder 3 is arranged along the length direction of the workbench 1, an output shaft of the conveying cylinder 3 is connected with a conveying part 4, and the conveying part 4 and a nose bridge strip are far away from the end part of the unwinding roller 2. When carrying out material loading transport operation to the bridge of the nose strip, the output shaft of carrying cylinder 3 is flexible to be driven and is carried 4 and remove, carries 4 one ends that drive the bridge of the nose strip and removes, makes the bridge of the nose strip remove to apparatus for producing direction.

Referring to fig. 1 and 2, the conveying member 4 includes a conveying block 41, an upper end portion of the conveying block 41 is provided with a squeezing block 10 arranged along a vertical direction, and the squeezing block 10 is connected with the conveying block 41 in a sliding manner along the vertical direction; when the output shaft of the conveying cylinder 3 extends, the extrusion block 10 is abutted against the nose bridge strip, and when the output shaft of the conveying cylinder 3 shortens, the extrusion block 10 is not connected with the nose bridge strip, and the conveying block 41 is slidably connected with the nose bridge strip. When the output shaft of the conveying cylinder 3 extends, the extrusion block 10 moves downwards to abut against the nose bridge strip, so that the nose bridge strip can move along with the conveying block 41, and the conveying block 41 moves to enable the nose bridge strip to move towards the direction close to the production device; when the output shaft of the conveying cylinder 3 is shortened, the conveying block 41 moves towards the direction far away from the receiving table 5, at the moment, the extrusion block 10 moves upwards to be separated from the conveying block 41, and the nose bridge strip is placed at the original position; when the conveying block 41 moves to a position close to the conveying cylinder 3, the extruding block 10 moves downwards again to abut against the nose bridge strip, the conveying block 41 moves to drive the nose bridge strip to move, and the conveying block 41 is used for intermittently conveying the nose bridge strip.

Referring to fig. 1 and 2, a limiting block 11 is fixedly arranged at the upper end of an extrusion block 10, the width of the limiting block 11 is greater than that of the extrusion block 10, a sliding groove is formed in the conveying block 41 along the vertical direction, and the limiting block 11 is connected with the sliding groove in a sliding manner along the vertical direction; when the extrusion block 10 abuts against the nose bridge strip, the limiting block 11 moves to the lowest end of the sliding groove. When the extrusion piece 10 moves to the lowest position, the limiting block 11 moves to the lowest end of the sliding groove, the limiting block 11 cannot move downwards continuously, the extrusion piece 10 cannot move downwards continuously, and the extrusion piece 10 cannot extrude and damage the nose bridge strip easily in the process of abutting against the nose bridge strip.

Referring to fig. 1 and 2, the conveying block 41 is fixedly provided with an extrusion cylinder 21 along a vertical direction, and an output shaft of the extrusion cylinder 21 is coaxially and fixedly connected with an upper end face of the limiting block 11. The output shaft of the extrusion cylinder 21 moves, so that the extrusion block 10 and the limiting block 11 move along the vertical direction, and the extrusion cylinder 21 provides power for the movement of the extrusion block 10, thereby realizing the automatic displacement function of the extrusion block 10.

Referring to fig. 1 and 2, two identical guide rods 12 are fixedly arranged on the workbench 1, the guide rods 12 are arranged along the length direction of the workbench 1, the two guide rods 12 penetrate through the lower end part of the conveying block 41, and the guide rods 12 are connected with the conveying block 41 in a sliding manner along the length direction of the guide rods 12. When the conveying cylinder 3 drives the conveying block 41 to move, the guide rods 12 are connected with the conveying block 41 in a sliding mode, at the moment, the two guide rods 12 jointly play a role in guiding and limiting the moving process of the conveying block 41, and then the conveying block 41 can better move the nose bridge strip to a required position.

Referring to fig. 1 and 3, a conveying table 16 is fixedly arranged on the workbench 1, the conveying table 16 is arranged along the length direction of the workbench 1, the conveying table 16 is positioned at the end part of the conveying member 4 far away from the conveying cylinder 3, a conveying port 17 arranged along the length direction of the conveying table 16 is formed in the upper end part of the conveying table 16, the height of the lower end face of the conveying port 17 is the same as that of the connecting surface of the conveying block 41 and the nose bridge, and the conveying port 17 is connected with the nose bridge in a sliding manner along the length direction of the conveying port 17. When carrying 4 drive nose bridge strip and removing, nose bridge strip passes transport opening 17, and nose bridge strip is along the length direction and the delivery outlet sliding connection of delivery outlet, carries platform 16 to carry out the guide effect to nose bridge strip this moment, makes nose bridge strip's aversion orbit more definite.

Referring to fig. 1 and 4, the cylinder 6 that cuts that sets up along vertical direction has set firmly on the workstation 1, cuts the tip that the cylinder 6 is located the conveying platform 16 and keeps away from conveying cylinder 3, cuts and has set firmly on the output shaft of cylinder 6 and cut sword 7, cuts sword 7 and sets up along vertical direction, cuts the cutting edge of sword 7 and the terminal surface of conveying platform 16 along vertical direction sliding connection. After the nose bridge strip is moved to required position, the output shaft of cutting cylinder 6 stretches out and draws back, and cutting cylinder 6 drives and cuts sword 7 and remove along vertical direction, cuts sword 7 and carries 16 sliding connection of platform to cut the operation to the nose bridge strip, makes the nose bridge strip cut into required length in order.

Referring to fig. 4 and 5, a receiving table 5 is fixedly arranged on the workbench 1 along the length direction of the workbench 1, the receiving table 5 is positioned at the end part of the conveying table 16 far away from the conveying cylinder 3, the cutting knife 7 is positioned between the receiving table 5 and the conveying table 16, and the length of the receiving table 5 is the same as that of the conveying table 16. After the nose bridge strip moves to the bearing table 5, the cutting knife 7 cuts the nose bridge strip into required length, the nose bridge strip on the bearing table 5 moves to the production device, the conveying piece 4 continues to move the nose bridge strip along the length direction of the conveying table 16, and the bearing table 5 supports the nose bridge strip, so that the cutting processing is facilitated.

Referring to fig. 1 and 5, four corners of the receiving table 5 are all fixedly provided with guide blocks 15, the distance between adjacent guide blocks 15 is the same as the width of the nose bridge strip, and the guide blocks 15 are slidably connected with the nose bridge strip along the length direction of the receiving table 5. When the nose bridge strip moves along the length direction of the receiving platform 5, the nose bridge strip penetrates through the adjacent guide blocks 15, the nose bridge strip is connected with the inner walls of the guide blocks 15 in a sliding mode, and the guide blocks 15 standardize the moving track of the nose bridge strip, so that the nose bridge strip can be better moved to the receiving platform 5.

Referring to fig. 1 and 5, a receiving block 14 arranged along the length direction of the receiving table 5 is fixedly arranged on the receiving table 5, the receiving block 14 is located in the middle of the receiving table 5, and the width of the receiving block 14 is smaller than that of the nose bridge strip. When the nose bridge strip moves to be arranged on the bearing table 5, the nose bridge strip is supported by the bearing block 14, and the width of the bearing block 14 is smaller than that of the nose bridge strip, so that a user can take the nose bridge strip off the bearing table 5 conveniently.

Referring to fig. 1 and 5, a cuboid-shaped upper material plate 8 is arranged on the workbench 1 along the horizontal direction, the upper material plate 8 is rotatably connected with the workbench 1, a rotating shaft of the upper material plate 8 is arranged along the central axis direction of the upper material plate 8, and two sets of the same pneumatic clamping jaws 9 are fixedly arranged at two ends of the bottom surface of the upper material plate 8. When the mask production work is carried out, the feeding plate 8 rotates along the rotating shaft direction, so that the two pneumatic clamping jaws 9 move along with the feeding plate 8. When pneumatic clamping jaw 9 rotates and arranges the top of accepting the platform 5 in, pneumatic clamping jaw 9 moves down and presss from both sides the bridge of the nose strip on accepting the platform 5 from accepting piece 14, and when pneumatic clamping jaw 9 rotated and arranges the top of apparatus for producing in, pneumatic clamping jaw 9 moved down and places the bridge of the nose strip on the gauze mask production line, made the bridge of the nose strip can be arranged in on the gauze mask production line automatically, improved the production efficiency of gauze mask.

Referring to fig. 1 and 5, a feeding motor 22 is fixedly arranged on the workbench 1 along the vertical direction, and an output shaft of the feeding motor 22 is coaxially and fixedly connected with the upper end surface of the feeding plate 8. When the feeding device works, the feeding motor 22 rotates to drive the feeding plate 8 to rotate, the feeding motor 22 provides power for the rotation of the feeding plate 8, and the automatic rotation function of the feeding plate 8 is realized.

Referring to fig. 1 and 5, the pneumatic clamping jaw 9 includes two clamping blocks 91 arranged in a vertical direction, the two clamping blocks 91 are arranged oppositely, and the clamping blocks 91 move in a horizontal direction; the moving directions of the two clamping blocks 91 are opposite. When the pneumatic clamping jaw 9 needs to clamp or put down the nose bridge strip, the two clamping blocks 91 move in the same direction or in opposite directions, so that the basic clamping function of the pneumatic clamping jaw 9 is realized.

Referring to fig. 1 and 5, the end portions of the clamping blocks 91 close to each other are provided with clamping grooves 13, the clamping grooves 13 are arranged along the width direction of the clamping blocks 91, when the clamping blocks 91 move to the upper side of the receiving table 5, the length direction of the clamping grooves 13 is the same as the length direction of the nose bridge strip, and the depth of the two clamping grooves 13 is greater than the width of the nose bridge strip. When grip block 91 carries out centre gripping aversion operation to nose bridge strip, grip block 91 centre gripping nose bridge strip, nose bridge strip and 13 sliding connection of centre gripping groove, the middle part of nose bridge strip is arranged in 13 interior follow grip block 91 removal of centre gripping groove, and then makes grip block 91 perfect to the transportation function of nose bridge strip.

Referring to fig. 6 and 7, a control circuit is arranged on the worktable 1, and the control circuit comprises a detection module 18 and a feedback module 19;

the response module includes the photoelectric sensing ware, and the photoelectric sensing ware is located limit baffle and is close to on the position of unreeling 2 axis of rotation of roller, and the one end ground connection of photoelectric sensing ware, and the other end electricity of photoelectric sensing ware is connected with solenoid KA1, and solenoid KA 1's other end electricity is connected with load resistance R1, and load resistance R1 keeps away from the one end electricity of solenoid KA1 and is connected with the power VCC.

The feedback module 19 comprises an indicator lamp 20 arranged on the workbench 1, one end of the indicator lamp 20 is grounded, the other end of the indicator lamp 20 is electrically connected with a normally open switch KA1-2 of the electromagnetic coil KA1, the other end of the normally open switch KA1-2 of the electromagnetic coil KA1 is electrically connected with a load resistor R2, and the other end of the load resistor R2 is electrically connected with a power supply VCC.

When the nose bridge strip outside the unwinding roller 2 is about to be unwound, the photoelectric sensor detects an optical signal, the photoelectric sensor enables the electromagnetic coil KA1 to be conducted, the normally open switch KA1-2 of the electromagnetic coil KA1 is conducted in a closed mode at the moment, the indicating lamp 20 is turned on, a user is prompted to conduct feeding and replacing operations on the nose bridge strip outside the unwinding roller 2, and the uninterrupted feeding function of the nose bridge strip is more complete.

The implementation principle of intelligent gauze mask production facility of the embodiment of this application is: when carrying out gauze mask production operation, unreel roller 2 and rotate and unreel the operation to the bridge of the nose, carry 3 drives of cylinder and carry 4 removals, carry 4 removals of drive bridge of the nose, after the bridge of the nose removed to accepting platform 5, cut cylinder 6 and drive and cut 7 removals of sword and cut the operation to the bridge of the nose, the bridge of the nose that accepting block 14 will cut the completion supports, it makes pneumatic clamping jaw 9 transport the bridge of the nose on the accepting platform 5 to the apparatus for producing to go up flitch 8 and rotate, realize the automatic transport function of bridge of the nose.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an intelligent gauze mask production facility which characterized in that: comprises a workbench (1), wherein an unwinding roller (2) is rotatably connected on the workbench (1) along the horizontal direction; a conveying cylinder (3) arranged along the horizontal direction is fixedly arranged on the workbench (1), and a conveying piece (4) is arranged on an output shaft of the conveying cylinder (3); a bearing table (5) arranged along the length direction of the conveying cylinder (3) is fixedly arranged on the workbench (1), and the bearing table (5) is positioned at the end part of the conveying piece (4) far away from the conveying cylinder (3); a conveying table (16) arranged along the length direction of the conveying cylinder (3) is fixedly arranged on the workbench (1), a cutting cylinder (6) arranged along the vertical direction is fixedly arranged on the workbench (1), the cutting cylinder (6) is positioned between the bearing table (5) and the conveying table (16), a cutting knife (7) is fixedly arranged on an output shaft of the cutting cylinder (6), and the cutting knife (7) is in sliding connection with the end face, close to the bearing table (5), of the conveying table (16); the workbench (1) is rotatably connected with an upper material plate (8), and the bottom end of the upper material plate (8) is provided with a pneumatic clamping jaw (9).

2. The intelligent mask production equipment according to claim 1, wherein: carry piece (4) including carrying piece (41), carry output shaft fixed connection of piece (41) and transport cylinder (3), carry and set firmly extrusion cylinder (21) that set up along vertical direction on piece (41), be equipped with extrusion piece (10) that set up along vertical direction on carrying piece (41), extrusion piece (10) and the output shaft fixed connection of extrusion cylinder (21).

3. The intelligent mask production equipment according to claim 2, wherein: the guide rod (12) is fixedly arranged on the workbench (1) along the length direction of the conveying cylinder (3), and the guide rod (12) penetrates through the conveying block (41) and is in sliding connection with the conveying block (41).

4. The intelligent mask production equipment according to claim 1, wherein: the pneumatic clamping jaw (9) comprises two clamping blocks (91) arranged along the vertical direction, and the two clamping blocks (91) are arranged oppositely and move along the horizontal direction; the end parts of the clamping blocks (91) close to each other are provided with clamping grooves (13) arranged along the width direction of the clamping blocks (91).

5. The intelligent mask production equipment according to claim 1, wherein: the bearing table (5) is fixedly provided with a bearing block (14) arranged along the length direction of the bearing table (5), and the width of the bearing block (14) is smaller than that of the nose bridge strip.

6. The intelligent mask production equipment according to claim 1, wherein: guide blocks (15) are fixedly arranged at end angles of the bearing table (5), and the distance between every two adjacent guide blocks (15) is the same as the width of the nose bridge strip.

7. The intelligent mask production equipment according to claim 1, wherein: the conveying table (16) is provided with a conveying opening (17) arranged along the length direction of the conveying table (16), and the conveying opening (17) is matched with the nose bridge strip.

8. The intelligent mask production equipment according to claim 1, wherein: the workbench (1) is provided with a control circuit, and the control circuit comprises a detection module (18) and a feedback module (19);

the induction module comprises a photoelectric sensor connected with the unwinding roller (2), and when the photoelectric sensor detects an optical signal, the induction module sends an induction current signal;

the feedback module (19) comprises an indicator lamp (20) arranged on the workbench (1), the feedback module (19) responds to an induced current signal sent by the induction module, and when the feedback module (19) receives the induced current signal, the feedback module (19) controls the indicator lamp (20) to be turned on; when the feedback module (19) does not receive the induction current signal, the feedback module (19) controls the indicator lamp (20) to be turned off.

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