CN115045065A - Non-collodion cotton processing and shaping device and method capable of being used for different thicknesses - Google Patents

Abstract

The invention discloses a non-collodion cotton processing and shaping device and method for different thicknesses, relates to the technical field of non-collodion cotton processing and shaping, and aims to solve the problems that most of the existing non-collodion cotton processing and shaping devices can only carry out shaping on non-collodion cotton with one thickness, and the repeated shaping of the non-collodion cotton is easy to occur when the feeding and the discharging are on the same horizontal plane. A lower pressing frame is arranged at the upper end of the forming seat, a lower pressing seat is arranged inside the lower pressing frame, an air cylinder mechanism is arranged at the upper end of the lower pressing frame, a forming groove is formed in the upper surface of the forming seat, and a stress plate is arranged inside the forming groove; further comprising: the adjusting box is arranged at the lower end of the forming seat, a moving box is arranged on one side of the adjusting box, the moving box and the adjusting box are of an integral structure, and an adjusting cavity is arranged in the adjusting box; and the electric push rod assembly is arranged inside the adjusting cavity, and the stress plate is connected with the electric push rod assembly in a welding manner.

Description

Non-collodion cotton processing and shaping device and method applicable to different thicknesses

Technical Field

The invention relates to the technical field of non-collodion cotton processing and shaping, in particular to a non-collodion cotton processing and shaping device and a non-collodion cotton processing and shaping method which can be used for processing and shaping non-collodion cotton with different thicknesses.

Background

The non-glue cotton is very soft, but has good strength and is washable, is usually used for high-grade quilts, is a sprayed-glue cotton substitute product, is superior to the sprayed-glue cotton in material, has no stimulation to human bodies, has good elasticity, is soft, smooth, good in heat retention, more environment-friendly and the like, can be produced, has large market demand, needs mass production, and is an extremely important step for the sizing of the non-glue cotton in the production process;

for example, the chinese patent with publication number CN214613104U (an energy-saving shaping device for high-elasticity non-glue cotton): the automatic feeding device comprises a workbench, wherein a shaping mechanism is arranged in the middle of the upper end of the workbench, a feeding conveying belt is arranged on the shaping mechanism of the workbench, and a discharging conveying belt is arranged at the other end of the workbench; the forming mechanism is including setting up the backup pad in the workstation both sides and setting up the layer board at the workstation middle part, be provided with the heating cabinet between the backup pad, the heating cabinet lower extreme is provided with the heating chamber, be provided with a plurality of flexible posts of group on the heating chamber roof, flexible post is connected with the clamp plate, the winding has the spring on the flexible post, spring one end is connected with the heating chamber roof, the other end is connected with the clamp plate, clamp plate lower extreme four sides are connected with the heat-conducting plate, be provided with a plurality of hot-blast main of group on the heating chamber inside wall, the heating chamber is provided with the baffling board on the hot-blast main, install the air heater on the heating cabinet outer wall, the air heater air-out end is connected with the hot-blast main through defeated tuber pipe, the utility model discloses make the design of no glued membrane effectual, the power consumption is low, is favorable to the sustainable production of no glued membrane.

Most of the existing glue-free cotton processing and shaping devices can only carry out shaping on glue-free cotton with one thickness, and the phenomenon that one glue-free cotton is repeatedly shaped easily occurs when the feeding and the discharging are on the same horizontal plane, so that the glue-free cotton processing and shaping devices and the glue-free cotton processing and shaping methods which can be used for different thicknesses are provided.

Disclosure of Invention

The invention aims to provide a collodion-free cotton processing and shaping device and a collodion-free cotton processing and shaping method which can be used for processing and shaping collodion-free cotton with different thicknesses, and solve the problems that the prior collodion-free cotton processing and shaping device in the background art can only carry out shaping on collodion-free cotton with one thickness mostly, and the repeated shaping of collodion-free cotton is easy to occur when the material is fed and discharged on a horizontal plane.

In order to achieve the purpose, the invention provides the following technical scheme: the non-glue cotton processing and shaping device comprises a shaping seat, wherein a lower pressing frame is arranged at the upper end of the shaping seat, a lower pressing seat is arranged in the lower pressing frame, an air cylinder mechanism is arranged at the upper end of the lower pressing frame, a shaping groove is formed in the upper surface of the shaping seat, and a stress plate is arranged in the shaping groove;

further comprising:

the adjusting box is arranged at the lower end of the forming seat, a moving box is arranged on one side of the adjusting box, the moving box and the adjusting box are of an integral structure, and an adjusting cavity is arranged in the adjusting box;

the electric push rod assembly is arranged inside the adjusting cavity, and the stress plate is connected with the electric push rod assembly in a welding mode;

the ball screw is arranged inside the moving box, one end of the ball screw is provided with a servo motor, a screw moving seat is arranged outside the ball screw, and the screw moving seat moves along the ball screw;

the blanking push plate is arranged on one side of the lead screw moving seat, a push plate connecting frame is arranged at one end of the blanking push plate, and the push plate connecting frame and the blanking push plate are of an integrated structure.

Preferably, the lower extreme of regulating box is provided with extends the seat, and extends seat and regulating box structure as an organic whole, the inside of extending the seat is provided with spacing seat, and spacing seat and extension seat structure as an organic whole.

Preferably, the one end of push pedal link is provided with hexagon bolt, and the push pedal link passes through hexagon bolt and lead screw removal seat threaded connection, hexagon bolt is provided with two.

Preferably, a maintenance port is formed in the surface of one side of the movable box, a movable groove is formed in the surface of the other side of the movable box, and the movable groove, the maintenance port and the movable box are of an integrated structure.

Preferably, the front end of access hole is provided with the guard plate, the both ends of guard plate all are provided with the fixed screw, and the guard plate passes through fixed screw and removal case threaded connection, the lower extreme that becomes the shape seat is provided with hollow support frame, and hollow support frame and shaping seat structure as an organic whole.

Preferably, one side of hollow support frame is provided with the conveyer belt, the outside of conveyer belt is provided with the conveying frame, the lower extreme of conveying frame is provided with the supporting leg, and supporting leg and conveying frame structure as an organic whole, the upper end of conveying frame is provided with the cooling frame, the equal welded fastening piece in both sides of cooling frame, the one end of stationary blade is provided with threaded fastener, and the stationary blade passes through threaded fastener and conveying frame threaded connection.

Preferably, the upper end of cooling frame is provided with the protective cover, the upper surface of protective cover is provided with the bleeder vent, and bleeder vent and protective cover structure as an organic whole, the lower extreme of protective cover is provided with connects the post of inserting, the upper surface of cooling frame is provided with connection slot.

Preferably, the inside of cooling frame is provided with the ventilation groove, and the ventilation groove runs through the cooling frame, the inside in ventilation groove is provided with radiator fan, radiator fan's outer wall is provided with fan blade, the inner wall in ventilation groove is provided with the inner circle board, fan blade passes through cross screw and inner circle board threaded connection.

Preferably, the both ends of regulating box both sides all are provided with the fixed plate, and fixed plate and regulating box structure as an organic whole, one side of fixed plate is provided with the single-end fastener, and the fixed plate passes through single-end fastener and hollow support threaded connection.

Preferably, the setting method of the non-collodion cotton processing setting device which can be used for different thicknesses comprises the following steps:

the method comprises the following steps: the front end of the forming seat is externally connected with a non-collodion cotton feeding mechanism, and non-collodion cotton is conveyed into a forming groove on the surface of the forming seat;

step two: starting the electric push rod assembly, moving the stress plate up and down, adjusting the height of the stress plate by means of the thickness of the non-collodion cotton, and after the stress plate is adjusted, starting the air cylinder mechanism to drive the lower pressing seat to perform downward pressing molding operation on the non-collodion cotton;

step three: after the forming is finished, the electric push rod assembly is used for driving the stress plate to move downwards into the adjusting box, the servo motor is started, the lead screw moving seat drives the blanking push plate to move, the non-collodion cotton is pushed to move out of the adjusting box and fall on the conveying belt, and the conveying belt is driven to move through the external gear transmission mechanism;

step four: and starting the cooling fan to carry out wind power cooling treatment on the passing non-collodion cotton.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the adjusting box is arranged at the lower end of the forming seat, the electric push rod assembly is arranged in the adjusting box, and the stress plate is driven by the electric push rod assembly to move up and down along the forming groove, so that the distance between the stress plate and the lower pressing seat is realized, the device can be suitable for non-collodion cotton with different thicknesses, the applicability is improved compared with the existing non-adjustable device, the height of the non-collodion cotton is directly adjusted compared with the existing device which adjusts the height of the lower pressing seat by an air cylinder mechanism to form non-collodion cotton with different thicknesses, the adjusted weight can be reduced, the phenomenon that a moving object falls off due to overweight and long-time quick use is not easy to occur, and the safety is improved.

2. Through set up the removal case in regulating box one side, remove incasement portion and set up by ball, servo motor and lead screw remove the lead screw slide rail that the seat is constituteed, remove the seat through the lead screw and drive unloading push pedal and push pedal link moving as a whole, the no collodion that has moved down promotes, promote no collodion and remove the regulating box, and fall on the conveyer belt, it goes on to drive no collodion and remove to next processing station to rely on the conveyer belt, it separates to have realized no collodion material loading and unloading, not on a horizontal plane, just so can not appear because the conveyer belt trouble carries out the phenomenon of multiple processing to a no collodion and takes place.

3. Through set up the cooling frame in conveying frame upper end, cooling frame internally mounted has radiator fan, carry out wind-force heat dissipation through radiator fan to the non-glued membrane of process and handle, travelling comfort when improving back station personnel touching non-glued membrane, and set up the protective cover in cooling frame upper end, inside the protective cover relies on connecting the post of inserting and inserts the connecting slot, it is fixed with cooling frame to realize the protective cover, the quick assembly disassembly protective cover of being convenient for, rely on the protective cover to play the guard effect to the inside radiator fan of cooling frame simultaneously, prevent to touch the emergence incident with debris.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic diagram of a left side view of the regulating box of the present invention;

FIG. 3 is a schematic top view of the interior of the portable case of the present invention;

FIG. 4 is a schematic top view of the cooling rack of the present invention;

FIG. 5 is a schematic bottom view of the protecting cover of the present invention;

in the figure: 1. forming a base; 2. a hollow support frame; 3. pressing down the frame; 4. a cylinder mechanism; 5. pressing down the base; 6. forming a groove; 7. an adjusting box; 8. a mobile box; 9. a protection plate; 10. fixing screws; 11. a conveyor belt; 12. a transfer frame; 13. supporting legs; 14. a cooling rack; 15. a protective cover; 16. air holes are formed; 17. a fixing sheet; 18. a threaded fastener; 19. a fixing plate; 20. a single-headed fastener; 21. an adjustment chamber; 22. a stress plate; 23. an electric push rod assembly; 24. an extension base; 25. a limiting seat; 26. blanking push plates; 27. the push plate connecting frame; 28. an access hole; 29. a moving groove; 30. a ball screw; 31. a servo motor; 32. a lead screw moving seat; 33. a hexagon bolt; 34. connecting the slots; 35. connecting the inserted columns; 36. a ventilation slot; 37. a heat radiation fan; 38. a fan blade; 39. a cross screw; 40. an inner ring plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-5, an embodiment of the present invention is shown: the non-collodion cotton processing and shaping device comprises a shaping seat 1, wherein a lower pressing frame 3 is arranged at the upper end of the shaping seat 1, a lower pressing seat 5 is arranged inside the lower pressing frame 3, an air cylinder mechanism 4 is arranged at the upper end of the lower pressing frame 3, a shaping groove 6 is arranged on the upper surface of the shaping seat 1, and a stress plate 22 is arranged inside the shaping groove 6;

further comprising:

the adjusting box 7 is arranged at the lower end of the forming seat 1, one side of the adjusting box 7 is provided with a moving box 8, the moving box 8 and the adjusting box 7 are of an integral structure, and an adjusting cavity 21 is arranged inside the adjusting box 7;

the electric push rod assembly 23 is arranged inside the adjusting cavity 21, and the stress plate 22 is connected with the electric push rod assembly 23 in a welding mode;

a ball screw 30 disposed inside the moving box 8, wherein a servo motor 31 is disposed at one end of the ball screw 30, a screw moving base 32 is disposed outside the ball screw 30, and the screw moving base 32 moves along the ball screw 30;

the blanking push plate 26 is arranged on one side of the screw rod moving seat 32, one end of the blanking push plate 26 is provided with a push plate connecting frame 27, and the push plate connecting frame 27 and the blanking push plate 26 are of an integral structure.

Referring to fig. 2, the lower end of the adjusting box 7 is provided with an extending seat 24, the extending seat 24 and the adjusting box 7 are integrated, a limiting seat 25 is arranged inside the extending seat 24, the limiting seat 25 and the extending seat 24 are integrated, one end of the electric push rod assembly 23 is installed inside the extending seat 24, the height of the stress plate 22 moving up and down is increased, and the electric push rod assembly 23 is extruded and limited by the limiting seat 25.

Referring to fig. 3, a hexagonal bolt 33 is disposed at one end of the push plate connecting frame 27, the push plate connecting frame 27 is in threaded connection with the screw moving seat 32 through the hexagonal bolt 33, and two hexagonal bolts 33 are disposed to facilitate the fixation of the push plate connecting frame 27 and the screw moving seat 32, so that the discharging push plate 26 is used to push the collodion-free cotton to move out of the adjusting box 7 and fall on the conveyor belt 11.

Referring to fig. 3, an access opening 28 is formed in one side surface of the moving box 8, a moving groove 29 is formed in the other side surface of the moving box 8, the moving groove 29, the access opening 28 and the moving box 8 are of an integral structure, the push plate connecting frame 27 moves along the moving groove 29, and the inspection and maintenance of the ball screw 30 are facilitated through the access opening 28.

Referring to fig. 1, a protection plate 9 is disposed at the front end of the access opening 28, fixing screws 10 are disposed at both ends of the protection plate 9, the protection plate 9 is in threaded connection with the movable box 8 through the fixing screws 10, a hollow support frame 2 is disposed at the lower end of the forming base 1, the hollow support frame 2 and the forming base 1 are of an integral structure, and safety protection performance of a screw slide rail formed by a ball screw 30, a servo motor 31 and a screw moving base 32 inside the movable box 8 is improved.

Referring to fig. 1, a conveyor belt 11 is disposed on one side of a hollow support frame 2, a conveying frame 12 is disposed outside the conveyor belt 11, supporting legs 13 are disposed at the lower end of the conveying frame 12, the supporting legs 13 and the conveying frame 12 are of an integral structure, a cooling frame 14 is disposed at the upper end of the conveying frame 12, fixing pieces 17 are welded to two sides of the cooling frame 14, a threaded fastener 18 is disposed at one end of each fixing piece 17, the fixing pieces 17 are in threaded connection with the conveying frame 12 through the threaded fastener 18, the conveyor belt 11 is externally connected with a gear transmission mechanism, and mainly comprises a rotating roller, a motor, gears and gear belts, and the conveyor belt 11 is driven to move, so that the non-glue cotton is driven to move.

Referring to fig. 1, 4 and 5, a protective cover 15 is disposed at an upper end of the cooling rack 14, an air hole 16 is disposed on an upper surface of the protective cover 15, the air hole 16 and the protective cover 15 are integrated, a connecting post 35 is disposed at a lower end of the protective cover 15, and a connecting slot 34 is disposed on an upper surface of the cooling rack 14, so that the protective cover 15 protects the cooling fan 37.

Referring to fig. 4, a ventilation groove 36 is formed in the cooling frame 14, the ventilation groove 36 penetrates through the cooling frame 14, a heat dissipation fan 37 is arranged in the ventilation groove 36, a fan blade 38 is arranged on the outer wall of the heat dissipation fan 37, an inner ring plate 40 is arranged on the inner wall of the ventilation groove 36, the fan blade 38 is in threaded connection with the inner ring plate 40 through a cross screw 39, wind power heat dissipation processing is performed on passing non-collodion cotton by means of the heat dissipation fan 37, and comfort when post-station personnel touch the non-collodion cotton is improved.

Referring to fig. 1 and 2, two ends of two sides of the adjusting box 7 are respectively provided with a fixing plate 19, the fixing plate 19 and the adjusting box 7 are integrated, one side of the fixing plate 19 is provided with a single-head fastener 20, and the fixing plate 19 is in threaded connection with the hollow supporting frame 2 through the single-head fastener 20, so that the adjusting box 7 can be fixed and detached conveniently.

Referring to fig. 1-5, the setting method for the non-collodion cotton processing and setting device with different thicknesses includes the following steps:

the method comprises the following steps: the front end of the forming base 1 is externally connected with a non-collodion cotton feeding mechanism, and non-collodion cotton is conveyed into a forming groove 6 on the surface of the forming base 1;

step two: starting the electric push rod assembly 23, moving the stress plate 22 up and down, adjusting the height of the stress plate 22 by means of the thickness of the non-collodion cotton, and starting the air cylinder mechanism 4 to drive the pressing base 5 to press and form the non-collodion cotton after the adjustment is finished;

step three: after the forming is finished, the electric push rod assembly 23 is used for driving the stress plate 22 to move downwards into the adjusting box 7, the servo motor 31 is started, the lead screw moving seat 32 drives the blanking push plate 26 to move, the non-collodion cotton is pushed to move out of the adjusting box 7 and fall on the conveying belt 11, and the conveying belt 11 is driven to move through the external gear transmission mechanism;

step four: the heat radiation fan 37 is started to perform wind power heat radiation treatment on the passing non-collodion cotton.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. The non-collodion cotton processing and shaping device comprises a shaping seat (1), wherein a lower pressing frame (3) is arranged at the upper end of the shaping seat (1), a lower pressing seat (5) is arranged inside the lower pressing frame (3), an air cylinder mechanism (4) is arranged at the upper end of the lower pressing frame (3), a shaping groove (6) is formed in the upper surface of the shaping seat (1), and a stress plate (22) is arranged inside the shaping groove (6);

the method is characterized in that: further comprising:

the adjusting box (7) is arranged at the lower end of the forming seat (1), a moving box (8) is arranged on one side of the adjusting box (7), the moving box (8) and the adjusting box (7) are of an integral structure, and an adjusting cavity (21) is arranged in the adjusting box (7);

the electric push rod assembly (23) is arranged inside the adjusting cavity (21), and the stress plate (22) is connected with the electric push rod assembly (23) in a welding mode;

the ball screw (30) is arranged inside the moving box (8), one end of the ball screw (30) is provided with a servo motor (31), a screw moving seat (32) is arranged outside the ball screw (30), and the screw moving seat (32) moves along the ball screw (30);

the blanking push plate (26) is arranged on one side of the lead screw moving seat (32), a push plate connecting frame (27) is arranged at one end of the blanking push plate (26), and the push plate connecting frame (27) and the blanking push plate (26) are of an integral structure.

2. The non-collodion process-setting device useful for different thicknesses of claim 1, wherein: the lower extreme of regulating box (7) is provided with extends seat (24), and extends seat (24) and regulating box (7) structure as an organic whole, the inside of extending seat (24) is provided with spacing seat (25), and spacing seat (25) and extension seat (24) structure as an organic whole.

3. The non-collodion process-setting device useful for different thicknesses of claim 2, wherein: one end of the push plate connecting frame (27) is provided with a hexagon bolt (33), the push plate connecting frame (27) is in threaded connection with the lead screw moving seat (32) through the hexagon bolt (33), and the number of the hexagon bolts (33) is two.

4. The non-collodion process-setting device of claim 3, useful for different thicknesses, characterized in that: an access hole (28) is formed in the surface of one side of the movable box (8), a movable groove (29) is formed in the surface of the other side of the movable box (8), and the movable groove (29), the access hole (28) and the movable box (8) are of an integral structure.

5. The non-collodion process-setting device useful for different thicknesses of claim 4, wherein: the front end of access hole (28) is provided with guard plate (9), the both ends of guard plate (9) all are provided with fixed screw (10), and guard plate (9) through fixed screw (10) and removal case (8) threaded connection, the lower extreme that becomes shape seat (1) is provided with hollow support frame (2), and hollow support frame (2) and shaping seat (1) structure as an organic whole.

6. The non-collodion process-setting device of claim 5, useful for different thicknesses, characterized in that: one side of hollow support frame (2) is provided with conveyer belt (11), the outside of conveyer belt (11) is provided with conveying frame (12), the lower extreme of conveying frame (12) is provided with supporting leg (13), and supporting leg (13) and conveying frame (12) structure as an organic whole, the upper end of conveying frame (12) is provided with cooling frame (14), the equal welded fastening piece (17) in both sides of cooling frame (14), the one end of stationary blade (17) is provided with threaded fastener (18), and stationary blade (17) pass through threaded fastener (18) and conveying frame (12) threaded connection.

7. The non-collodion process-setting device useful for different thicknesses of claim 6, wherein: the upper end of cooling frame (14) is provided with protective cover (15), the upper surface of protective cover (15) is provided with bleeder vent (16), and bleeder vent (16) and protective cover (15) structure as an organic whole, the lower extreme of protective cover (15) is provided with connects and inserts post (35), the upper surface of cooling frame (14) is provided with connection slot (34).

8. The non-collodion process-setting device useful for different thicknesses of claim 7, wherein: the inside of cooling frame (14) is provided with ventilation groove (36), and ventilation groove (36) run through cooling frame (14), the inside of ventilation groove (36) is provided with radiator fan (37), the outer wall of radiator fan (37) is provided with fan piece (38), the inner wall of ventilation groove (36) is provided with inner circle board (40), fan piece (38) are through cross screw (39) and inner circle board (40) threaded connection.

9. The non-collodion process-setting device useful for different thicknesses of claim 8, wherein: both ends of regulating box (7) both sides all are provided with fixed plate (19), and fixed plate (19) and regulating box (7) structure as an organic whole, one side of fixed plate (19) is provided with single-end fastener (20), and fixed plate (19) pass through single-end fastener (20) and hollow support frame (2) threaded connection.

10. The sizing method of the non-collodion cotton processing sizing device which can be used for different thicknesses is realized on the basis of the non-collodion cotton processing sizing device which can be used for different thicknesses in claim 9, and is characterized by comprising the following steps:

the method comprises the following steps: the front end of the forming seat (1) is externally connected with a non-collodion cotton feeding mechanism, and non-collodion cotton is conveyed into a forming groove (6) on the surface of the forming seat (1);

step two: starting the electric push rod assembly (23), moving the stress plate (22) up and down, adjusting the height of the stress plate (22) by means of the thickness of the non-collodion cotton, and starting the air cylinder mechanism (4) to drive the pressing base (5) to perform pressing forming operation on the non-collodion cotton after the adjustment is finished;

step three: after the forming is finished, an electric push rod assembly (23) is used for driving a stress plate (22) to move downwards to the inside of the adjusting box (7), a servo motor (31) is started, a lead screw moving seat (32) drives a blanking push plate (26) to move, the non-collodion cotton is pushed to move out of the adjusting box (7) and fall on the conveying belt (11), and the conveying belt (11) is driven to move through an external gear transmission mechanism;

step four: and starting the heat radiation fan (37) to perform wind power heat radiation treatment on the passing non-collodion cotton.

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