CN219257766U - Device for uniformly distributing material in sponge - Google Patents

Abstract

The utility model relates to a device for uniformly distributing a material body in a sponge body, which comprises a vacuum generating component, a mounting plate and a base, wherein a mold groove is formed in the base, an air hole is formed in the bottom of the mold groove, the air hole is connected with the vacuum generating component, an air cylinder is arranged right above the mold groove on the mounting plate, the output end of the air cylinder is connected with a connecting shaft, the lower end of the connecting shaft is connected with an adsorption head, a plurality of adsorption holes are formed in the adsorption head, the adsorption head is communicated with a recovery tank through a guide pipe, one side of the recovery tank, which is away from the guide pipe, is connected with the vacuum generating component, and the sponge in an air cushion BB frost shell is extruded by the air cylinder and the sponge in the air cushion BB frost shell is adsorbed by the vacuum generating component, so that the material body in the sponge is uniformly distributed, and no overflow is generated.

Description

Device for uniformly distributing material in sponge

Technical Field

The utility model relates to the technical field of equipment for uniformly distributing material in a sponge, in particular to a device for uniformly distributing material in the sponge.

Background

The air cushion BB cream is a sponge air cushion type BB powder condensation cream, in the production process, a material body needs to be filled into an air cushion BB cream shell, then sponge is put, and the sponge is used for absorbing the material body in an extrusion mode, but the sponge is easy to overflow due to the extrusion mode, and the sponge is uneven in absorption, so that the quality of the air cushion BB cream is poor.

Disclosure of Invention

The utility model aims to design a device for uniformly distributing material bodies in a sponge body, so that the material bodies in the sponge body can be uniformly distributed, and the texture of a product is more uniform.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the device for uniformly distributing the material bodies in the sponge bodies comprises a base, a mounting plate, a vacuum generating assembly and a height adjusting assembly, wherein the vacuum generating assembly is arranged on the mounting plate; the base is provided with a die groove, a cylinder is arranged right above the die groove on the mounting plate, the output end of the cylinder is connected with a connecting shaft, the lower end of the connecting shaft is connected with an adsorption head, the adsorption head is provided with a plurality of adsorption holes, and the centers of the connecting shaft, the adsorption head and the die groove are on the same axis; the adsorption head is communicated with a recovery tank through a conduit, and one side of the recovery tank, which is avoided from the conduit, is communicated with the vacuum generating assembly.

Further, an air hole is formed in the bottom of the die groove, and the air hole is communicated with the vacuum generating assembly.

Further, the vacuum generating assembly comprises an oil-water separator, a first vacuum generator and a second vacuum generator, wherein the oil-water separator is arranged on one side of the mounting plate, an air inlet of the oil-water separator is connected with an air pump, an air outlet of the oil-water separator is communicated with a first air pipe, the first air pipe is respectively communicated with a second air pipe and a third air pipe through a first three-way joint, the second air pipe is communicated with an electromagnetic valve, the third air pipe is communicated with the first vacuum generator, and the first vacuum generator is communicated with the bottom of the mold groove through a fourth air pipe; the electromagnetic valve is communicated with the lower part of the air cylinder through a fifth air pipe, the electromagnetic valve is further connected with a sixth air pipe, the sixth air pipe is respectively communicated with a seventh air pipe and an eighth air pipe through a second three-way joint, the seventh air pipe is communicated with the upper part of the air cylinder, the eighth air pipe is communicated with the second vacuum generator, and the second vacuum generator is communicated with the recovery tank through a ninth air pipe.

Further, the height adjusting assembly comprises a screw rod, a rotary handle, a cross beam, two fixing seats and two polished rods, wherein the two fixing seats are respectively arranged on the base, a connecting line between the two fixing seats is parallel to a side line of the base, and the two polished rods are respectively fixedly connected with the base through the two fixing seats; the mounting plate is slidably mounted on the polish rod through the through holes, and the tops of the two polish rods are connected with the cross beam; the middle part of mounting panel is equipped with the screw hole, the lead screw runs through the crossbeam with the screw hole threaded connection of mounting panel, the top of lead screw with rotatory handle is connected.

Further, two notches are formed in the upper portion of the die groove, the positions of the two notches are opposite, and steps are arranged in the die groove.

Compared with the prior art, the utility model has the beneficial effects that:

when the air cushion BB frost packaging device is used, a filled material body and an air cushion BB frost shell for placing a sponge are placed in a mould groove, a height adjusting component adjusts a mounting plate, an air cylinder and an adsorption head according to the height of the air cushion BB frost shell, a vacuum generating component is started, the air cylinder is pushed out and drives a connecting shaft to move downwards, the connecting shaft moves to drive the adsorption head to move downwards until the adsorption head extrudes the sponge in the air cushion BB frost shell, the vacuum generating component sequentially passes through a recovery tank, a guide pipe, the adsorption head and an adsorption hole to generate suction, the material body is uniformly sucked into the sponge, and meanwhile, redundant material body sequentially passes through the adsorption hole, the adsorption head and the guide pipe to be sucked back into the recovery tank, so that the material body in the sponge is uniformly distributed, and no overflow is generated.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a first angular perspective view of the present utility model;

FIG. 2 is a second angular perspective view of the present utility model;

FIG. 3 is a third angular perspective view of the present utility model;

fig. 4 is an enlarged view at a of fig. 3.

The names of the components marked in the figures are as follows:

1. a mounting plate; 2. a base; 3. a mold groove; 4. air holes; 5. a cylinder; 6. a connecting shaft; 7. an adsorption head; 8. a conduit; 9. a recovery tank; 10. an oil-water separator; 11. a first air tube; 12. a first three-way joint; 13. a second air pipe; 14. a third air pipe; 15. an electromagnetic valve; 16. a first vacuum generator; 17. a fourth air pipe; 18. a fifth air pipe; 19. a sixth air pipe; 20. a second three-way joint; 21. a seventh air pipe; 22. an eighth air pipe; 23. a second vacuum generator; 24. a ninth air pipe; 25. a screw rod; 26. rotating the handle; 27. a fixing seat; 28. a polish rod; 29. and a cross beam.

Detailed Description

In order to further describe the technical means and effects adopted by the present utility model for achieving the intended purpose, the following detailed description will refer to the specific implementation, structure, characteristics and effects according to the present utility model with reference to the accompanying drawings and preferred embodiments.

Examples: referring to fig. 1-4, a device for uniformly distributing a material body in a sponge body comprises a mounting plate 1 and a base 2, wherein a vacuum generating assembly is arranged on the mounting plate, and the device also comprises a height adjusting assembly which is arranged on the base 2 and is in sliding connection with the mounting plate 1; the base 2 is provided with a mold groove 3, two notches are formed in the upper portion of the mold groove 3, the positions of the two notches are opposite, steps are arranged in the mold groove 3, the size of each step is consistent with that of the bottom of the air cushion BB cream shell, and the notches are matched with the steps, so that the air cushion BB cream shell is placed and completely attached to the mold groove 3; an air hole 4 is formed in the bottom of the mold groove 3, the air hole 4 is communicated with the vacuum generating assembly, and suction force is generated by the air hole 4 through negative pressure to further fix the air cushion BB frost shell; the mounting plate 1 is provided with a cylinder 5 right above the die groove 3, the output end of the cylinder 5 is connected with a connecting shaft 6, the lower end of the connecting shaft 6 is connected with an adsorption head 7, a plurality of adsorption holes are formed in the adsorption head 7, and the centers of the connecting shaft 6, the adsorption head 7 and the die groove 3 are on the same axis; the adsorption head 7 is communicated with a recovery tank 9 through a conduit 8, and one side of the recovery tank 9, which is avoided from the conduit 8, is communicated with a vacuum generating component. After the air cushion BB frost shell is filled with a material body and placed into a sponge, the material body is placed into the mold groove 3, the height adjusting component adjusts the mounting plate 1, the air cylinder 5 and the adsorption head 7 according to the height of the air cushion BB frost shell, the air pump is started, the air hole 4 at the bottom of the mold groove 3 adsorbs and fixes the air cushion BB frost shell, the air cylinder 5 is pushed out simultaneously, the connecting shaft 6 is driven to move downwards, the connecting shaft 6 is moved to drive the adsorption head 7 to move downwards until the adsorption head 7 extrudes the sponge in the air cushion BB frost shell, the vacuum generating component sequentially passes through the recovery tank 9, the guide pipe 8, the adsorption head 7 and the adsorption hole to generate suction, the material body is uniformly sucked into the sponge, and meanwhile, the redundant material body sequentially passes through the adsorption hole, the adsorption head 7 and the guide pipe 8 to be sucked back into the recovery tank 9.

The vacuum generating assembly comprises an oil-water separator 10, a first vacuum generator 16 and a second vacuum generator 23, wherein the oil-water separator 10 is arranged on one side of the mounting plate 1, an air inlet of the oil-water separator 10 is connected with an air pump, an air outlet of the oil-water separator 10 is communicated with a first air pipe 11, the air pump compresses air, compressed air enters from the air inlet of the oil-water separator 10 to be separated from oil and water, the air is dried, and the air is conveyed to the first air pipe 11 from an air outlet of the oil-water separator 10, so that the damage to the first vacuum generator 16 and the second vacuum generator 23 is reduced; the first air pipe 11 is respectively communicated with the second air pipe 13 and the third air pipe 14 through the first three-way joint 12, the second air pipe 13 is communicated with the electromagnetic valve 15, the third air pipe 14 is communicated with the first vacuum generator 16, the first vacuum generator 16 is communicated with the bottom of the mold groove 3 through the fourth air pipe 17, and the controller is electrically connected with the first vacuum generator 16 and controls the first vacuum generator 16 to be opened and closed. The controller is electrically connected with the electromagnetic valve 15, the electromagnetic valve 15 is communicated with the lower part of the air cylinder 5 through a fifth air pipe 18, the extension of the air cylinder 5 is controlled, the electromagnetic valve 15 is also connected with a sixth air pipe 19, the sixth air pipe 19 is respectively communicated with a seventh air pipe 21 and an eighth air pipe 22 through a second three-way joint, the seventh air pipe 21 is communicated with the upper part of the air cylinder 5, the contraction of the air cylinder 5 is controlled, the eighth air pipe 22 is communicated with a second vacuum generator 23, the starting of the second vacuum generator 23 is controlled, and the second vacuum generator 23 is communicated with the recovery tank 9 through a ninth air pipe 24. After the air cushion BB frost shell is placed in the mold groove 3, an air pump and a first vacuum generator 16 are started at the same time, compressed air in the air pump sequentially passes through an oil-water separator 10, a first air pipe 11 and a first three-way joint 12, and is respectively conveyed to an electromagnetic valve 15 through a second air pipe 13 and to the first vacuum generator 16 through a third air pipe 14, the first vacuum generator 16 converts the conveyed compressed air into negative pressure, then the bottom of the mold groove 3 is pumped with the negative pressure through a fourth air pipe 17, and the air hole 4 generates suction force to further fix the air cushion BB frost shell; simultaneously, the electromagnetic valve 15 is electrified, compressed air of the second air pipe 13 is conveyed to the sixth air pipe 19, and the sixth air pipe 19 is respectively ventilated with the seventh air pipe 21 and the eighth air pipe 22 by using the second three-way joint 20; the seventh air pipe 21 is ventilated with the upper part of the air cylinder 5, compressed air is exhausted from the fifth air pipe 18 through a fifth air pipe exhaust port of the electromagnetic valve 15, the air cylinder 5 stretches out to drive the connecting shaft 6 to move downwards, the connecting shaft 6 moves downwards to drive the adsorption head 7 to move downwards, and sponge in the air cushion BB frost shell is extruded; meanwhile, an eighth air pipe 22 is communicated with a second vacuum generator 23, the second vacuum generator 23 converts the conveyed compressed air into negative pressure, then negative pressure is pumped to the recovery tank 9 through a ninth air pipe 24, the recovery tank 9 is communicated with the adsorption head 7 through a guide pipe 8, suction is generated by an adsorption hole of the adsorption head 7 to uniformly suck the material into the sponge, and meanwhile, redundant material sequentially passes through the adsorption hole, the adsorption head 7 and the guide pipe 8 and is sucked back into the recovery tank 9; after extrusion and material suction are completed, the controller controls the electromagnetic valve 15 to be powered off, the second vacuum generator 23 is in a stop state, compressed air of the second air pipe 13 is conveyed to the fifth air pipe 18 through the electromagnetic valve 15, the fifth air pipe 18 and the lower part of the air cylinder 5 are ventilated, the compressed air is sequentially exhausted from the eighth air pipe 22 and the seventh air pipe 21 through the seventh air pipe exhaust port of the electromagnetic valve 15, the air cylinder 5 is contracted, the connecting shaft 6 is driven to move upwards, the connecting shaft 6 moves upwards to drive the adsorption head 7 to move upwards, the first vacuum generator 16 is closed, air cushion BB frost which is already extruded is taken away, and then extrusion and material suction of the next air cushion BB frost are carried out.

The height adjusting assembly comprises a screw rod 25, a rotary handle 26, a cross beam 29, two fixing seats 27 and two polished rods 28, wherein the two fixing seats 27 are respectively arranged on the base 2, a connecting line between the two fixing seats 27 is parallel to the side line of the base 2, the two polished rods 28 are respectively fixedly connected with the base 2 through the two fixing seats 27, through holes are formed in positions, corresponding to the polished rods 28, on the mounting plate 1, the mounting plate 1 is slidably arranged on the polished rods 28 through the through holes, and the tops of the two polished rods 28 are connected with the cross beam 29; the middle part of mounting panel 1 is equipped with the screw hole, and lead screw 25 runs through crossbeam 29 and mounting panel 1's screw hole threaded connection, and the top and the rotatory handle 26 of lead screw 25 are connected. When the air cushion BB frost shell is placed in the mold groove 3, the rotary handle 26 is manually rotated according to the height of the air cushion BB frost shell, the rotary handle 26 rotates to drive the screw rod 25 to rotate, and the screw rod 25 is matched with the mounting plate 1 in a threaded connection manner to drive the mounting plate 1 to slide on the polish rod 28 to be adjusted to a proper height.

The working principle of the embodiment is as follows: after the air cushion BB frost shell is filled with a material body and is put into a sponge, the material body is put into a mold groove 3, a rotary handle 26 is manually rotated according to the height of the air cushion BB frost shell, the rotary handle 26 rotates to drive a screw rod 25 to rotate, and the screw rod 25 is matched with a threaded hole on the mounting plate 1 to drive the mounting plate 1 to slide on a polished rod 28 and adjust to a proper height; starting an air pump, starting a first vacuum generator 16, and adsorbing and fixing an air hole 4 at the bottom of a die groove 3 to a shell; the electromagnetic valve 15 is electrified, the air cylinder 5 stretches out to drive the connecting shaft 6 to move downwards, the connecting shaft 6 moves to drive the adsorption head 7 to move downwards until the adsorption head 7 extrudes the sponge in the air cushion BB frost shell, meanwhile, the second vacuum generator 23 is started, suction is generated through the recovery tank 9, the guide pipe 8, the adsorption head 7 and the adsorption hole in sequence, the material is uniformly sucked into the sponge, and the redundant material is sucked back into the recovery tank 9 through the adsorption hole, the adsorption head 7 and the guide pipe 8 in sequence; the electromagnetic valve 15 is powered off, the second vacuum generator 23 is closed, the air cylinder 5 is contracted, the connecting shaft 6 is driven to move upwards, the connecting shaft 6 is driven to move the adsorption head 7 upwards, the first vacuum generator 16 is closed, the air cushion BB frost which is already extruded is taken away, and then extrusion and suction of the next air cushion BB frost are carried out, so that circulation is carried out.

It should be noted that, in all the embodiments described above, the controller may include a programmable controller or a PLC or a single chip microcomputer commonly used in the market, and is used to control the energization of the electromagnetic valve and the opening and closing of the vacuum generator, etc., where the controller may make corresponding action instructions for each mechanism according to the feedback signal, so that the control device operates the operations of stretching, pushing out, and adsorbing the cylinder, etc., and the specific control mode of the control system is not in the protection scope of the present utility model, and will not be repeated herein;

when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "upper," "lower," "left," "right," "front," "back," and the like are used herein for illustrative purposes only.

The present utility model is not limited to the above embodiments, but is capable of modification and variation in detail, and other modifications and variations can be made by those skilled in the art without departing from the scope of the present utility model.

Claims (5)

1. The utility model provides a make device of material body evenly distributed in cavernosum, includes base (2) and mounting panel (1), install vacuum generation subassembly, its characterized in that on mounting panel (1): the height adjusting assembly is mounted on the base (2) and is in sliding connection with the mounting plate (1); the base (2) is provided with a die groove (3), a cylinder (5) is arranged right above the die groove (3) on the mounting plate (1), the output end of the cylinder (5) is connected with a connecting shaft (6), the lower end of the connecting shaft (6) is connected with an adsorption head (7), a plurality of adsorption holes are formed in the adsorption head (7), and the centers of the connecting shaft (6), the adsorption head (7) and the die groove (3) are on the same axis; the adsorption head (7) is communicated with a recovery tank (9) through a guide pipe (8), and one side, avoiding the guide pipe (8), of the recovery tank (9) is communicated with the vacuum generation assembly.

2. The device for uniformly distributing a mass in a sponge as claimed in claim 1 wherein: and an air hole (4) is formed in the bottom of the die groove (3), and the air hole (4) is communicated with the vacuum generating component.

3. The device for uniformly distributing a mass in a sponge as claimed in claim 2 wherein: the vacuum generating assembly comprises an oil-water separator (10), a first vacuum generator (16) and a second vacuum generator (23), wherein the oil-water separator (10) is arranged on one side of the mounting plate (1), an air inlet of the oil-water separator (10) is connected with an air pump, an air outlet of the oil-water separator (10) is communicated with a first air pipe (11), the first air pipe (11) is respectively communicated with a second air pipe (13) and a third air pipe (14) through a first three-way joint (12), the second air pipe (13) is communicated with an electromagnetic valve (15), the third air pipe (14) is communicated with the first vacuum generator (16), and the first vacuum generator (16) is communicated with the bottom of the mold groove (3) through a fourth air pipe (17); the electromagnetic valve (15) is communicated with the lower portion of the air cylinder (5) through a fifth air pipe (18), the electromagnetic valve (15) is further connected with a sixth air pipe (19), the sixth air pipe (19) is respectively communicated with a seventh air pipe (21) and an eighth air pipe (22) through a second three-way joint (20), the seventh air pipe (21) is communicated with the upper portion of the air cylinder (5), the eighth air pipe (22) is communicated with a second vacuum generator (23), and the second vacuum generator (23) is communicated with the recovery tank (9) through a ninth air pipe (24).

4. The device for uniformly distributing a mass in a sponge as claimed in claim 1 wherein: the height adjusting assembly comprises a screw rod (25), a rotary handle (26), a cross beam (29), two fixing seats (27) and two polished rods (28), wherein the two fixing seats (27) are respectively arranged on the base (2), a connecting line between the two fixing seats (27) is parallel to a side line of the base (2), and the two polished rods (28) are respectively fixedly connected with the base (2) through the two fixing seats (27); through holes are formed in the mounting plate (1) at positions corresponding to the polished rods (28), the mounting plate (1) is slidably mounted on the polished rods (28) through the through holes, and the tops of the two polished rods (28) are connected with the cross beam (29); the middle part of mounting panel (1) is equipped with the screw hole, lead screw (25) run through the crossbeam with the screw hole threaded connection of mounting panel (1), the top of lead screw (25) with rotatory handle (26) are connected.

5. The device for uniformly distributing a mass in a sponge as claimed in claim 1 wherein: two notches are formed in the upper portion of the die groove (3), the positions of the two notches are opposite, and steps are arranged in the die groove (3).

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