CN216186483U - Smell residue removing system applied to bottle cap production process - Google Patents

Abstract

The utility model discloses a smell residue removing system applied to a bottle cap production process, which is applied to the field of bottle cap production processes and solves the technical problem that the use is influenced because a part of smell generated by volatilization is generated due to higher temperature of a bottle cap gripping part and a gasket during forming, and the key points of the technical scheme are as follows: comprises a box loading mechanism, a box discharging mechanism and a cooling mechanism; the boxing mechanism comprises a support frame, a supporting roller rotationally connected with the support frame and sealing plates arranged on two sides of the support frame; the box discharging mechanism comprises a box discharging support, a conveying roller, a sealing curtain and a sealing top plate, wherein the conveying roller is rotatably connected with the box discharging support; the cooling mechanism comprises cold source equipment and a cold conveying main pipeline communicated with the cold source equipment, and the cold conveying main pipeline is communicated with the temporary storage chamber; has the technical effects of removing odor residues generated after the bottle cap is produced and inhibiting the generation of odor.

Description

Smell residue removing system applied to bottle cap production process

Technical Field

The utility model relates to the field of bottle cap production processes, in particular to a smell residue removing system applied to a bottle cap production process.

Background

At present, the Chinese utility model patent application with publication number CN213355402U discloses a novel easily-opened bottle cap, which comprises a bottle cap buckled on a bottle mouth of a bottle and sealing the bottle cap, and a holding element connected with the bottle cap and protruding outwards, wherein the holding element sequentially comprises a connecting part and a holding part from top to bottom, the holding part is provided with lines, the connecting part is connected with the bottle cap, the connecting part and the holding part are integrally formed and are in a solid tongue shape, the holding element is bilaterally symmetrical with a vertical central plane thereof, the inner wall of the holding element is a concave cambered surface, and the holding part is thin at the top and thick at the bottom; the bottle cap comprises a shell and a gasket arranged in the shell.

The gripping part and the gasket are both made of plastics, and the plastics are formed by melting plastic particles at high temperature and then injection molding by using a mold; because in order to guarantee the cleanliness of the bottle cap, a closed production environment is usually adopted in the production process, the production period of a single bottle cap is short, and because the temperature of the grip part and the gasket is high during forming, partial volatilization can be caused to generate peculiar smell, so that the use is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a smell residue removing system applied to a bottle cap production process, which has the advantages that the smell residue generated after the production of a bottle cap can be removed, and the generation of the smell can be well inhibited.

The technical purpose of the utility model is realized by the following technical scheme: a smell residue removing system applied to a bottle cap production process comprises a boxing mechanism for boxing bottle caps, a box discharging mechanism for outputting box bodies and a cooling mechanism for cooling the bottle caps;

the boxing mechanism comprises a support frame, a supporting roller rotationally connected with the support frame and sealing plates arranged on two sides of the support frame;

the box discharging mechanism comprises a box discharging support, a conveying roller, a sealing curtain and a sealing top plate, wherein the conveying roller is rotatably connected with the box discharging support;

the cooling mechanism comprises cold source equipment and a cold conveying main pipeline communicated with the cold source equipment, and the cold conveying main pipeline is communicated with the temporary storage chamber.

According to the technical scheme, the supporting frame is used for mounting the supporting roller, the supporting roller is used for supporting the box body, and the supporting roller can be driven to move in a chain or gear mode so as to convey the box body; the closing plate is used for closing two sides of the supporting frame so as to form a relatively closed space; the box discharging support is used for supporting a conveying roller, a sealing curtain and a sealing top plate, the conveying roller is used for supporting and conveying a box body with a bottle cap placed, and the sealing curtain and the sealing top plate form a relatively closed space; the cold source device in the cooling mechanism is used for generating a cold source so as to reduce the temperature of the air; the cold conveying main pipeline is used for conveying cold air to the box body for storing the bottle caps so as to reduce the problems in the box body and better inhibit the volatilization of plastics on the bottle caps; and the original gas in the box body can be replaced by the cold air, so that the peculiar smell can be better removed.

The utility model is further configured to: the cold conveying main pipeline is communicated with a plurality of cold conveying branch pipes, the cold conveying branch pipes penetrate through the sealing top plate and are communicated with the temporary storage chamber, and one end of each cold conveying branch pipe, which is far away from the cold conveying main pipeline, is provided with an opening facing the box body.

Through above-mentioned technical scheme, a plurality of defeated cold branch pipes can cool off in a plurality of boxes simultaneously to improve cooling efficiency.

The utility model is further configured to: the closed plates on the two sides are respectively provided with an air deflector, an air cavity is arranged in the air deflector, one side of the air deflector, which faces the middle of the supporting plate, is provided with an air guide hole communicated with the air cavity, and the air guide hole is obliquely arranged along one side far away from the air cavity;

the cold transmission main pipeline is communicated with an air guide pipe, and the air guide pipe is communicated with the air cavity.

According to the technical scheme, the air cavity is used for collecting cold air together, and the air guide holes are used for guiding the trend of the cold air; the cold air on the two sides forms a V-shaped convection state, so that when the bottle cap falls, the cold air can be coated on the surface of the bottle cap to achieve a good cooling effect, and further volatilization of plastics is inhibited.

The utility model is further configured to: the support frame below is provided with bears the frame, the support frame slides along the vertical direction that bears the frame and sets up, bear and be provided with the drive assembly that the drive support frame slided on the frame.

Through above-mentioned technical scheme, bear the frame and be used for supporting drive assembly and support frame, drive assembly is used for driving the support frame and slides along vertical direction to make the box that is equipped with the bottle lid on the support frame produce reciprocal shake motion, thereby make the more even that the bottle lid distributes in the box.

The utility model is further configured to: and the cold conveying main pipeline and the cold conveying branch pipelines are coated with heat insulation layers.

Through above-mentioned technical scheme, the heat preservation is arranged in playing isolated defeated cold trunk line and defeated cold branch pipe way gaseous and the heat exchange of outside gas for the air conditioning in defeated cold trunk line and the defeated cold branch pipe way can keep lower temperature.

The utility model is further configured to: the heat preservation layer comprises a heat preservation asbestos layer and a tin foil layer which are sequentially arranged from inside to outside.

By the technical scheme, the asbestos is a material with a microporous structure, and the heat-insulating effect is excellent; the tin foil layer can reflect heat radiation, and further avoids heat exchange between external hot air and gas in the pipeline.

The utility model is further configured to: the driving assembly comprises a driving motor, a driving cam arranged on a main shaft of the driving motor and a butting wheel rotationally connected with the supporting frame.

Through above-mentioned technical scheme, driving motor is used for driving the drive cam and rotates, and the butt wheel is used for reducing the coefficient of friction between drive cam and the support frame for drive support frame that the drive cam can be more stable slides along vertical direction.

The utility model is further configured to: and a spiral air guide sheet is arranged in the cold conveying branch pipe.

Through the technical scheme, the air deflector is used for guiding cold air to move spirally in the cold conveying branch pipe, so that the cold air can enter the box body for storing the bottle cap spirally, original gas in the box body is disturbed, and the emission of the original gas in the box body is accelerated; the speed of cooling the bottle cap is improved, and meanwhile, volatilized gas with peculiar smell in the box body can be replaced.

The utility model is further configured to: the cold-conveying branch pipe is provided with the whirl subassembly in the opening towards the box, the whirl subassembly includes circular shape whirl mounting panel and whirl aerofoil, the whirl aerofoil sets up for the terminal surface slope of whirl mounting panel, the whirl aerofoil evenly is provided with a plurality ofly along the circumferencial direction of whirl mounting panel.

According to the technical scheme, the rotational flow mounting plate is used for mounting the rotational flow air plate, and the rotational flow air plate is used for scattering cold air and guiding the cold air to move in a rotational flow manner, so that a plurality of strands of rotational flow flowing cold air are formed; gas in the disturbance box that can be further, the circulation of gaseous in the further improvement box to cold wind can reduce the stability in the box, and further suppression plastics volatilize and produce the peculiar smell.

In conclusion, the utility model has the following beneficial effects:

1. cold air is input into the box body for containing the bottle cap, so that volatilized odor gas in the box body can be quickly replaced, meanwhile, the temperature in the box body can be reduced, and the generation of odor can be well inhibited;

2. the cyclone air plate guides cold air to flow in a cyclone shape, so that the air flow in the box body can be disturbed well, and the efficiency of removing peculiar smell and inhibiting the generation of peculiar smell is further improved.

Drawings

FIG. 1 is a schematic structural view of the whole of embodiment 1;

FIG. 2 is a schematic structural view of a box discharging mechanism according to embodiment 1;

FIG. 3 is a schematic structural view of a drive assembly of embodiment 1;

FIG. 4 is a schematic structural view of the inside of a cold transport branch pipe of embodiment 1;

fig. 5 is a cross-sectional view of the air deflection plate of example 1;

FIG. 6 is a schematic layer structure of the insulation layer of example 1;

fig. 7 is a schematic structural view of the swirling assembly of embodiment 2.

Reference numerals: 1. a boxing mechanism; 2. a box discharging mechanism; 3. a cooling mechanism; 4. a support frame; 5. a support roller; 6. a closing plate; 7. discharging the box from the bracket; 8. a conveying roller; 9. a sealing curtain; 10. sealing the top plate; 11. a cold source device; 12. a cold conveying main pipeline; 13. a cold conveying branch pipe; 14. an air deflector; 15. an air guide pipe; 16. a carrier; 17. a drive assembly; 18. a heat-insulating layer; 19. a heat-insulating asbestos layer; 20. a tin foil layer; 21. a drive motor; 22. a drive cam; 23. a butting wheel; 24. a wind guide sheet; 25. a swirl assembly; 26. a rotational flow mounting plate; 27. a cyclone air plate; 28. a wind guide hole; 29. and a wind cavity.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Example 1:

referring to fig. 1, the odor residue removing system applied to the bottle cap production process comprises a boxing mechanism 1, a box discharging mechanism 2 and a cooling mechanism 3, wherein the boxing mechanism 1 is used for boxing bottle caps, the box discharging mechanism 2 is used for temporarily placing bottle cap packaging boxes after boxing, and the cooling mechanism 3 is used for cooling air and the bottle caps in a box body.

Referring to fig. 2, the boxing mechanism 1 comprises a support frame 4, a support roller 5 and a closing plate 6 are rotatably connected to the support frame 4; a plurality of supporting rollers 5 are uniformly arranged along the length direction of the supporting frame 4, the supporting rollers 5 can be synchronously connected together through a belt or a gear, and then the supporting rollers 5 are driven by a motor to rotate so as to convey the box body placed on the supporting rollers 5; the sealing plates 6 are made of transparent acrylic plates, the sealing plates 6 are fixed on two sides of the supporting frame 4 through bolts, and the sealing plates 6 on two sides and the supporting rollers 5 at the bottom form a semi-closed space.

Referring to fig. 3, a bearing frame 16 is arranged below the support frame 4, and the support frame 4 is slidably arranged along the vertical direction of the bearing frame 16; a driving assembly 17 for driving the support frame 4 to slide is arranged on the bearing frame 16, a guide post is arranged below the support frame 4, and a guide sleeve matched with the guide post in a sliding manner is arranged on the bearing frame 16; the driving assembly 17 comprises a driving motor 21, a driving cam 22 arranged on a main shaft of the driving motor 21 and an abutting wheel 23 rotationally connected with the supporting frame 4, and the circumferential surface of the abutting wheel 23 is abutted to the driving cam 22; the driving motor 21 drives the driving cam 22 to rotate, the supporting frame 4 can be driven to do reciprocating sliding motion along the vertical direction, and the box body can be driven to vibrate in a reciprocating mode along the vertical direction, so that bottle caps can be stacked in the box body more uniformly.

Referring to fig. 2, the box discharging mechanism 2 comprises a box discharging bracket 7, a conveying roller 8 rotatably connected with the box discharging bracket 7, a sealing curtain 9 and a sealing top plate 10, wherein the sealing curtain 9 is bolted on two sides of the box discharging bracket 7; the sealing top plate 10 is bolted to the top of the box outlet support 7, and the sealing curtain 9 and the sealing top plate 10 form a temporary storage chamber with openings on two sides.

Referring to fig. 1, the cooling mechanism 3 includes a cold source device 11 and a cold main pipe 12, the cold main pipe 12 is communicated with a cold air outlet of the cold source device 11, wherein the cold source device 11 may be a refrigeration compressor, an air-cooled condenser or a water-cooled condenser.

Referring to fig. 1 and 4, one end of the main cold conveying pipeline 12, which is far away from the cold source device 11, is communicated with a plurality of cold conveying branch pipes 13, the cold conveying branch pipes 13 penetrate through the sealing top plate 10 to be communicated with the temporary storage chamber, and an opening of one end, which extends into the temporary storage chamber, of each cold conveying branch pipe 13 corresponds to an opening of a box body for storing bottle caps; the spiral air guide sheets 24 are welded in the cold conveying branch pipes 13, the air guide sheets 24 are used for guiding cold air to circulate, cold air enters the box body in a spiral mode, original gas in the box body can be disturbed better, gas circulation in the box body can be accelerated, gas replacement efficiency is improved, the temperature of the gas in the box body and the temperature of the bottle cap per se can be reduced, and therefore peculiar smell generated by plastic volatilization can be better inhibited.

Referring to fig. 5, the closing plates 6 on both sides are provided with air deflectors 14, an air cavity 29 is formed in the air deflector 14, one side of the air deflector 14 facing the middle of the supporting plate is provided with an air guiding hole 28 communicated with the air cavity 29, and the air guiding hole 28 is arranged in a downward inclined manner along one side far away from the air cavity 29; an air guide pipe 15 is communicated with the main cold transmission pipeline 12, and one end of the air guide pipe 15, which is far away from the main cold transmission pipeline 12, is communicated with an air cavity 29; the wind-guiding holes 28 on both sides guide the trend of cold air, make the cold wind of both sides blow to form V-arrangement convection current state to when the bottle lid whereabouts, cold air can the cladding on the surface of bottle lid, thereby further play the cooling effect to the bottle lid, and then restrain the production of peculiar smell.

Referring to fig. 6, the main cold-transporting pipe 12, the branch cold-transporting pipes 13 (refer to fig. 1) and the air-guiding pipes 15 (refer to fig. 5) are all coated with an insulating layer 18, the insulating layer 18 comprises an insulating asbestos layer 19 and a tin foil layer 20 which are sequentially arranged from inside to outside, and the insulating asbestos layer 19 is formed by paving asbestos, so that a good heat-insulating effect can be achieved; the tin foil layer 20 is made of tin foil, and can reflect part of the heat radiation, thereby reducing the heat conduction.

Example 2:

referring to fig. 7, a system for removing residual odor applied to a bottle cap production process is different from embodiment 1 in that a rotational flow assembly 25 is arranged in an opening of a cold conveying branch pipe 13 facing a box body, the rotational flow assembly 25 comprises a circular rotational flow mounting plate 26 and a rotational flow air plate 27, the rotational flow mounting plate 26 is arranged coaxially with the cold conveying branch pipe 13, and two ends of the rotational flow air plate 27 are welded with the rotational flow mounting plate 26 and the rotational flow air plate 27 respectively; the rotational flow air plate 27 is obliquely arranged relative to the end surface of the rotational flow mounting plate 26, and the rotational flow air plate 27 is used for guiding cold air to move in a rotational flow shape; the ventilation in the improvement box that can be better to can reduce the temperature in the box, better suppression plastics volatilize, reduce the production of peculiar smell.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (9)

1. The odor residue removing system applied to the bottle cap production process is characterized by comprising a boxing mechanism (1) for boxing bottle caps, a box discharging mechanism (2) for outputting box bodies and a cooling mechanism (3) for cooling the bottle caps;

the boxing mechanism (1) comprises a support frame (4), a supporting roller (5) rotatably connected with the support frame (4) and closing plates (6) arranged on two sides of the support frame (4);

the box discharging mechanism (2) comprises a box discharging support (7), a conveying roller (8) rotatably connected with the box discharging support (7), a sealing curtain (9) and a sealing top plate (10), the sealing curtain (9) is arranged on two sides of the box discharging support (7), the sealing top plate (10) is arranged on the top of the box discharging support (7), and a temporary storage chamber is formed between the sealing curtain (9) and the sealing top plate (10);

the cooling mechanism (3) comprises cold source equipment (11) and a cold conveying main pipeline (12) communicated with the cold source equipment (11), and the cold conveying main pipeline (12) is communicated with the temporary storage chamber.

2. The odor residue removing system applied to the bottle cap production process is characterized in that a plurality of cold conveying branch pipes (13) are communicated with the cold conveying main pipe (12), the cold conveying branch pipes (13) are communicated with the temporary storage chamber through the sealing top plate (10), and one end opening of each cold conveying branch pipe (13) far away from the cold conveying main pipe (12) faces an opening of the box body.

3. The odor residue removing system applied to the bottle cap production process is characterized in that air deflectors (14) are arranged on the closing plates (6) on two sides, an air cavity (29) is arranged in each air deflector (14), an air guide hole (28) communicated with the air cavity (29) is formed in one side, facing the middle of the supporting plate, of each air deflector (14), and the air guide holes (28) are arranged in a downward inclined mode along one side far away from the air cavity (29);

an air guide pipe (15) is communicated with the cold transmission main pipeline (12), and the air guide pipe (15) is communicated with an air cavity (29).

4. The odor residue removing system applied to the bottle cap production process is characterized in that a bearing frame (16) is arranged below the supporting frame (4), the supporting frame (4) is arranged in a sliding mode along the vertical direction of the bearing frame (16), and a driving assembly (17) for driving the supporting frame (4) to slide is arranged on the bearing frame (16).

5. The odor residue removing system applied to the bottle cap production process is characterized in that the main cold conveying pipeline (12) and the branch cold conveying pipeline (13) are coated with an insulating layer (18).

6. The odor residue removing system applied to the bottle cap production process is characterized in that the heat-insulating layer (18) comprises a heat-insulating asbestos layer (19) and a tin foil layer (20) which are arranged in sequence from inside to outside.

7. The odor residue removing system applied to the bottle cap production process is characterized in that the driving assembly (17) comprises a driving motor (21), a driving cam (22) arranged on a main shaft of the driving motor (21) and an abutting wheel (23) rotatably connected with the support frame (4), wherein the circumferential surface of the abutting wheel (23) abuts against the driving cam (22).

8. The odor residue removing system applied to the bottle cap production process is characterized in that a spiral wind-guiding sheet (24) is arranged in the cold conveying branch pipe (13).

9. The odor residue removing system applied to the bottle cap production process is characterized in that a rotational flow assembly (25) is arranged in an opening of the cold delivery branch pipe (13) facing the box body, the rotational flow assembly (25) comprises a circular rotational flow mounting plate (26) and rotational flow air plates (27), the rotational flow air plates (27) are obliquely arranged relative to the end face of the rotational flow mounting plate (26), and a plurality of rotational flow air plates (27) are uniformly arranged along the circumferential direction of the rotational flow mounting plate (26).

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