CN214360196U - Glass bottle conveying device with cooling function - Google Patents

Abstract

The utility model discloses a glass bottle conveyor with cooling function relates to the technical field that the cooling was carried, including conveying platform, conveying mechanism and cooling body, wherein: conveying platform level sets up, and conveying mechanism is controlled towards setting and is installed in conveying platform's upside between two parties, and cooling body is equipped with a plurality of and distributes in conveying mechanism's top in succession, and cooling body specifically includes the cooling cover body and cooling module, and cooling module is equipped with a pair of and front and back symmetric distribution, and cooling module specifically includes the intake pipe, admits air fan, transition cover, leads cold aluminum plate, semiconductor refrigeration piece, heat dissipation aluminum plate, heat dissipation fan, transition pipe and outlet duct. The utility model provides a glass bottle conveyor with cooling function has design benefit, rational in infrastructure, convenient to use, cools off rapid characteristics, can realize simultaneously smooth transport and quick cooling to the glass bottle.

Description

Glass bottle conveying device with cooling function

Technical Field

The utility model relates to a technical field that the cooling was carried, concretely relates to glass bottle conveyor with cooling function.

Background

At present, after fresh milk is filled into glass bottles by fresh milk product manufacturers, in order to realize cold chain transportation conditions of the fresh milk, the glass bottles filled with the fresh milk need to be cooled before loading, so that the fresh milk is prevented from going bad in the process of transferring from a production workshop to a cold chain carriage, or the drinking taste of the fresh milk is influenced. Therefore, it is desirable to design a glass bottle conveying device with cooling function and convenient use.

Disclosure of Invention

An object of the utility model is to provide a glass bottle conveyor with cooling function to solve the above-mentioned defect that leads to among the prior art.

The utility model provides a glass bottle conveyor with cooling function, includes conveying platform, conveying mechanism and cooling body, wherein:

the conveying platform is horizontally arranged;

the conveying mechanism is arranged in the left-right direction and is arranged on the upper side of the conveying platform in the middle;

the cooling mechanism is provided with a plurality of cooling mechanisms which are continuously distributed above the conveying mechanism, the cooling mechanism specifically comprises a cooling cover body and a cooling assembly, the cooling cover body is a shell with a hollow cuboid structure with an opening design on the bottom surface, the left side and the right side of the cooling cover body are symmetrically provided with rectangular conveying ports, the cooling cover body is arranged above the conveying mechanism in a spanning mode and is arranged on the upper side of the conveying platform, the front side and the back side of the top surface of the cooling cover body are symmetrically provided with rectangular air inlets, the front side and the back side of the cooling cover body are symmetrically provided with rectangular heat dissipation ports, the cooling assembly is provided with a pair of cooling assemblies which are symmetrically distributed in the front and back direction, the cooling assembly specifically comprises an air inlet pipe, an air inlet fan, a transition cover, a cold guide aluminum plate, a semiconductor refrigeration sheet, a heat dissipation aluminum plate, a heat dissipation fan, a transition pipe and an air outlet pipe, the air inlet pipe is inserted in the air inlet and fixed on the top surface of the cooling cover body, air inlet fan horizontal installation is on the top of intake pipe, the transition cover is top surface, bottom surface and leans on the casing of the equal open-ended design's of lateral surface cavity cuboid structure, the vertical bottom of installing in the intake pipe of transition cover, lead cold aluminum plate and install on the lateral surface that leans on of transition cover, semiconductor refrigeration piece is attached on leading cold aluminum plate leans on the lateral surface, heat dissipation aluminum plate attaches on semiconductor refrigeration piece leans on the lateral surface, heat dissipation aluminum plate stopper is put in heat dissipation department, the vertical installation of heat dissipation fan is on heat dissipation aluminum plate leans on the lateral surface, the transition pipe is 90 return bends of rectangular cross-section, the transition pipe is the setting of overhanging inwards and installs in the bottom of transition cover, the outlet duct is the mesochite casing of fish tail type, outlet duct horizontal installation is in the bottom of transition pipe.

Preferably, the cooling cover body is provided with rubber strips at the upper side of the conveying opening at even intervals.

Preferably, the cooling cover body is additionally provided with a heat insulation ring between the heat dissipation fan and the heat dissipation port.

Preferably, the heat dissipation aluminum plate and the cold conduction aluminum plate are connected through screws, and a heat insulation pad is additionally arranged at the joint.

Preferably, the inner side of the air outlet pipe is uniformly welded with air guide sheets in different directions at intervals.

Preferably, handles are symmetrically arranged on the front side and the rear side of the cooling cover body.

The utility model has the advantages that: the glass bottle conveying device with the cold area function is in actual work: the semiconductor refrigerating sheet is electrified to work: firstly, refrigerating the inner side surface of the glass bottle, cooling a cold guide aluminum plate, sucking outside room-temperature air into an air inlet pipe through an air inlet fan, rapidly exchanging heat between the room-temperature air and the cold guide aluminum plate when the room-temperature air is contacted with the cold guide aluminum plate, changing the room-temperature air into low-temperature cold air, allowing the low-temperature cold air to enter a cooling cover body through a transition pipe and an air outlet pipe, blowing the low-temperature cold air to the room-temperature glass bottle conveyed on a conveying mechanism, rapidly exchanging heat between the low-temperature cold air and the room-temperature glass bottle when the low-temperature cold air is contacted with the room-temperature glass bottle, and stably conveying and rapidly cooling the glass bottle; secondly, the outer side surface of the cooling cover body is heated and conducts heat to the heat dissipation aluminum plate, and then the heat on the heat dissipation aluminum plate is released to the outer side of the cooling cover body through the heat dissipation fan. To sum up, the utility model provides a glass bottle conveyor with cooling function has design benefit, rational in infrastructure, convenient to use, cools off rapid characteristics, can realize simultaneously steadily carrying and quick cooling to the glass bottle.

Drawings

Fig. 1 is a schematic diagram of the overall three-dimensional structure of the present invention.

Fig. 2 is a schematic structural diagram of the whole cooling mechanism of the present invention.

Fig. 3 is a schematic structural view of the entire cooling cover in the cooling mechanism.

Fig. 4 is a schematic structural view of the entire cooling unit in the cooling mechanism.

Fig. 5 is a schematic view of the structure of the cooling unit in the cooling mechanism in an exploded manner.

Wherein:

10-a conveying platform;

20-a conveying mechanism;

30-a cooling mechanism; 31-a cooling enclosure; 3101-a delivery port; 3102-air intake; 3103-heat dissipation ports; 32-a cooling assembly; 3201-air inlet pipe; 3202-supply fan; 3203-transition hood; 3204-cold conducting aluminum plate; 3205-semiconductor refrigerating sheet; 3206-heat-dissipating aluminum plate; 3207-heat dissipating fan; 3208-heat insulating pad; 3209-transition pipe; 3210-outlet duct; 3211-QI PIAN; 33-rubber strips; 34-a heat insulation ring; 35-handle.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

As shown in fig. 1 to 5, a glass bottle conveying device with a cooling function comprises a conveying platform 10, a conveying mechanism 20 and a cooling mechanism 30, wherein:

the conveying platform 10 is horizontally arranged;

the conveying mechanism 20 is arranged in a left-right direction and is centrally arranged on the upper side of the conveying platform 10;

the cooling mechanism 30 is provided with a plurality of cooling mechanisms and continuously distributed above the conveying mechanism 20, the cooling mechanism 30 specifically comprises a cooling cover 31 and a cooling assembly 32, the cooling cover 31 is a hollow cuboid-structure shell with an opening on the bottom surface, rectangular conveying ports 3101 are symmetrically arranged on the left side and the right side of the cooling cover 31, the cooling cover 31 is spanned above the conveying mechanism 20 and is installed on the upper side of the conveying platform 10, rectangular air inlets 3102 are symmetrically arranged on the top surface of the cooling cover 31 in the front-back direction, rectangular heat dissipation ports 3103 are symmetrically arranged on the front-back side of the cooling cover 31, the cooling assembly 32 is provided with a pair of cooling assemblies which are symmetrically distributed in the front-back direction, the cooling assembly 32 specifically comprises an air inlet pipe 3201, an air inlet fan 3202, a transition cover 3203, a cold guide aluminum plate 3204, a semiconductor refrigeration sheet 3205, a heat dissipation aluminum plate 3206, a heat dissipation fan 3207, a transition pipe 3209 and an air outlet pipe 3210, the air inlet pipe 3201 is inserted in the air inlet 3102 and fixed on the top surface of the cooling cover 31, the air inlet fan 3202 is horizontally installed on the top end of the air inlet pipe 3201, the transition cover 3203 is a hollow cuboid-structure shell with an open top surface, a bottom surface and a side surface, the transition cover 3203 is vertically installed at the bottom end of the air inlet pipe 3201, the cold guiding aluminum plate 3204 is installed on the side surface of the transition cover 3203, the semiconductor refrigerating sheet 3205 is attached on the side surface of the cold guiding aluminum plate 3204, the heat radiating aluminum plate 3206 is attached on the side surface of the semiconductor refrigerating sheet 3205, the heat radiating aluminum plate 3206 is plugged in the heat radiating opening 3103, the heat radiating fan 3207 is vertically installed on the side surface of the heat radiating aluminum plate 3206, the transition pipe 3209 is a 90-degree bent pipe with a rectangular cross section, the transition pipe 3209 is inwardly suspended and installed at the bottom of the transition cover 3203, the air outlet pipe 3210 is a fishtail-shaped middle shell, the outlet pipe 3210 is horizontally installed at the bottom end of the transition pipe 3209. The semiconductor refrigerating sheet 3205 is electrified to work: firstly, the inner side surface of the glass bottle is refrigerated, the cold conducting aluminum plate 3204 is cooled, then the outside room temperature air is sucked into the air inlet pipe 3201 through the air inlet fan 3202, when the room temperature air is contacted with the cold conducting aluminum plate 3204, heat exchange is rapidly carried out, the room temperature air is changed into low temperature cold air, the low temperature cold air enters the cooling cover body 31 through the transition pipe 3209 and the air outlet pipe 3210 and is blown to the room temperature glass bottle conveyed on the conveying mechanism 20, when the low temperature cold air is contacted with the room temperature glass bottle, heat exchange is rapidly carried out, and stable conveying and rapid cooling of the glass bottle are realized; secondly, the outer side surface of the cooling cover body 31 is heated and conducts heat to the aluminum plate 3206, and then the heat on the aluminum plate 3206 is released to the outer side of the cooling cover body 31 by the cooling fan 3103.

In this embodiment, the rubber strips 33 are attached to the cooling cover body 31 at regular intervals above the feed port 3101. The rubber strip 33 can prevent excessive low-temperature cold air from being discharged from the delivery port 3101, which causes excessive power loss.

In this embodiment, the cooling cover 31 is provided with a heat insulating ring 34 between the heat radiation fan 3207 and the heat radiation port 3103. The heat insulation ring 34 can prevent the low-temperature cold air from being discharged from the heat dissipation port 3103, which causes excessive power loss.

In this embodiment, the heat dissipating aluminum plate 3206 and the cold conducting aluminum plate 3204 are connected by screws, and a heat insulating pad 3208 is added at the connection. By additionally arranging the heat insulation pad 3208, excessive heat exchange between the cold conducting aluminum plates 3204 and the heat radiating aluminum plates 3206 on two sides of the semiconductor refrigerating sheet 3205 can be avoided, and excessive loss of electric power is avoided.

In this embodiment, air guide plates 3211 with different orientations are welded to the inner side of the air outlet pipe 3210 at regular intervals. The air guide pieces 3211 in different directions are additionally arranged, so that low-temperature cold air can be blown to more glass bottles, the cold air covering of a larger area is realized, and the cooling efficiency of the glass bottles conveyed in batches is improved.

In this embodiment, the front and rear sides of the cooling cover 31 are symmetrically provided with handles 35. The removal of individual cooling means 30 can be easily achieved by adding a handle 35.

In the embodiment, the glass bottle conveying device with the cold area function is in actual work: the semiconductor refrigerating sheet 3205 is electrified to work: firstly, the inner side surface of the glass bottle is refrigerated, the cold conducting aluminum plate 3204 is cooled, then the outside room temperature air is sucked into the air inlet pipe 3201 through the air inlet fan 3202, when the room temperature air is contacted with the cold conducting aluminum plate 3204, heat exchange is rapidly carried out, the room temperature air is changed into low temperature cold air, the low temperature cold air enters the cooling cover body 31 through the transition pipe 3209 and the air outlet pipe 3210 and is blown to the room temperature glass bottle conveyed on the conveying mechanism 20, when the low temperature cold air is contacted with the room temperature glass bottle, heat exchange is rapidly carried out, and stable conveying and rapid cooling of the glass bottle are realized; secondly, the outer side surface of the cooling cover body 31 is heated and conducts heat to the aluminum plate 3206, and then the heat on the aluminum plate 3206 is released to the outer side of the cooling cover body 31 by the cooling fan 3103. To sum up, the utility model provides a glass bottle conveyor with cooling function has design benefit, rational in infrastructure, convenient to use, cools off rapid characteristics, can realize simultaneously steadily carrying and quick cooling to the glass bottle.

The embodiments disclosed above are therefore to be considered in all respects as illustrative and not restrictive. All changes which come within the scope of the invention or which are equivalent to the scope of the invention are embraced by the invention.

Claims (6)

1. The utility model provides a glass bottle conveyor with cooling function which characterized in that: including conveying platform (10), conveying mechanism (20) and cooling body (30), wherein:

the conveying platform (10) is horizontally arranged;

the conveying mechanism (20) is arranged in the left-right direction and is arranged on the upper side of the conveying platform (10) in the middle;

the cooling mechanism (30) is provided with a plurality of air inlet pipes and is continuously distributed above the conveying mechanism (20), the cooling mechanism (30) specifically comprises a cooling cover body (31) and a cooling assembly (32), the cooling cover body (31) is a shell of a hollow cuboid structure with an opening at the bottom, rectangular conveying ports (3101) are symmetrically arranged at the left side and the right side of the cooling cover body (31), the cooling cover body (31) is arranged above the conveying mechanism (20) in a crossing mode and is installed on the upper side of the conveying platform (10), rectangular air inlet holes (3102) are symmetrically arranged at the front and the back of the top surface of the cooling cover body (31), rectangular heat dissipation ports (3103) are symmetrically arranged at the front and the back of the cooling cover body (31), the cooling assembly (32) is symmetrically distributed at the front and the back, and the cooling assembly (32) specifically comprises a pair of air inlet pipes (3201) and an air inlet fan (3202), Transition cover (3203), lead cold aluminum plate (3204), semiconductor refrigeration piece (3205), heat dissipation aluminum plate (3206), heat dissipation fan (3207), transition pipe (3209) and outlet duct (3210), intake pipe (3201) cartridge is located air inlet (3102) and is fixed in the top surface of cooling cover body (31), intake fan (3202) horizontal installation is on the top of intake pipe (3201), transition cover (3203) is the casing of the equal open design of top surface, bottom surface and the hollow cuboid structure that leans on the lateral surface, transition cover (3203) vertical installation is in the bottom of intake pipe (3201), lead cold aluminum plate (3204) install in transition cover (3203) lean on the lateral surface, semiconductor refrigeration piece (3205) are attached on leading cold aluminum plate (3204) lean on the lateral surface, heat dissipation aluminum plate (3206) are attached in semiconductor refrigeration piece (3205) lean on the lateral surface, heat dissipation aluminum plate (3206) are put in heat dissipation mouth (3103) department, the heat dissipation fan (3207) is vertically installed on the lateral surface that leans on of heat dissipation aluminum plate (3206), transition pipe (3209) is the 90 return bends of rectangular cross section, transition pipe (3209) overhang setting inwards and install in the bottom of transition cover (3203), outlet duct (3210) is the mesochite casing of fish tail type, outlet duct (3210) horizontal installation is in the bottom of transition pipe (3209).

2. A glass bottle conveying apparatus having a cooling function according to claim 1, wherein: rubber strips (33) are uniformly installed on the upper side of the conveying opening (3101) of the cooling cover body (31) at intervals.

3. A glass bottle conveying apparatus having a cooling function according to claim 1, wherein: and a heat insulation ring (34) is additionally arranged between the heat dissipation fan (3207) and the heat dissipation port (3103) of the cooling cover body (31).

4. A glass bottle conveying apparatus having a cooling function according to claim 1, wherein: and the heat-radiating aluminum plate (3206) is connected with the cold-conducting aluminum plate (3204) through screws, and a heat-insulating pad (3208) is additionally arranged at the joint.

5. A glass bottle conveying apparatus having a cooling function according to claim 1, wherein: the inner side of the air outlet pipe (3210) is evenly welded with air guide plates (3211) in different directions at intervals.

6. A glass bottle conveying apparatus having a cooling function according to claim 1, wherein: handles (35) are symmetrically arranged on the front side and the rear side of the cooling cover body (31).

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