CN113669971B - Bullet ice maker with built-in water pump - Google Patents

Abstract

A bullet ice maker with a built-in water pump comprises a shell, a partition plate, an ice making unit and a refrigerating system. The ice making unit comprises an inner container barrel, an ice making forming mechanism and a water pump. The ice making and forming mechanism comprises a water tank, a water spraying unit, an ice sliding grid and a formed ice tray. The water tank comprises a water tank main body, an ice outlet and a first accommodating shell. The water pump is connected with the water spraying unit and is accommodated in the first accommodating shell, the skating grid is obliquely arranged on one side, close to the forming ice tray, of the water tank, the extending direction of the skating grid penetrates through the ice outlet, and the water spraying unit corresponds to the position of the forming ice tray, so that the water spraying unit sprays water flow onto the forming ice tray. The bullet ice maker arranged in the water pump has reasonable structural design, shortens the flow of water flow, reduces the temperature loss of the water flow in the transmission process, and improves the ice making effect of the ice maker.

Description

Bullet ice maker with built-in water pump

Technical Field

The invention belongs to the technical field of ice making equipment, and particularly relates to a bullet ice maker with a built-in water pump.

Background

An ice maker is a refrigeration machine that produces ice by cooling water with a refrigerant from a refrigeration system, and uses the refrigeration system to produce ice by passing water through a device in an energized state. The shape of the generated ice blocks is different according to the principle and the production mode of the evaporator; ice machines are generally classified into particle ice machines, flake ice machines, plate ice machines, pipe ice machines, shell ice machines, and the like in the shape of ice.

The water pump in the current ice maker is arranged at the outer side of the shell, so that water flows to the water pump at the outer side of the shell in the ice making process, and then flows into the ice maker through the water pump to make ice, so that the temperature of the water flow is interfered by the outside, and the temperature of the water flow is changed, and the ice making efficiency is reduced.

Disclosure of Invention

In view of the above, the present invention provides a bullet ice maker with a built-in water pump, which can improve ice making efficiency, so as to meet industrial requirements.

A bullet ice maker with a built-in water pump comprises a shell, a partition plate arranged in the shell, an ice making unit arranged on one side of the partition plate, and a refrigerating system arranged on one side of the partition plate opposite to the ice making unit. The ice making unit comprises an inner container barrel which is arranged on the partition plate and used for containing ice cubes, an ice making forming mechanism which is arranged in the inner container barrel, and a water pump which is arranged in the ice making forming mechanism. The ice making and forming mechanism comprises a water tank arranged on the liner barrel, a water spraying unit arranged in the water tank, an ice sliding grid arranged on one side of the water spraying unit, and a forming ice tray arranged on one side of the ice sliding grid opposite to the water spraying unit. The water tank comprises a water tank main body, an ice outlet arranged on the side wall of one side of the water tank main body, and a first accommodating shell arranged on one side of the water tank main body and used for accommodating the water pump. The water pump is connected with the water spraying unit and is accommodated in the first accommodating shell, the water spraying unit comprises a plurality of water spraying joints which are connected together in sequence, the skating gate is obliquely arranged on one side of the water tank, which is close to the forming ice tray, and the extending direction of the skating gate penetrates through the ice outlet, and the water spraying unit corresponds to the position of the forming ice tray, so that the water spraying unit sprays water flow onto the forming ice tray.

Further, each water spray joint comprises a water spray joint main body, an installation pipe joint arranged at one end head of the water spray joint main body, an installation groove arranged on the inner side wall of one end of the water spray joint main body, which is opposite to the installation pipe joint, and a water outlet arranged on the side wall of the water spray joint main body, and a central shaft of the water outlet penetrates through the skating grating.

Further, the outer contour of the water spray joint main body and the installation pipe joint are rectangular pipes.

Further, on a section along the symmetry axis of the ice making unit, the ice sliding grid extends towards the ice outlet direction and is erected at the edge of the ice outlet.

Further, the inclined included angle between the skating gate and the horizontal plane is 30-45 degrees.

Further, the forming ice tray comprises an ice tray main body, an ice coil pipe arranged on the ice tray main body, and a plurality of forming pipes arranged on the ice coil pipe and used for forming bullet ice, wherein the free end of each forming pipe is spherical.

Further, the water tank body comprises a water tank bottom wall, an inclined side wall obliquely arranged on one side of the water tank bottom, a plurality of water tank side walls arranged on the water tank bottom wall, and at least one limit flange arranged on the water tank side walls.

Further, an obtuse angle is formed between the inclined side wall and the bottom wall of the water tank, and the inclined side wall and the inclined direction of the skating grid are opposite and intersect together.

Further, the liner barrel comprises a liner barrel body, a second accommodating shell arranged on the side wall of the liner barrel body, and at least one limiting groove arranged on the inner side wall of the liner barrel body, wherein the first accommodating shell corresponds to the second accommodating shell in position, and the limiting flange corresponds to the limiting groove in position.

Further, the refrigeration system includes a condenser within the housing, and a compressor disposed on one side of the condenser.

Compared with the prior art, the bullet ice maker with the built-in water pump provided by the invention is used for processing and forming bullet ice through the ice making unit. The ice making unit transmits water flow to the ice making forming mechanism through the water pump, and the ice making forming mechanism forms bullet ice. And the water pump is arranged in the ice making forming mechanism, so that the distance between the ice making forming mechanism and the water pump is shortened, and the cooling capacity loss in the process of the water pump transmitting water flow to the ice making forming mechanism is reduced. The ice making and forming mechanism comprises a water tank arranged in the inner container barrel, a water spraying unit arranged in the water tank, an ice sliding grid arranged on one side of the water spraying unit, and a forming ice tray arranged on one side of the ice sliding grid opposite to the water spraying unit. The water tank is arranged in the inner container barrel, so that bullet ice in the inner container barrel can cool water in the water tank, ice making efficiency is improved, in the process of ice making, the water in the water tank is transmitted to the water spraying unit through the water pump, the water spraying unit sprays water to the forming ice tray, bullet ice is formed on the forming ice tray, the formed bullet ice falls onto the ice sliding grid, the ice sliding grid is obliquely arranged on one side of the water tank, close to the forming ice tray, and the extending direction of the ice sliding grid penetrates through the ice outlet, and the bullet ice falls to the ice sliding grid, slides along the ice sliding grid and falls to the inner container barrel, so that bullet ice collection is completed. The bullet ice maker arranged in the water pump has reasonable structural design, shortens the flow of water flow, reduces the temperature loss of the water flow in the transmission process, and improves the ice making effect of the ice maker.

Drawings

Fig. 1 is a schematic diagram of a bullet ice maker with a built-in water pump.

Fig. 2 is a schematic cross-sectional view of a bullet ice maker built in the water pump of fig. 1.

Fig. 3 is a schematic diagram of the inner container barrel of the bullet ice maker built-in the water pump of fig. 2.

Fig. 4 is a schematic view of the structure of a water tank in the bullet ice maker built in the water pump of fig. 2.

Fig. 5 is a schematic view of a water spray unit in the bullet ice maker built in the water pump of fig. 2.

Fig. 6 is a schematic view of a water spray section of the water spray unit of fig. 5.

Fig. 7 is a schematic view of a water spray unit in the bullet ice maker built in the water pump of fig. 2.

Detailed Description

Specific embodiments of the present invention are described in further detail below. It should be understood that the description herein of the embodiments of the invention is not intended to limit the scope of the invention.

Fig. 1 to 7 are schematic structural views of a bullet ice maker with a built-in water pump according to the present invention. The bullet ice maker with the built-in water pump comprises a shell 1, a partition plate 2 arranged in the shell 1, an ice making unit 10 arranged on one side of the partition plate 2, and a refrigerating system 20 arranged on the side of the partition plate 2 opposite to the ice making unit 10. The bullet ice maker built in the water pump also includes other functional modules such as assembly components, electrical connection components, etc., which should be known to those skilled in the art and will not be described in detail herein.

The housing 1 is used for protecting the ice making unit 10 and the refrigerating system 20, the partition plate 2 divides the housing 1 into two layers, and is used for accommodating the ice making unit 10 and the refrigerating system 20, and the housing 1 and the partition plate 2 are all of a prior art and are not described herein.

The ice making unit 10 includes an inner container barrel 11 provided on the partition plate 2 for receiving ice cubes, an ice making formation mechanism 12 provided on the inner container barrel 11, and a water pump 13 provided in the ice making formation mechanism 12.

The inner container 11 includes an inner container body 111, a second accommodating housing 112 disposed on a sidewall of the inner container body 111, and at least one limiting groove 113 disposed on an inner sidewall of the inner container body 111. The inner container 11 is used for accommodating formed bullet ice and the ice-making forming mechanism 12, the bullet ice made by the ice-making forming mechanism 12 is transmitted into the inner container 11, and the inner container 11 is matched with the ice-making forming mechanism 12, so that the inner container 11 is combined with the ice-making forming mechanism 12 for detailed description.

The ice-making forming mechanism 12 includes a water tank 121 provided in the inner tub 11, a water spraying unit 122 provided in the water tank 121, an ice chute 123 provided at one side of the water spraying unit 122, and a forming ice tray 124 provided at one side of the ice chute 123 facing away from the water spraying unit 122.

The water tank 121 includes a water tank body 1211, an ice outlet 1212 provided on a side wall of the water tank body 1211, and a first housing case 1213 provided on a side of the water tank body 1211 for housing the water pump 13.

The water tub body 1211 includes a tub bottom wall 1211a, an inclined side wall 1211b provided obliquely to one side of the tub bottom 1211a, a plurality of tub side walls 1211c provided on the tub bottom wall 1211a, and at least one stopper flange 1211d provided on the tub side wall 1211 c. The water tank side wall 1211c and the inclined side wall 1211b are enclosed around the water tank bottom wall 1211a to form a cavity, an obtuse angle is formed between the inclined side wall 1211b and the water tank bottom wall 1211a, and the inclined side wall 1211b is opposite to and intersects with the inclined direction of the skating grid 123, so that water flowing back during the ice making process of the water spraying unit 122 and water generated by sliding of bullet ice along the skating grid 123 flow into the water tank 121 again for reuse. The first and second receiving cases 1213 and 112 correspond to each other in position, and the limit flange 1211d corresponds to the limit groove 113 in position, thereby facilitating the installation of the water tank 121 in the inner tub 11.

The water spraying unit 122 includes a plurality of water spraying joints 1221 connected together in sequence. Each of the water spray joints 1221 includes a water spray joint main body 1221a, a mounting pipe joint 1221b provided at one end of the water spray joint main body 1221a, a mounting groove 1221c provided on an inner side wall of the water spray joint main body 1221a facing away from the mounting pipe joint 1221b, and a water outlet 1221d provided on a side wall of the water spray joint main body 1221 a. The central axis of the water outlet 1221d passes through the skating gate 123, so that the water of the water spraying unit 122 passes through the skating gate 123 and is sprayed toward the ice tray 124. When the water spray joints 1221 are connected to each other, the mounting pipe joint 1221b of one water spray joint 1221 is inserted into the other mounting groove 1221c, thereby connecting a plurality of the water spray joints 1221 together, and only the damaged water spray joint 1221 needs to be replaced during maintenance of the water spray unit 122, thereby reducing maintenance costs. In addition, the outer contours of the water spray joint main body 1221a and the mounting pipe joint 1221b are rectangular pipes, thereby facilitating the mounting between the water spray joints 1221.

The ice chute 123 is obliquely disposed on one side of the water tank 121 near the formed ice tray 124, and the extending direction of the ice chute 123 passes through the ice outlet 1212, and on the section along the symmetry axis of the ice making unit 10, the ice chute 123 extends toward the ice outlet 1212 and is erected at the edge of the ice outlet 1221d, and the inclined angle between the ice chute 123 and the horizontal plane is 30-45 degrees, so that the ice chute 123 can guide bullet ice formed on the formed ice tray 124 out of the ice outlet 1212.

The molding tray 124 includes an tray body 1241, an ice coil 1242 provided on the tray body 1241, and a plurality of molding pipes 1243 provided on the ice coil 1242 for molding bullet ice. The forming pipes 1243 on the forming ice tray 124 are all used to form bullet ice, the water spraying unit 122 sprays water onto the forming pipes 1243 and forms bullet ice at the forming pipes 1243, and the free end of each of the forming pipes 1243 is spherical, thereby facilitating the forming of bullet ice on the forming pipes 1243, and it is conceivable that the forming pipes 1243 correspond to forming molds.

The water pump 13 is disposed in the first housing case 1213 of the water tank 121, and the water spraying unit 122 is also disposed in the water tank 121, it is conceivable that a distance between the water spraying unit 122 and the water pump 13, and that the water spraying unit 122 transfers the cool air flow emitted during the water spraying to the water pump 13 to ensure the cooling effect of the water pump 13.

The refrigeration system 20 includes a condenser 21 in the housing 1, and a compressor 22 provided at one side of the condenser 21. The condenser 21 is a component of the refrigeration system, belonging to the type of heat exchanger, capable of converting a gas or vapor into a liquid, transferring the heat of the tubes in a rapid manner to the air in the vicinity of the tubes. The condenser operation is exothermic, so the condenser temperature is high. The compressor 22 is a driven fluid machine that lifts low pressure gas to high pressure gas and is the heart of a refrigeration system. The refrigerating cycle of compression, condensation (heat release), expansion and evaporation (heat absorption) is realized by sucking low-temperature and low-pressure refrigerant gas from the air suction pipe, driving the piston to compress the refrigerant gas through the operation of the motor, and discharging high-temperature and high-pressure refrigerant gas to the air discharge pipe to provide power for the refrigerating cycle. The condenser 21 and the compressor 22 are all of a prior art, and are not described herein.

Compared with the prior art, the bullet ice maker with the built-in water pump provided by the invention processes and forms bullet ice through the ice making unit 10. The ice making unit 10 delivers a water flow to the ice making formation mechanism 12 through the water pump 13, and the ice making formation mechanism 12 forms bullet ice. And the water pump 13 is arranged in the ice making and forming mechanism 12, so that the distance between the ice making and forming mechanism 12 and the water pump 13 is shortened, and the cooling loss in the process of conveying water flow to the ice making and forming mechanism 12 by the water pump 13 is reduced. The ice-making forming mechanism 12 includes a water tank 121 provided in the inner tub 11, a water spraying unit 122 provided in the water tank 121, an ice chute 123 provided at one side of the water spraying unit 122, and a forming ice tray 124 provided at one side of the ice chute 123 facing away from the water spraying unit 122. The water tank 121 is arranged in the inner container barrel 11, so that bullet ice in the inner container barrel 11 can cool water in the water tank 121, ice making efficiency is improved, in the ice making process, the water in the water tank 121 is transmitted to the water spraying unit 122 through the water pump 13, the water spraying unit 122 sprays water to the forming ice tray 124, bullet ice is formed on the forming ice tray 124, the formed bullet ice falls onto the ice sliding grid 123, the ice sliding grid 123 is obliquely arranged on one side of the water tank 121 close to the forming ice tray 124, the extending direction of the ice sliding grid 123 penetrates through the ice outlet 1212, and the bullet ice falls to the ice sliding grid 123 and slides along the ice sliding grid 123 and falls to the inner container barrel 11, so that bullet ice collection is completed. The bullet ice maker arranged in the water pump has reasonable structural design, shortens the flow of water flow, reduces the temperature loss of the water flow in the transmission process, and improves the ice making effect of the ice maker.

The above is only a preferred embodiment of the present invention and is not intended to limit the scope of the present invention, and any modifications, equivalent substitutions or improvements within the spirit of the present invention are intended to be covered by the claims of the present invention.

Claims (10)

1. The utility model provides a bullet ice machine of built-in of water pump, includes a shell, a setting is in division board in the shell, its characterized in that: the bullet ice maker arranged in the water pump further comprises an ice making unit arranged on one side of the partition plate and a refrigerating system arranged on one side of the ice making unit, the ice making unit comprises an inner container barrel arranged on the partition plate and used for containing ice cubes, an ice making forming mechanism arranged in the inner container barrel and a water pump arranged in the ice making forming mechanism, the ice making forming mechanism comprises a water tank arranged on the inner container barrel, a water spraying unit arranged in the water tank, an ice sliding grid arranged on one side of the water spraying unit and a forming ice tray arranged on one side of the ice sliding grid and opposite to one side of the water spraying unit, the water tank comprises a water tank main body, an ice outlet arranged on one side wall of the water tank main body and a first containing shell arranged on one side of the main body and used for containing the water pump, the water pump is connected with the unit and the first containing shell, the water pump comprises a plurality of water spraying grids which are connected with one another in sequence, and the water spraying grids are arranged on one side of the water tank and the ice spraying unit and the ice tray in a water spraying direction which is inclined to the water spraying unit and the ice tray are formed.

2. The water pump built-in bullet ice maker of claim 1, wherein: each water spray joint comprises a water spray joint main body, a mounting pipe joint arranged at one end head of the water spray joint main body, a mounting groove arranged on the inner side wall of one end of the water spray joint main body, which is opposite to the mounting pipe joint, and a water outlet arranged on the side wall of the water spray joint main body, wherein the central shaft of the water outlet penetrates through the skating grating.

3. The water pump built-in bullet ice maker of claim 2, wherein: the outer contours of the water spray joint main body and the installation pipe joint are rectangular pipes.

4. The water pump built-in bullet ice maker of claim 1, wherein: on the section along the symmetry axis of the ice making unit, the ice sliding grid extends towards the ice outlet direction and is erected at the edge of the ice outlet.

5. The water pump built-in bullet ice maker of claim 1, wherein: the inclined included angle between the skating grating and the horizontal plane is 30-45 degrees.

6. The water pump built-in bullet ice maker of claim 1, wherein: the forming ice tray comprises an ice tray main body, an ice coil pipe arranged on the ice tray main body and a plurality of forming pipes which are arranged on the ice coil pipe and are used for forming bullet ice, and the free end head of each forming pipe is spherical.

7. The water pump built-in bullet ice maker of claim 1, wherein: the water tank main body comprises a water tank bottom wall, an inclined side wall obliquely arranged on one side of the water tank bottom, a plurality of water tank side walls arranged on the water tank bottom wall and at least one limit flange arranged on the water tank side walls.

8. The water pump built-in bullet ice maker of claim 7, wherein: the inclined side wall and the bottom wall of the water tank form an obtuse angle, and the inclined side wall and the inclined direction of the skating grating are opposite and intersect together.

9. The water pump built-in bullet ice maker of claim 7, wherein: the inner container barrel comprises an inner container barrel body, a second accommodating shell and at least one limiting groove, wherein the second accommodating shell is arranged on the side wall of the inner container barrel body, the limiting groove is arranged on the inner side wall of the inner container barrel body, the first accommodating shell corresponds to the second accommodating shell in position, and the limiting flange corresponds to the limiting groove in position.

10. The water pump built-in bullet ice maker of claim 1, wherein: the refrigeration system includes a condenser within the housing and a compressor disposed on one side of the condenser.

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