CN210004642U - Ice bucket of flake ice maker using low-temperature secondary refrigerant as cold source - Google Patents

Abstract

The utility model provides an slice ice maker ice bucket that low temperature secondary refrigerant is cold source relates to ice making technical field, the dipping barrel comprises a barrel body, the evaporimeter of setting in the staving, the main shaft of setting in the evaporimeter, set up the epaxial skates subassembly of main shaft, the hydrologic cycle subassembly of setting at the main shaft lower extreme, the skates subassembly is including scraping skates and setting up the backup pad at scraping skates upper and lower both ends, long banding mounting hole has been seted up along length direction in the backup pad, pass the mounting hole and lock into through the bolt and scrape the ice tip and make the backup pad and scrape the skates fixed mutually, be provided with the gasket between bolt head and the backup pad, the diameter of gasket is greater than the width of mounting hole, the hydrologic cycle subassembly includes manger plate and return water tank, the manger plate has the opening scraping skates department, for incomplete ring, the return water tank is seted up at the lower extreme of evaporimeter, and the return water tank is complete annular, its radius is greater than the internal diameter of evaporimeter, the lower extreme of manger plate stretches into the return water tank, the return.

Description

Ice bucket of flake ice maker using low-temperature secondary refrigerant as cold source

Technical Field

The utility model relates to an ice making technical field especially relates to kinds of low temperature secondary refrigerant are piece ice maker ice bucket of cold source.

Background

The water circulation of the existing flake ice machine is as follows, water is pumped out of a water tank of the flake ice machine through a water circulation pump and then is uniformly sprayed on the inner wall of an evaporator of the flake ice machine through a pipeline structure to form a water film, the water film exchanges heat with refrigerant in a runner of the evaporator, the temperature is rapidly reduced, layers of thin ice are formed on the inner wall of the evaporator and are crushed into flake ice under the extrusion of an ice skate blade, so that the flake ice falls into an ice house, and part of water which is not frozen flows back into the water tank from a water outlet through a water receiving groove of a flake ice machine base and circulates through the water circulation pump.

the ice blade is fixed with the inner wall of the evaporator, which makes the thickness of the ice sheet made equal, and it is impossible to make ice sheet with thickness not equal to , and when the ice blade crushes the ice, the crushed ice sheet is easy to fall into the water receiving tank, and the melting of the ice sheet takes hours, during which time it will block the pipeline, and the water will overflow into the ice house.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model discloses the technical problem that solves lies in overcoming prior art's not enough to provide kinds of low temperature secondary refrigerant and be the slice ice maker ice bucket of cold source, can produce the borneol of different thickness, utilize unnecessary low temperature secondary refrigerant to make ice, the energy saving, with low costs, heat exchange efficiency is high.

In order to achieve the purpose, the utility model provides an ice bucket of a flake ice maker with kinds of low-temperature secondary refrigerants as cold sources, which comprises an evaporator, a main shaft arranged in the evaporator, a secondary refrigerant flow channel arranged on the inner wall of the evaporator, a water distribution disc arranged at the upper end of the main shaft, an ice blade assembly arranged on the main shaft, and a water circulation assembly arranged at the lower end of the main shaft;

the ice skate blade assembly comprises an ice skate blade and supporting plates arranged at the upper end and the lower end of the ice skate blade, a strip-shaped mounting hole is formed in the supporting plates along the length direction, a bolt penetrates through the mounting hole and is locked into the ice shaving end part to enable the supporting plates and the ice skate blade to be fixed, a gasket is arranged between the bolt head and the supporting plates, and the diameter of the gasket is larger than the width of the mounting hole;

the water circulation subassembly includes manger plate ring board and return water tank, the manger plate ring board has openings, is incomplete ring scraping skates department, the return water tank is seted up at the lower extreme of evaporimeter, and the return water tank is complete annular, and its radius is greater than the internal diameter of evaporimeter, and the lower extreme of manger plate ring board stretches into in the return water tank, the return water tank is connected with the water tank.

, a plurality of water diversion pipes are arranged on the circumference of the water diversion disc and used for evenly diverting the water flowing into the water diversion disc to the inner wall of the evaporator, the distribution of the water diversion pipes is adapted to the water retaining ring plate, and the water diversion pipes are not arranged at the position of the water diversion disc corresponding to the opening of the water retaining ring plate.

, a liquid coolant-water mixture is circulated through the coolant flow passages.

, the blade is helical.

, a reinforcing bar is disposed between the two support plates.

, a viewing window is arranged at the upper end of the barrel body.

The utility model provides a kinds of low temperature secondary refrigerant are piece ice maker ice bucket of cold source sets up banding mounting hole in the backup pad, makes the horizontal position casing adjustment of bolt and mounting hole to the interval of ice scraper and evaporimeter inner wall is scraped in the adjustment, can produce the borneol of different thickness, is equipped with the opening on the manger plate crown plate, and during garrulous borneol fell the icehouse from this opening, the quantity that reduces to fall in the return flume, just the utility model discloses an utilize unnecessary low temperature secondary refrigerant to make ice, the energy saving, it is with low costs, low temperature secondary refrigerant is liquid water mixture, and heat exchange efficiency is high.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the following is a detailed description of the present invention according to the embodiments of the present invention with reference to the accompanying drawings.

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

FIG. 2 is a schematic view of another corner structure in this embodiment;

FIG. 3 is an enlarged view taken at A in FIG. 2;

fig. 4 is an internal structure view of the present embodiment taken along a vertical plane.

The reference numerals in the drawings are explained below.

110. A barrel body; 120. an evaporator; 130. a main shaft; 140. an observation window; 150. a secondary refrigerant flow channel; 160. a water diversion disc; 210. an ice scraping blade; 220. a support plate; 230. mounting holes; 240. a bolt; 250. a gasket; 260. a reinforcing bar; 310. a water retaining ring plate; 320. a water return tank; 400. a water diversion pipe; 500. a water tank; 600. and a speed reducer.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and it is obvious that the described embodiment is a partial embodiment, not a whole embodiment, of the present invention.

In the description of the present invention, it should be noted that the terms "front", "upper", "lower", "left", "right", "vertical", "horizontal", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it is to be noted that unless otherwise expressly specified or limited, the terms "mounted," "connected," and "connected" are to be construed as , for example, being either fixedly connected or detachably connected, or physically connected, directly connected or indirectly connected through an intermediate medium, and communicating between two elements.

As shown in fig. 1, 2, 3 and 4, an ice flake ice machine ice bucket with kinds of low-temperature coolant as a cold source comprises a bucket body 110, an evaporator 120 arranged in the bucket body 110, a main shaft 130 arranged in the evaporator 120, a coolant flow channel 150 arranged on the inner wall of the evaporator 120, a water diversion disc 160 arranged at the upper end of the main shaft 130, an ice blade assembly arranged on the main shaft 130, and a water circulation assembly arranged at the lower end of the main shaft 130, wherein the low-temperature coolant is a liquid water mixture, the low-temperature coolant is fed into the coolant flow channel 150 by a water pump and flows along the coolant flow channel 150, the water circulation pump outside the ice bucket pumps the water in the water tank 500 into the water diversion disc 160, the main shaft 130 rotates under the driving of a speed reducer 600, the water diversion disc 160 rotates along with the water, so that the water on the water diversion disc 160 is uniformly sprayed onto the inner wall of the evaporator 120, the water exchanges heat with the coolant, the water which is not frozen into the water tank 160 flows into the water assembly, and then flows into the water tank 500 to be frozen, and the ice making process is performed by the ice-making process, and the ice-making process, wherein the ice-making process is performed by the ice-making process by the water circulation blade assembly .

The ice skate blade assembly comprises an ice skate blade 210 and supporting plates 220 arranged at the upper end and the lower end of the ice skate blade 210, the ice skate blade 210 is in a spiral shape, and a reinforcing rod 260 is further arranged between the two supporting plates 220 and used for reinforcing the installation of the ice skate blade 210. The tail end of the supporting plate 220 is provided with a long mounting hole 230 along the length direction, the ice scraper 210 is placed between the mounting holes 230 of the two supporting plates 220, then the ice scraper 210 is locked into the ice scraper by a bolt 240 through the mounting hole 230, and a gasket 250 is arranged between the head of the bolt 240 and the supporting plate 220, wherein the diameter of the gasket 250 is larger than the width of the mounting hole 230. The spacers 250 are brought into close contact with the support plate 220 by screwing the bolts 240 from the upper and lower ends of the ice shaver 210, thereby fixing the horizontal position of the bolts 240 with respect to the mounting holes 230, and thus fixing the distance between the ice shaver 210 and the inner wall of the evaporator 120. When ice pieces with different thicknesses need to be produced, the horizontal positions of the bolt 240 and the mounting hole 230 are adjusted by loosening the bolt 240, so that the distance between the ice scraper 210 and the inner wall of the evaporator 120 is changed.

The water circulation assembly includes a water-retaining ring plate 310 provided at a lower end of the evaporator 120 and a water return groove 320, the water-retaining ring plate 310 having openings at the ice-scraping blade 210 to make the water-retaining ring plate 310 in an incomplete ring shape, the water return groove 320 being provided below the water-retaining ring plate 310 and the water return groove 320 in a complete ring shape, the water return groove 320 being fixed to an inner wall of the evaporator 120, and the water-retaining ring plate 310 being connected to the main shaft 130 to make the water-retaining ring plate 310 rotate along with the main shaft 130, the water-retaining ring plate 310 being inclined with a small radius at an upper end and a large radius at a lower end, the radius at the upper end of the water-retaining ring plate 310 being smaller than the radius at the inner wall of the evaporator 120, the radius at the lower end of the water return groove 310 being larger than the radius at the inner wall of the evaporator 120, so that the lower end of the water-retaining ring plate 310 is inserted into the water return groove 320, whereby unfrozen water falls onto the water return groove 310, flows into the water tank 500 from an end of the water return groove 310, and is reused.

The circumference of the water diversion disc 160 is provided with a plurality of water diversion pipes 400 for more evenly diverting water flowing to the water diversion disc 160 to the inner wall of the evaporator 120, the distribution of the plurality of water diversion pipes 400 is adapted to the water baffle ring plate 310, the water diversion pipe 400 is not arranged at the position of the water diversion disc 160 corresponding to the opening of the water baffle ring plate 310, the main shaft 130 drives the water diversion disc 160, the ice scraping blade 210 and the water baffle ring plate 310 to rotate, ice collected on the inner wall of the evaporator 120 falls into an ice warehouse from the opening of the water baffle ring plate 310 under the cutting of the ice scraping blade 210, and the water diversion pipe 400 is not arranged on the water diversion disc 160 corresponding to the opening of the water baffle ring plate 310, so that the water flow cannot directly flow onto the ice scraping blade 210, and the amount of the water flow flowing down the ice scraping blade 210 directly is reduced.

The upper end surface of the tub 110 is opened with an observation window 140 for observing the internal working condition.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications can be made without departing from the scope of the invention.

Claims (6)

1. The ice bucket of the flake ice machine with kinds of low-temperature secondary refrigerants as cold sources is characterized by comprising a bucket body, an evaporator arranged in the bucket body, a main shaft arranged in the evaporator, a secondary refrigerant flow channel arranged on the inner wall of the evaporator, a water distribution disc arranged at the upper end of the main shaft, an ice skate blade assembly arranged on the main shaft and a water circulation assembly arranged at the lower end of the main shaft;

   the ice skate blade assembly comprises an ice skate blade and supporting plates arranged at the upper end and the lower end of the ice skate blade, a strip-shaped mounting hole is formed in the supporting plates along the length direction, a bolt penetrates through the mounting hole and is locked into the ice shaving end part to enable the supporting plates and the ice skate blade to be fixed, a gasket is arranged between the bolt head and the supporting plates, and the diameter of the gasket is larger than the width of the mounting hole;

   the water circulation subassembly includes manger plate ring board and return water tank, the manger plate ring board has openings, is incomplete ring scraping skates department, the return water tank is seted up at the lower extreme of evaporimeter, and the return water tank is complete annular, and its radius is greater than the internal diameter of evaporimeter, and the lower extreme of manger plate ring board stretches into in the return water tank, the return water tank is connected with the water tank.
2. 2. The ice bucket of the flake ice maker with kinds of low-temperature refrigerants as cold sources according to claim 1, wherein a plurality of water distribution pipes are arranged on the circumference of the water distribution disc for uniformly distributing the water flowing into the water distribution disc to the inner wall of the evaporator, the distribution of the water distribution pipes is adapted to the water baffle ring plate, and the water distribution pipes are not arranged at the water distribution disc corresponding to the opening of the water baffle ring plate.
3. 3. The ice cube tray of claim 2, wherein the coolant flow channel is filled with a liquid water mixture of coolant.
4. 4. The ice bucket of claim 3, wherein the scraper is helical.
5. 5. The ice bucket of the flake ice machine with kinds of low-temperature coolants as cold sources as claimed in claim 4, wherein a reinforcing rod is further arranged between the two supporting plates.
6. 6. The ice bucket of the flake ice machine with kinds of cold refrigerants as cold sources as claimed in claim 5, wherein an observation window is arranged at the upper end of the bucket body.

Images