CN111595074A - Air-cooled online ice slurry precooling all-in-one machine - Google Patents

Abstract

The invention discloses an air-cooled online ice slurry precooling integrated machine, which comprises a direct evaporation type supercooled water ice slurry water unit, an automatic ice taking device and a precooling water tank which are arranged on a shovel-mounted base.

Description

Air-cooled online ice slurry precooling all-in-one machine

Technical Field

The invention relates to the field of ice making, in particular to an air-cooled online ice slurry precooling integrated machine.

Background

The conventional precooling technology adopts a mixed precooling mode of ice and water, the ice is generally in the form of flake ice, scaly ice or plate ice, the temperature of the ice is generally about-10 ℃, the ice is hard in texture and slow in melting speed, and even the ice is removed without melting, so that the energy is greatly consumed, the edges of the ice easily stab the surface of precooled food (such as cherry, seafood and the like), and the optimal precooling speed and quality are difficult to maintain.

Disclosure of Invention

The present invention aims to overcome the above-mentioned shortcomings and provide a technical solution to solve the above-mentioned problems.

An air-cooled online ice slurry precooling integrated machine comprises a direct evaporation type supercooled water ice slurry water unit, an automatic ice taking device and a precooling water tank, wherein the direct evaporation type supercooled water ice slurry water unit is arranged on a shovel-mounted base;

the direct evaporation type supercooled water ice slurry water unit comprises a semi-closed refrigeration compressor, a high-efficiency vertical oil separator, an air-cooled condenser, an ice making evaporator, a gas-liquid separator, an electric expansion valve, an ice making pump, a micro ice crystal processor, a flowmeter, a supercooled water outlet temperature sensor, a crystal actuator, a system integration control cabinet and a variable frequency starting cabinet;

the outlet of the semi-closed refrigeration compressor is connected with the inlet of the high-efficiency vertical oil separator, the outlet of the high-efficiency vertical oil separator is connected with the air inlet of the air-cooled condenser, the liquid outlet of the air-cooled condenser is connected with the liquid supply port of the gas-liquid separator, the liquid outlet of the gas-liquid separator is connected with the liquid inlet of the ice-making evaporator, the steam outlet of the ice-making evaporator is connected with the steam inlet of the gas-liquid separator, and the gas outlet of the gas-liquid separator is connected with the air inlet of the; the semi-closed refrigeration compressor, the vertical oil separator, the air-cooled condenser, the gas-liquid separator and the ice-making evaporator form a gravity liquid supply type refrigeration system;

the inlet of the ice making pump is connected with the water outlet of the ice storage tank through a pipeline, a flowmeter is arranged on the pipeline, an ice making evaporator is respectively connected with the micro ice crystal processor and the anti-propagator, the outlet of the anti-propagator is connected with the inlet of the crystal promoting device, and the outlet of the crystal promoting device is connected with the inlet of the ice storage tank;

the upper side and the lower side of a cylinder body of the gas-liquid separator are respectively provided with a liquid level control connecting pipe, the liquid level control connecting pipes are connected with a collecting pipe, the top of the collecting pipe is provided with a liquid level sensor, and the liquid level sensor and the electric expansion valve are respectively connected with a system integrated control cabinet to form a set of automatic liquid supply system for intelligently controlling the liquid level of the gas-liquid separator;

the semi-closed refrigeration compressor, the high-efficiency vertical oil separator, the water-cooled condenser, the ice-making evaporator, the gas-liquid separator, the electric expansion valve, the ice-making pump, the micro-ice crystal processor, the flowmeter, the supercooled water outlet temperature sensor, the crystal accelerator, the system integrated control cabinet and the variable-frequency starting cabinet are all arranged on the shovel-mounted base;

the automatic ice taking device is arranged at the inner side of the ice storage tank, the automatic ice taking device 3 comprises an ice-water separating device and a scraping type mesh belt conveyor, and the ice-water separating device is arranged at the position below a feed inlet of the ice storage tank; the ice-water separation device consists of a connecting plate, an ice-water separation plate, a stainless steel woven mesh and an elastic connecting piece; the ice-water separation plate is of a plate structure which is obliquely arranged downwards from left to right, wherein the front side and the rear side of the ice-water separation plate are respectively provided with an integrally formed and upwards warped coaming plate, the upper edge of the ice-water separation plate is fixedly connected with the connecting plate in a screw locking manner, the upper edge of the connecting plate is fixedly connected with the bottom surface of the top plate of the ice storage tank in a screw locking manner, and the ice-water separation plate is arranged right below the feed inlet of the ice storage tank; the lower edge of the ice-water separation plate is aligned and connected with a stainless steel woven net in a screw fixing mode, the stainless steel woven net is obliquely and downwards arranged from left to right, the front end part and the rear end part of the right edge of the stainless steel woven net are fixedly locked by screws, and elastic connecting pieces are fixedly arranged at the front end and the rear end of the right edge of the stainless steel woven net, and the upper ends of the elastic connecting pieces are fixedly arranged at the bottom surface of a top plate of the ice storage tank by; the elastic hoisting of the stainless steel mesh grid is realized by utilizing the elastic connecting piece; the ice-water mixture falls on the ice-water separation plate through the feeding hole, the ice-water separation plate plays a role in guiding and buffering, the ice-water mixture slides to the stainless steel woven mesh under the action of gravitational potential energy of the ice-water mixture, ice-water separation is realized under the action of the stainless steel woven mesh, the ice blocks slide from the right edge of the stainless steel woven mesh under the effect of terminal potential energy of the ice blocks, the ice-water separation effect is integrally realized at the moment, and the elastic connecting piece plays a role in buffering, so that the serious splashing condition of the ice water when the ice water falls into the ice-water separation plate can be reduced.

As a further scheme of the invention: the scraping type mesh belt conveyor is composed of mesh belt conveyors, the mesh belt conveyors are arranged at intervals right below the ice-water separation device, and the mesh belt conveyors are of a horizontal conveying structure; a plurality of L-shaped scrapers are fixed on the surface of a mesh belt of the mesh belt conveyor by screws, and the scrapers are arranged at equal intervals along the surface of the mesh belt conveyor; the ice blocks falling from the stainless steel mesh grid fall on the mesh belt conveyor under the action of gravity, and the conveying mesh belt of the mesh belt conveyor is of a porous structure, so that redundant ice water on the ice blocks can be drained, and the scraper plays a role in separating the ice blocks and limiting the ice blocks to slide on the mesh belt; the mesh belt conveyor is horizontally conveyed from left to right, the conveying tail end of the mesh belt conveyor is close to the feeding port of the ice outlet pipe of the ice storage tank, at the moment, the drained ice blocks are directly sent out from the ice outlet pipe, the ice-water mixture is integrally and doubly drained, a guide conveying effect is adopted, the energy consumption of the whole ice-water separation process is low, and the cold storage ice blocks for food fresh keeping can be effectively prepared.

As a further scheme of the invention: the mesh belt conveyor is connected with the pre-cooling water tank through a slide way, and the hung ice blocks slide into the pre-cooling water tank through the slide way to be stored.

The invention has the beneficial effects that: the ice making machine set, the ice taking and conveying device and the precooling water pool are integrally skid-mounted, the equipment is highly integrated, the occupied area is small, the taken ice is natural soft ice at 0 ℃, and the ice is directly contacted with food and seafood, so that the surface of the food is not damaged, and the surface of the food is not frosted. The invention can be popularized and used to replace the existing high-energy-consumption ice-making system in a large quantity, and realize energy conservation, consumption reduction and quality guarantee in various occasions such as slaughter precooling, fruit and vegetable and food soaking precooling.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural view of the present invention;

in the figure: 1-shovel loading base, 2-direct evaporation type supercooled water ice slurry water machine set, 3-automatic ice taking device and 4-precooling water tank.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, in the embodiment of the present invention, an air-cooled online ice slurry precooling integrated machine includes a direct evaporation type supercooled water ice slurry water unit 2 installed on a shovel-mounted base 1, an automatic ice fetching device 3, and a precooling water pool 4;

the direct evaporation type supercooled water ice slurry water unit 2 comprises a semi-closed refrigeration compressor, a high-efficiency vertical oil separator, an air-cooled condenser, an ice making evaporator, a gas-liquid separator, an electric expansion valve, an ice making pump, a micro ice crystal processor, a flowmeter, a supercooled water outlet temperature sensor, a crystal accelerator, a system integration control cabinet and a variable frequency starting cabinet;

the outlet of the semi-closed refrigeration compressor is connected with the inlet of the high-efficiency vertical oil separator, the outlet of the high-efficiency vertical oil separator is connected with the air inlet of the air-cooled condenser, the liquid outlet of the air-cooled condenser is connected with the liquid supply port of the gas-liquid separator, the liquid outlet of the gas-liquid separator is connected with the liquid inlet of the ice-making evaporator, the steam outlet of the ice-making evaporator is connected with the steam inlet of the gas-liquid separator, and the gas outlet of the gas-liquid separator is connected with the air inlet of the; the semi-closed refrigeration compressor, the vertical oil separator, the air-cooled condenser, the gas-liquid separator and the ice-making evaporator form a gravity liquid supply type refrigeration system;

the inlet of the ice making pump is connected with the water outlet of the ice storage tank through a pipeline, a flowmeter is arranged on the pipeline, an ice making evaporator is respectively connected with the micro ice crystal processor and the anti-propagator, the outlet of the anti-propagator is connected with the inlet of the crystal promoting device, and the outlet of the crystal promoting device is connected with the inlet of the ice storage tank;

the upper side and the lower side of a cylinder body of the gas-liquid separator are respectively provided with a liquid level control connecting pipe, the liquid level control connecting pipes are connected with a collecting pipe, the top of the collecting pipe is provided with a liquid level sensor, and the liquid level sensor and the electric expansion valve are respectively connected with a system integrated control cabinet to form a set of automatic liquid supply system for intelligently controlling the liquid level of the gas-liquid separator;

the semi-closed refrigeration compressor, the high-efficiency vertical oil separator, the air-cooled condenser, the ice-making evaporator, the gas-liquid separator, the electric expansion valve, the ice-making pump, the micro-ice crystal processor, the flowmeter, the supercooled water outlet temperature sensor, the crystal accelerator, the system integrated control cabinet and the variable-frequency starting cabinet are all arranged on the shovel base;

the automatic ice taking device 3 is arranged at the inner side of the ice storage tank, the automatic ice taking device 3 comprises an ice-water separating device and a scraping type mesh belt conveyor, and the ice-water separating device is arranged at the position below a feed inlet of the ice storage tank; the ice-water separation device consists of a connecting plate, an ice-water separation plate, a stainless steel woven mesh and an elastic connecting piece; the ice-water separation plate is of a plate structure which is obliquely arranged downwards from left to right, wherein the front side and the rear side of the ice-water separation plate are respectively provided with an integrally formed and upwards warped coaming plate, the upper edge of the ice-water separation plate is fixedly connected with the connecting plate in a screw locking manner, the upper edge of the connecting plate is fixedly connected with the bottom surface of the top plate of the ice storage tank in a screw locking manner, and the ice-water separation plate is arranged right below the feed inlet of the ice storage tank; the lower edge of the ice-water separation plate is aligned and connected with a stainless steel woven net in a screw fixing mode, the stainless steel woven net is obliquely and downwards arranged from left to right, the front end part and the rear end part of the right edge of the stainless steel woven net are fixedly locked by screws, and elastic connecting pieces are fixedly arranged at the front end and the rear end of the right edge of the stainless steel woven net, and the upper ends of the elastic connecting pieces are fixedly arranged at the bottom surface of a top plate of the ice storage tank by; the elastic hoisting of the stainless steel mesh grid is realized by utilizing the elastic connecting piece; the ice-water mixture falls on the ice-water separation plate through the feeding hole, the ice-water separation plate plays roles of guiding and buffering, the ice-water mixture slides to the stainless steel mesh grid under the action of gravitational potential energy of the ice-water mixture, ice-water separation is realized under the action of the stainless steel mesh grid, the ice blocks slide from the right edge of the stainless steel mesh grid under the effect of terminal potential energy of the ice blocks, the ice-water separation effect is integrally realized at the moment, and the elastic connecting piece plays a role of buffering, so that the serious splashing condition of the ice water when the ice water falls into the ice-water separation plate can be reduced;

the scraping type mesh belt conveyor is composed of mesh belt conveyors, the mesh belt conveyors are arranged at intervals right below the ice-water separation device, and the mesh belt conveyors are of a horizontal conveying structure; a plurality of L-shaped scrapers are fixed on the surface of a mesh belt of the mesh belt conveyor by screws, and the scrapers are arranged at equal intervals along the surface of the mesh belt conveyor; the ice blocks falling from the stainless steel mesh grid fall on the mesh belt conveyor under the action of gravity, and the conveying mesh belt of the mesh belt conveyor is of a porous structure, so that redundant ice water on the ice blocks can be drained, and the scraper plays a role in separating the ice blocks and limiting the ice blocks to slide on the mesh belt; the mesh belt conveyor is horizontally conveyed from left to right, the conveying tail end of the mesh belt conveyor is close to the feeding port of the ice outlet pipe of the ice storage tank, at the moment, the drained ice blocks are directly sent out from the ice outlet pipe, the ice-water mixture is integrally and doubly drained, a guide conveying effect is adopted, the energy consumption of the whole ice-water separation process is low, and the cold storage ice blocks for food fresh keeping can be effectively prepared.

The mesh belt conveyor is connected with the pre-cooling water tank through a slide way, and the hung ice blocks slide into the pre-cooling water tank through the slide way to be stored.

The working principle of the invention is as follows: the device of the invention consists of a direct evaporation type supercooled water ice slurry water machine set, an automatic ice taking and sending device and a precooling water tank, wherein the direct evaporation type supercooled water ice slurry water machine set, the automatic ice taking and sending device and the precooling water tank are skid-mounted on a shovel base together, are prefabricated and assembled in a factory, are electrified on site, and can be put into use after being filled with proper refrigerants.

The direct evaporation type supercooled water ice slurry water unit provides an ice water mixture with the temperature of 0 ℃ and containing ice in a specific proportion, and the ice water mixture enters an automatic ice taking and conveying device to realize effective separation and purification of the ice and water and conveying of the ice; the high-purity soft ice at 0 ℃ is conveyed to a chain of a precooling water tank, and the high-purity soft ice maintains the precooling water tank for precooling at a constant temperature of 0 ℃ so as to realize four processes of instantaneous ice making, ice-water separation, ice taking and ice slurry precooling in an ice storage tank.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (2)

1. An air-cooled online ice slurry precooling integrated machine is characterized by comprising a direct evaporation type supercooled water ice slurry water unit, an automatic ice taking device and a precooling water tank, wherein the direct evaporation type supercooled water ice slurry water unit is arranged on a shovel-mounted base;

the direct evaporation type supercooled water ice slurry water unit comprises a semi-closed refrigeration compressor, a high-efficiency vertical oil separator, an air-cooled condenser, an ice making evaporator, a gas-liquid separator, an electric expansion valve, an ice making pump, a micro ice crystal processor, a flowmeter, a supercooled water outlet temperature sensor, a crystal actuator, a system integration control cabinet and a variable frequency starting cabinet;

the outlet of the semi-closed refrigeration compressor is connected with the inlet of the high-efficiency vertical oil separator, the outlet of the high-efficiency vertical oil separator is connected with the air inlet of the air-cooled condenser, the liquid outlet of the air-cooled condenser is connected with the liquid supply port of the gas-liquid separator, the liquid outlet of the gas-liquid separator is connected with the liquid inlet of the ice-making evaporator, the steam outlet of the ice-making evaporator is connected with the steam inlet of the gas-liquid separator, and the gas outlet of the gas-liquid separator is connected with the air inlet of the;

the inlet of the ice making pump is connected with the water outlet of the ice storage tank through a pipeline, a flowmeter is arranged on the pipeline, an ice making evaporator is respectively connected with the micro ice crystal processor and the anti-propagator, the outlet of the anti-propagator is connected with the inlet of the crystal promoting device, and the outlet of the crystal promoting device is connected with the inlet of the ice storage tank;

the upper side and the lower side of a cylinder body of the gas-liquid separator are respectively provided with a liquid level control connecting pipe, the liquid level control connecting pipes are connected with a collecting pipe, the top of the collecting pipe is provided with a liquid level sensor, and the liquid level sensor and the electric expansion valve are respectively connected with a system integrated control cabinet;

the semi-closed refrigeration compressor, the high-efficiency vertical oil separator, the air-cooled condenser, the ice-making evaporator, the gas-liquid separator, the electric expansion valve, the ice-making pump, the micro-ice crystal processor, the flowmeter, the supercooled water outlet temperature sensor, the crystal accelerator, the system integrated control cabinet and the variable-frequency starting cabinet are all arranged on the shovel base;

the automatic ice taking device is arranged at the inner side of the ice storage tank and comprises an ice-water separating device and a scraping type mesh belt conveyor, and the ice-water separating device is arranged below a feed port of the ice storage tank; the ice-water separation device consists of a connecting plate, an ice-water separation plate, a stainless steel woven mesh and an elastic connecting piece; the ice-water separation plate is of a plate structure which is obliquely arranged downwards from left to right, wherein the front side and the rear side of the ice-water separation plate are respectively provided with an integrally formed and upwards warped coaming plate, the upper edge of the ice-water separation plate is fixedly connected with the connecting plate in a screw locking manner, the upper edge of the connecting plate is fixedly connected with the bottom surface of the top plate of the ice storage tank in a screw locking manner, and the ice-water separation plate is arranged right below the feed inlet of the ice storage tank; the lower edge of the ice-water separation plate is aligned and connected with a stainless steel woven net in a screw fixing mode, the stainless steel woven net is obliquely and downwards arranged from left to right, the front end part and the rear end part of the right edge of the stainless steel woven net are fixedly locked by screws, and elastic connecting pieces are fixedly arranged at the front end and the rear end of the right edge of the stainless steel woven net, and the upper ends of the elastic connecting pieces are fixedly arranged at the bottom surface of a top plate of the ice storage tank by; the elastic hoisting of the stainless steel mesh grid is realized by utilizing the elastic connecting piece; the scraping type mesh belt conveyor is composed of mesh belt conveyors, the mesh belt conveyors are arranged at intervals right below the ice-water separation device, and the mesh belt conveyors are of a horizontal conveying structure; a plurality of L-shaped scrapers are fixed on the surface of a mesh belt of the mesh belt conveyor by screws, and the scrapers are arranged at equal intervals along the surface of the mesh belt conveyor; the mesh belt conveyor is horizontally conveyed from left to right, and the conveying tail end of the mesh belt conveyor is close to the feeding port of the ice outlet pipe of the ice storage tank.

2. The air-cooled online ice slurry precooling all-in-one machine as claimed in claim 1, wherein the mesh belt conveyor is connected with a precooling water pool through a slide way.

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