KR20210123001A - Apparatus of rapid cooling of livestock shed using dry ice - Google Patents

Abstract

The present invention relates to an apparatus of rapidly cooling a livestock shed to prevent death of livestock due to heat. According to the present invention, the apparatus of rapidly cooling a livestock shed comprises: a CO_2 storage unit (200); a liquid CO_2 distributor (400); a liquid CO_2 supply tube (300) supplying liquid CO_2 sucked up from the CO_2 storage unit (200) to the liquid CO_2 distributor (400); and a plurality of dry ice spray tubes (600) branched into several branches by the liquid CO_2 distributor (400) and spraying dry ice formed at the end thereof by adiabatic expansion into the livestock shed.

Description

Rapid cooling of livestock shed using dry ice {Apparatus of rapid cooling of livestock shed using dry ice}

The present invention relates to a livestock rapid cooling device, and to a livestock rapid cooling system that rapidly cools the temperature inside a livestock barn using dry ice in order to prevent the death of livestock due to a rapid increase in the temperature inside the barn during the day in midsummer. .

Every summer, a large number of livestock die due to the heat wave. The death of livestock due to heat waves is a chronic problem that repeats every year. In recent years, as the meat-based diet has been expanded, livestock farms with dense breeding continue to increase, and livestock easily die when a heat wave strikes in such a dense environment. In particular, poultry such as chickens and ducks do not have the ability to regulate temperature because they do not have pores. Therefore, it is very fatal if the temperature of the livestock house rises above 30℃. In order to prevent the temperature rise of the livestock, a light-shielding film and a sprinkler are installed outside the barn, and a blower and mist sprayer are used inside the barn. All of these cooling methods use the heat of vaporization of water, and despite the use of a huge amount of water, the effect of rapid cooling is small. There are livestock houses that provide rapid cooling by temporarily installing air conditioners when the temperature rises rapidly during the day in midsummer, but there are problems in that air conditioners are expensive and electricity bills are high.

Republic of Korea Patent Registration No. 10-2081316 (Registered on February 19, 2020)

The present invention is to solve the problems of the prior art, and to provide a fast cooling device for a livestock that can very quickly and effectively lower the temperature inside the barn using dry ice having a very excellent cooling effect.

The above objects and various advantages of the present invention will become more apparent from the preferred embodiments of the invention described below with reference to the accompanying drawings by those skilled in the art.

According to the present invention, there is provided a livestock quick cooling device used to prevent death of livestock due to heat, and the livestock quick cooling device includes: a CO ₂ storage unit 200; liquid CO ₂ distributor 400; The CO ₂ storage unit liquid CO ₂ supply tube 300 for supplying the CO ₂ in the liquid state in which the sucked in liquid CO ₂ distributor 400 from 200; and a plurality of dry ice spray tubes 600 that are branched into several branches by the liquid CO ₂ distributor 400 and spray dry ice formed at the end by adiabatic expansion into the barn.

According to one embodiment, the livestock quick cooling apparatus includes: a blower 1000 installed in the livestock house; and a plurality of tube fixing units 800 for fixing the dry ice injection tubes 600 to the rear frame of the blower 1000 .

According to one embodiment, the CO ₂ storage unit 200, and a plurality of CO ₂ gas cylinder 220 in the liquid CO ₂ is stored along with the CO ₂ in the gaseous phase, each CO ₂ cylinder 220 _{A plurality of straws 240 introduced into each CO 2} cylinder 220 to be immersed in my liquid CO ₂ , and the liquid CO that is commonly connected to the upper end of the straws 240 and sucked up through the straws 240 ₂ includes a liquid CO ₂ integration pipe 260 where it collects.

According to one embodiment, once the liquid CO ₂ distributor for liquid CO ₂ collected in the liquid CO ₂ integration pipe 260 is connected to the liquid CO ₂ integration pipe 260 of the liquid CO ₂ supply tube 300 ( but fed to 400), the liquid CO ₂ supply tube 300, the supply on / off valve 320 and the liquid CO ₂ supply tube 300 is previously set to a pressure that permits or blocks the supply of the liquid CO _{2 A pressure gauge 340 for measuring the pressure in the liquid CO 2} supply tube 300 is installed to maintain the pressure above the pressure, and an injection on/off valve 620 is provided in each of the plurality of dry ice injection tubes 600 . installed, and the diameter d of the dry ice injection tube 600 is 100 to 1000 μm.

According to one embodiment, the livestock quick cooling device further includes a wheeled transfer unit 700 for loading and easily transporting the _{plurality of CO 2 cylinders 220 .}

The rapid cooling system for a livestock barn using dry ice according to the present invention has the characteristic that it can quickly lower the temperature of the barn by using the powerful cooling characteristics of CO2 dry ice. provides

1 is a schematic view of a livestock quick cooling device according to the present invention.
2 and 3 are views for explaining a livestock quick cooling device according to the present invention applied to a blower.

Prior to describing the specific content for carrying out the present invention, it is understood that the terms or words used in the present specification and claims may properly define the concept of the term in order for the inventor to best describe his invention. Based on the principle, it should be interpreted as meaning and concept consistent with the technical idea of the present invention. In addition, it should be noted that, when it is determined that the detailed description of the well-known functions related to the present invention and its configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof is omitted. Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a schematic view of a livestock quick cooling device according to the present invention.

1, the housing rapid cooling device according to the invention the CO ₂ storage 200, and a liquid CO ₂ distributor 400, and a CO ₂ CO ₂ in the liquid state in which sucked from the storage unit 200 and the liquid CO ₂ supply tube 300 for supplying the liquid CO ₂ distributor 400, and a plurality of dry ice injection tube 600 is branched into several branches by the liquid CO ₂ distributor 400, a plurality It includes a plurality of tube fixing parts 800 for fixing the ends of each of the dry ice spray tubes 600 .

In addition, the livestock quick cooling apparatus according to the present invention may further include a transfer unit 700 for easily moving the _{heavy CO 2 storage unit 200 .} As will be described below, the CO ₂ storage unit 200 includes a plurality of CO ₂ cylinders 220 that weigh considerably, and the wheeled transfer unit 700 _{smoothly transports the plurality of CO 2} cylinders 220 . It is advantageously used to move

The CO ₂ storage unit 200 includes a plurality of CO ₂ cylinders 220 . Each of the plurality of CO ₂ gas cylinder 220 is, as to keep the CO ₂ in a high pressure, of the liquid CO ₂ is stored as about 3/4 that of the gas-phase CO ₂ is stored as about 1/4. The CO ₂ storage unit 200 has a plurality of straws 240 introduced into _{the CO 2} cylinder 220 so that the upper end is out and the lower end is submerged in the liquid CO _{2 in each CO 2 cylinder 220, and the} It is commonly connected to the upper end of the straws 240 and the liquid CO ₂ sucked up through the straws 240 is collected and includes a single liquid CO ₂ integrated pipe 260 . Straw 240 functions as a siphon.

_{Liquid CO 2} can be pulled up through the straws 240 . In order to effectively produce dry ice, liquid CO ₂ must be used. Each of the plurality of CO ₂ cylinder 220 in by the liquid CO ₂ integration pipe 260 commonly connected to said straw (240) with a plurality of the straw 240 is introduced to each of the plurality of CO ₂ cylinder 220 are connected in parallel, and in this way, when the plurality of CO ₂ cylinders 220 are connected and used _{in parallel, liquid CO 2} can be used for a longer period of time, resulting in a cooling time by dry ice finally made can be sufficiently secured.

In addition, once the liquid CO ₂ integrated pipe supplying liquid CO ₂ connected to the 260 collected in the liquid CO ₂ integration pipe 260, to a liquid CO ₂ distributor 400 of the liquid CO ₂ supply tube 300 but, the CO ₂ storage unit liquid CO ₂ distributor, to allow the supply of liquid CO ₂ or block to 400 the liquid CO ₂ supply supply on / off valve 320 on the upstream side of the tube 300 from the 200 is installed and a pressure gauge 340 is installed on the downstream side of _{the liquid CO 2 supply tube 300 .} During ON operation of the supply on/off valve 320, the liquid CO ₂ integrated pipe 260, the collected liquid CO ₂ flows through the liquid CO ₂ supply tube 300, and flows through the supply on/off valve ( 320) and after passing through the pressure gauge 340 in turn, the liquid CO ₂ is supplied to the distributor 400. Sufficient pressure is very important for effective dry ice production. Usually, it is preferable to maintain a pressure of 60 bar or more, and when the pressure measured by the pressure gauge 340 is lowered to less than 60 bar, the liquid CO ₂ is considered to be exhausted and the CO ₂ cylinder 220 is replaced.

_{Liquid CO 2} passing through the pressure gauge 340 enters the liquid CO ₂ distributor 400 where it is branched into multiple dry ice spray tubes 600 . An injection on/off valve 620 may be installed in each dry ice injection tube 600 to control on/off of each of the dry ice injection tubes 600 . _{When the liquid CO 2} is injected from the end of the dry ice injection tube 600, the pressure is rapidly decreased, that is, the cylinder pressure is 60 bar or more and the atmospheric pressure is decreased to 1 bar, and the rapid expansion occurs. This is called 'adiabatic expansion', and at this time, liquid CO ₂ causes a phase change to form solid CO ₂ , that is, dry ice.

In order to effectively generate dry ice, the pressure difference must be sufficiently large. For this, the diameter of the dry ice injection tube 600 is very important. If the diameter is too large, the pressure difference is small and the dry ice production rate is low. Therefore, the diameter d of the dry ice injection tube 600 is suitable in the range of 100 to 1000 μm. The ends of the dry ice spray tubes 600 from which dry ice is generated are fixed to a blower as will be described below, and a fixing part 800 such as a clip or tongs for fixing the ends of the dry ice spray tubes 600 . ) are used.

Dry ice is CO ₂ (carbon dioxide) in the solid state, with temperatures so low that it can reach -78.5°C. And it sublimes from solid to gas at room temperature and pressure, and at this time, the heat of sublimation is 577 J/g, which takes away tremendous heat from the surroundings. Therefore, it is widely used for cooling purposes such as storing ice cream and sashimi. By using dry ice with such strong cooling characteristics, the temperature inside the barn can be lowered very quickly.

2 and 3 are views for explaining a quick cooling device for a livestock house according to the present invention applied to a blower. FIG. 2 shows the rear side of the blower, and FIG. 3 shows the side side of the blower.

Referring to FIGS. 2 and 3 , dry ice generated while being sprayed through each end of a plurality of dry ice injection tubes 600 branched into several branches from _{one liquid CO 2 distributor 400 is used to cool the livestock.} For use, the ends of each of the dry ice spray tubes 600 are attached and fixed to the blower 1000 installed in the barn by each of the plurality of fixing parts 800 . The ends of the dry ice spray tubes 600 are fixed to the rear surface of the blower 1000 by the fixing part 800 , more specifically, to the grid-type rear frame 1100 , and the dry ice spray tube 600 . When dry ice is generated at the end, it is carried by the wind generated by the rotation of the blower fan 1200 of the blower 1000 and sprayed to a wide area within the barn. This widely sprayed dry ice uses its low temperature and high heat of sublimation to rapidly cool the surrounding environment.

Alternatively, _{several dry ice injection tubes 600 branched from the liquid CO 2} distributor 400 may be connected to a plurality of blowers 1000 instead of one and used. (not shown)

The present invention can be easily applied to and used in a barn field where livestock is raised in large quantities.

Above, it should be recognized that the above description is merely illustrative of some preferred embodiments of the present invention, and those skilled in the art can make modifications and changes to the present invention without changing the gist of the present invention.

200.............................CO ₂ storage
300.............................Liquid CO ₂ supply tube
400.............................Liquid CO ₂ Distributor
600.............................Dry Ice Blowing Tube

Claims (5)

As a livestock rapid cooling device used to prevent the death of livestock due to heat,
CO ₂ storage unit 200;
liquid CO ₂ distributor 400;
The CO ₂ storage unit liquid CO ₂ supply tube 300 for supplying the CO ₂ in the liquid state in which the sucked in liquid CO ₂ distributor 400 from 200; and
The liquid CO ₂ is branched into several branches by the distributor 400 and sprays dry ice formed at the end by adiabatic expansion into the livestock house, characterized in that it includes a plurality of dry ice injection tubes 600 . cooling device. The method according to claim 1,
Blower 1000 installed in the barn; and
and a plurality of tube fixing units (800) for fixing the dry ice injection tubes (600) to the rear frame of the blower (1000). The method according to claim 1, wherein the CO ₂ storage 200, the plurality of CO ₂ gas cylinder with the liquid CO ₂ is stored along with the CO ₂ in the gaseous phase 220 and, for each CO ₂ cylinder 220 my Gin is commonly connected to the sucking through the straw 240 to the top of each of the CO ₂ gas cylinder a plurality of the straw 240 and the straw 240 is introduced into the 220 to lock into the liquid CO ₂ up liquid CO ₂ Livestock quick cooling system, characterized in that it comprises a liquid CO _{2 consolidation pipe (260) to collect.} The method according to claim 3, wherein the liquid CO ₂ supply tube end has the liquid CO ₂ integration pipe 260 is connected to the liquid CO ₂ integration pipe 260, the liquid CO ₂ Liquid CO ₂ distributor (400 collected in the 300 ) to the supply but, the liquid CO ₂ supply tube 300, the supply on / off valve 320 and the liquid CO ₂ supply tube 300, the pressure within the pre-set pressure, which allows or blocks the supply of the liquid CO ₂ A pressure gauge 340 for measuring the pressure in the liquid CO ₂ supply tube 300 is installed to maintain the above temperature, and an injection on/off valve 620 is installed in each of the plurality of dry ice injection tubes 600 . and the diameter (d) of the dry ice injection tube 600 is 100 ~ 1000um. The rapid cooling apparatus of claim 3, further comprising a wheeled transfer unit 700 for loading and easily transporting the _{plurality of CO 2 cylinders (220).}

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