CN209763549U - Novel water-cooled condensing system - Google Patents

Abstract

The utility model relates to a novel water-cooled condensing system, which comprises a base, a condensing unit and a condensing unit, wherein the base comprises a pair of base split bodies which are distributed in parallel; the condensation assembly comprises a water-cooled condenser, a compressor is arranged at the upper end of the water-cooled condenser, and an evaporator is arranged beside the water-cooled condenser; and the oil-gas separation component comprises a gas-liquid separator and an oil separator which are arranged on the same base split body, and a filter barrel arranged on the other base split body is also arranged between the gas-liquid separator and the water-cooled condenser. The utility model has the advantages that: adopt two base components of a whole that can function independently come the complex mode to through seting up the arc recess, thereby made things convenient for water cooled condenser's quick location installation, also reduced water cooled condenser's mounting height simultaneously, rethread extends the cooperation of erection segment A with extension erection segment B, thereby make all mountable directly on the base of vapour and liquid separator, oil separator and filter vat, need not to reprocess parts such as other supports and install, made things convenient for the installation.

Description

Novel water-cooled condensing system

Technical Field

The utility model relates to a cooling arrangement, in particular to novel water-cooled condensing system.

Background

The refrigerating system consists of refrigerant and four parts, i.e. compressor, condenser, expansion valve and evaporator.

The compressor is the power of refrigeration cycle, it is dragged by the motor and rotates endlessly, it except withdrawing the vapor in the evaporator in time, maintain low temperature low pressure, still improve pressure and temperature of refrigerant vapour through the compression action, create the condition that transfers the heat of the refrigerant vapour to the external environment medium. I.e., low temperature and low pressure refrigerant vapor is compressed to a high temperature and high pressure state so that the refrigerant vapor can be condensed using air or water at normal temperature as a cooling medium.

The condenser is a heat exchange device and is used for taking away heat of high-temperature and high-pressure refrigeration steam from the compressor by utilizing an environmental cooling medium (air or water) so as to cool and condense the high-temperature and high-pressure refrigeration steam into high-pressure and normal-temperature refrigeration liquid. It is worth mentioning that the condenser is at a constant, yet high pressure during the process of changing the refrigerant vapor to refrigerant liquid.

The refrigerant liquid with high pressure and normal temperature is directly sent into the low-temperature evaporator, and the pressure of the refrigerant liquid is reduced according to the corresponding principle of saturation pressure and saturation temperature, so that the temperature of the refrigerant liquid is reduced. The refrigerant liquid with high pressure and normal temperature passes through a pressure reducing device, namely a throttling element, to obtain low-temperature and low-pressure refrigerant, and then is sent into an evaporator for heat absorption and evaporation. The capillary tube is commonly used as a throttling element in refrigerators and air conditioners in daily life.

the evaporator is also a heat exchange device, the throttled low-temperature and low-pressure refrigerant liquid is evaporated (boiled) in the evaporator to be steam, the heat of a cooled substance is absorbed, the temperature of the substance is reduced, and the purpose of freezing and refrigerating food is achieved.

At present, in the refrigeration system used in the existing market, in the process of installing four components, namely a water-cooled condenser, a gas-liquid separator, an oil separator and a filter barrel, the bottom ends of the three components are higher than the bottom end of the water-cooled condenser in the process of installing the three components, namely the installation heights are inconsistent, and the installation base for installing the four components is often a plane support, namely a horizontal plane, so that when the installation height of the water-cooled condenser is met, a heightening support needs to be additionally arranged on the base to meet the installation heights of the rest three components, which is very troublesome.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a simple to operate's novel water-cooled condensing system.

In order to solve the technical problem, the utility model adopts the technical scheme that: the utility model provides a novel water-cooled condensing system, its innovation point lies in: comprises that

The base comprises a pair of base split bodies which are distributed in parallel;

The condensation assembly is arranged on the base and comprises a water-cooled condenser supported on two split bases, the upper end of the water-cooled condenser is provided with a compressor, and an evaporator is arranged beside the water-cooled condenser;

An oil-gas separation subassembly of installing on the base, oil-gas separation subassembly still is provided with a filter vat of installing on another base components of a whole that can function independently between gas-liquid separator and water cooled condenser including being located the condenser both sides respectively and installing a vapour and liquid separator, an oil separator on same base components of a whole that can function independently, still is provided with between filter vat and vapour and liquid separator and looks liquid mirror, solenoid valve, connect gradually through the pipeline between compressor, oil separator, water cooled condenser, filter vat, evaporimeter, the vapour and liquid separator and form the circulation.

Furthermore, the upper end of the middle position of the base split bodies is provided with an arc-shaped groove in which the water-cooling condenser is embedded, two sides of one of the base split bodies extend outwards to form an extension installation section A for respectively installing the gas-liquid separator and the oil separator, and one side of the other base split body extends outwards to form an extension installation section B for installing the filter barrel.

Furthermore, the water-cooled condenser is connected with the filter barrel through a straight-through pipeline, and a vertical valve is installed on the straight-through pipeline.

Further, vapour and liquid separator includes a gas branch barrel, installs a U-shaped pipe, an L venturi tube in the gas branch barrel, has a gas outlet, an air inlet, a liquid outlet in the upper end of gas branch barrel, has a inlet at the lower side end of gas branch barrel, one of them port of U-shaped pipe links to each other with the gas outlet, and another port is located the upper end of gas branch barrel to be located the side of the air inlet of gas branch barrel, and still install the baffle that a slope set up between the air inlet of this port and gas branch barrel, one of them port of L venturi tube links to each other with the inlet of gas branch barrel, and another port links to each other with the liquid outlet of gas branch barrel, the L venturi tube passes between the U-shaped pipe.

Furthermore, the oil separator comprises an oil separation barrel, an annular filter screen is installed in the oil separation barrel, an air outlet is formed in the top end of the oil separation barrel, an air inlet is formed in the upper side end of the oil separation barrel, the air outlet extends into the lower end of the oil separation barrel and is located in a cavity of the filter screen, and the air inlet is located between the filter screen and the inner wall of the oil separation barrel.

The utility model has the advantages that: the utility model discloses a novel water-cooled condensing system adopts two base components of a whole that can function independently to come the complex mode to through seting up the arc recess, thereby made things convenient for water cooled condenser's quick location installation, also reduced water cooled condenser's mounting height simultaneously, rethread extends erection section A and extends erection section B's cooperation, thereby made all direct mount on the base of vapour and liquid separator, oil separator and filter vat, need not to reprocess parts such as other supports and install, made things convenient for the installation.

For the installation of the filter vat, the filter vat is installed beside the water-cooled condenser, and the straight-through pipeline can be adopted for connecting the pipeline for connecting the filter vat and the water-cooled condenser by the matching of the vertical valve, thereby reducing the problem of large resistance caused by the adoption of elbow connection.

For the arrangement of the gas-liquid separator, the U-shaped pipe is matched with the L-shaped pipe, so that cooling liquid entering the evaporator and hot steam sent out from the evaporator can perform mutual heat exchange in the gas-liquid separator, the temperature of the hot steam is reduced, the temperature of the cooling liquid is increased, the power of the subsequent evaporator and the water-cooled condenser during evaporation or condensation is reduced, and the energy consumption is reduced; through the arrangement of the partition plate, the hot steam is prevented from directly entering the U-shaped pipe from the gas-liquid separator and does not enter the gas-liquid separator, and the smooth heat exchange between the hot steam and the cold night liquid is ensured.

To oil separator's setting, through setting up the air inlet between filter screen and oil content barrel inner wall, the gas outlet then stretches into the lower extreme of oil content barrel and is arranged in the cavity of filter screen to make the gas that gets into oil separator can send out after the filter screen filters earlier, ensure the filter effect.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

fig. 1 is a schematic view of the novel water-cooled condensing system of the present invention.

fig. 2 is a front view of the novel water-cooled condensing system of the present invention.

3 fig. 3 3 3 is 3 a 3 sectional 3 view 3 a 3- 3 a 3 of 3 fig. 3 2 3. 3

Fig. 4 is a bottom view of the novel water-cooled condensing system of the present invention.

fig. 5 is an internal schematic view of the gas-liquid separator of the present invention.

Detailed Description

The following examples are presented to enable those skilled in the art to more fully understand the present invention and are not intended to limit the scope of the present invention.

A novel water-cooled condensing system as shown in FIGS. 1-5 comprises

The base comprises a pair of base split bodies 1 which are distributed in parallel, the upper end of the middle position of each base split body 1 is provided with an arc-shaped groove in which the water-cooling condenser 2 is embedded, two sides of one base split body 1 extend outwards to form an extending installation section A3 for installing the gas-liquid separator 6 and the oil separator 7 respectively, and one side of the other base split body 1 extends outwards to form an extending installation section B4 for installing the filter barrel 5. For the design of base, adopt two base components of a whole that can function independently 1 come the complex mode to through seting up the arc recess, thereby made things convenient for water cooled condenser 2's quick location installation, also reduced water cooled condenser 2's mounting height simultaneously, rethread extends the cooperation of erection segment A3 with extension erection segment B4, thereby make vapour and liquid separator 6, oil separator 7 and filter vat 5 all can the direct mount on the base, need not to reprocess parts such as other supports and install, made things convenient for the installation.

The condensation component is arranged on the base and comprises a water-cooled condenser 2 supported on two split bases, an air inlet is formed in the upper side end of the water-cooled condenser 2, a liquid outlet is formed in the side end of the water-cooled condenser 2, a compressor 8 is arranged at the upper end of the water-cooled condenser 2, an air inlet and an air outlet are formed in two sides of the upper end of the compressor 8 respectively, an evaporator is arranged at the side of the water-cooled condenser 2, and the evaporator is provided with an inlet and an air outlet.

An oil-gas separation component installed on the base, the oil-gas separation component comprises a gas-liquid separator 6 and an oil separator 7 which are respectively positioned on two sides of a water-cooled condenser 2 and installed on the same base split body 1, a filter barrel 5 installed on the other base split body 1 is further arranged between the gas-liquid separator 6 and the water-cooled condenser 2, the filter barrel 5 is provided with a liquid inlet and a liquid outlet, a liquid viewing mirror 9 and an electromagnetic valve 10 are further arranged between the filter barrel 5 and the gas-liquid separator 6, the electromagnetic valve 10 is fixed at the side end of the water-cooled condenser 2 through an electromagnetic valve installation seat, and the compressor 8, the oil separator 7, the water-cooled condenser 2, the filter barrel 5, the liquid viewing mirror 9, the electromagnetic valve 10, the evaporator and the gas-liquid separator 6 are.

The water-cooled condenser 2 is connected with the filter barrel 5 through a straight-through pipeline 11, and a vertical valve 12 is arranged on the straight-through pipeline 11. For the installation of the filter barrel 5, the filter barrel 5 is installed at the side of the water-cooled condenser 2, and the straight-through pipeline 11 can be adopted for connecting the pipeline connecting the filter barrel 5 and the water-cooled condenser 2 by the matching of the vertical valve 12, so that the problem of large resistance caused by the adoption of elbow connection is reduced.

As shown in fig. 3 and 5, the gas-liquid separator includes a gas-separating cylinder 61, a U-shaped pipe 62 and an L-shaped pipe 63 are installed in the gas-separating cylinder 61, an air outlet 65, an air inlet 64 and an air outlet are provided at the upper end of the gas-separating cylinder 61, an air inlet is provided at the lower end of the gas-separating cylinder 61, one port of the U-shaped pipe 62 is connected to the air outlet 65 of the gas-separating cylinder 61, the other port of the U-shaped pipe 62 is located at the upper end of the gas-separating cylinder 61 and is located beside the air inlet 64 of the gas-separating cylinder 61, and an inclined partition plate 66 is further installed between the port and the air inlet 64 of the gas-separating cylinder 61, by the partition plate 66, so as to prevent hot steam from directly entering the U-shaped pipe 62 from the air inlet 64 of the gas-liquid separator 6 and from entering the, one port of the L-shaped pipe 63 is connected to the liquid inlet of the air distribution cylinder 61, the other port of the L-shaped pipe 63 is connected to the liquid outlet of the air distribution cylinder 61, and the L-shaped pipe 63 penetrates through the U-shaped pipe 62. For the setting of vapour and liquid separator, through the cooperation of U-shaped pipe 62 and L venturi tube 63 to make the cooling liquid who gets into the evaporimeter and the hot steam that sees off from the evaporimeter can carry out mutual heat exchange in vapour and liquid separator 6, thereby reduced the temperature of hot steam, improved the temperature of cooling liquid, and then reduced the power when follow-up evaporimeter carries out the evaporation or the condensation with water-cooled condenser 2, reduce the energy consumption.

As can be seen from the schematic diagram shown in fig. 3, the oil separator 7 includes an oil separation cylinder 71, an annular filter screen 72 is installed in the oil separation cylinder 71, an air outlet 72 is provided at the top end of the oil separation cylinder 71, an air inlet is provided at the upper end of the oil separation cylinder 71, the air outlet 72 of the oil separation cylinder 71 extends into the lower end of the oil separation cylinder 71 and is located in the cavity of the filter screen 72, a spiral conveying blade 74 is further installed on the outer wall of the air outlet 72, the conveying blade 74 is arranged to provide a certain guiding function for the gas conveyance, and the air inlet is located between the filter screen 72 and the inner wall of the oil separation cylinder 71. For the arrangement of the oil separator 7, the air inlet is arranged between the filter screen 72 and the inner wall of the oil separation cylinder 71, and the air outlet 72 extends into the lower end of the oil separation cylinder 71 and is positioned in the cavity of the filter screen 72, so that the air entering the oil separator 7 can be sent out after being filtered by the filter screen 72, and the filtering effect is ensured.

The working principle is as follows: firstly, the compressor 8 works to compress the steam with lower pressure into the steam with higher pressure, so that the volume of the steam is reduced and the pressure is increased, then the steam is sent into the water-cooled condenser 2 from the air inlet of the water-cooled condenser 2 to be condensed into cooling liquid with higher pressure, then the cooling liquid is sent into the filter barrel 5 to be filtered, and after being filtered, the cooling liquid is throttled by the electromagnetic valve 10 and then sent into the evaporator through the L-shaped pipe 63, the steam with lower pressure is formed by heat absorption and evaporation of the evaporator, the steam is sent out from the air outlet of the evaporator, and is sent back into the compressor 8 from the U-shaped pipe 62 after being sent into the gas-liquid separator 6 from the air inlet 64 of the gas-liquid separator 6 to exchange heat with the cooling liquid in the L-shaped pipe 63, and.

It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. A novel water-cooled condensing system is characterized in that: comprises that

The base comprises a pair of base split bodies which are distributed in parallel;

The condensation assembly is arranged on the base and comprises a water-cooled condenser supported on two split bases, the upper end of the water-cooled condenser is provided with a compressor, and an evaporator is arranged beside the water-cooled condenser;

An oil-gas separation subassembly of installing on the base, oil-gas separation subassembly still is provided with a filter vat of installing on another base components of a whole that can function independently between gas-liquid separator and water cooled condenser including being located the condenser both sides respectively and installing a vapour and liquid separator, an oil separator on same base components of a whole that can function independently, still is provided with between filter vat and vapour and liquid separator and looks liquid mirror, solenoid valve, connect gradually through the pipeline between compressor, oil separator, water cooled condenser, filter vat, evaporimeter, the vapour and liquid separator and form the circulation.

2. The novel water-cooled condensing system according to claim 1, characterized in that: the upper end of the middle position of the base split bodies is provided with an arc-shaped groove in which the water-cooling condenser is embedded, two sides of one base split body extend outwards to form an extending installation section A for installing the gas-liquid separator and the oil separator respectively, and one side of the other base split body extends outwards to form an extending installation section B for installing the filter barrel.

3. The novel water-cooled condensing system according to claim 1, characterized in that: the water-cooled condenser is connected with the filter barrel through a straight-through pipeline, and a vertical valve is installed on the straight-through pipeline.

4. The novel water-cooled condensing system according to claim 1, characterized in that: the gas-liquid separator comprises a gas-separating cylinder body, a U-shaped pipe and an L-shaped pipe are installed in the gas-separating cylinder body, a gas outlet, a gas inlet and a liquid outlet are formed in the upper end of the gas-separating cylinder body, a liquid inlet is formed in the lower side end of the gas-separating cylinder body, one port of the U-shaped pipe is connected with the gas outlet, the other port of the U-shaped pipe is located in the upper end of the gas-separating cylinder body and located beside the gas inlet of the gas-separating cylinder body, a partition plate which is obliquely arranged is further installed between the port of the U-shaped pipe and the gas inlet of the gas-separating cylinder body, one port of the L-shaped pipe is connected with the liquid inlet of the gas-separating cylinder body, the other port.

5. The novel water-cooled condensing system according to claim 1, characterized in that: the oil separator comprises an oil content barrel, an annular filter screen is installed in the oil content barrel, an air outlet is formed in the top end of the oil content barrel, an air inlet is formed in the upper side end of the oil content barrel, the air outlet extends into the lower end of the oil content barrel and is located in a cavity of the filter screen, and the air inlet is located between the filter screen and the inner wall of the oil content barrel.