CN205172890U - Forced cooling system of compressor - Google Patents

Abstract

The utility model discloses a forced cooling system of compressor, the inlet end of cooler are used for linking to each other with the compressor, and this cooler has water inlet and a delivery port, and wherein the water inlet passes through the inlet tube and links to each other with the cooling water set, and the delivery port passes through the outlet pipe and also links to each other with this cooling water set to the by freezing ware falls to compressed gas's exhaust temperature <= 40 DEG C, the inlet end of separator communicates through an exhaust end of crossing trachea and cooler, and the effect of this separator realizes oil -gas separation, and the exhaust end of separator is used for connecting dry purifier. The utility model discloses connect between compressor and dry purifier, and the cooler fall to compressed gas's exhaust temperature <= 40 DEG C, oil -gas separation can be realized to the separator, just so can reduce exhaust temperature by a wide margin to purify the exhaust, thereby reduce the dry purifier's in rear end workload, guarantee dry purifier's life, just the utility model discloses simple structure, low cost.

Description

The pressure cooling system of compressor

Technical field

The utility model belongs to compressor field, particularly relates to a kind of pressure cooling system of compressor.

Background technique

At present, air cooled compressor group or mixed cold type compressor bank are generally directly connected with dry decontamination device.Formerly to lack at water, under the use occasion of ambient temperature higher (when ambient temperature is higher than 45 DEG C), air cooled compressor group or mixed cold type compressor bank are owing to adopting air-cooled cooling, and the delivery temperature of compressor rear end can be higher.Very harsh requirements for gas quality is required for backend gas, and under the higher use occasion of the index request such as oil content, dew point, existing structure cannot meet usage requirement, and the dry decontamination device operating load of rear end can be caused comparatively large, and then shortens the working life of dry decontamination device.

Model utility content

Technical problem to be solved in the utility model is the pressure cooling system providing a kind of compressor, for reducing delivery temperature, and reduces the operating load of rear end dry decontamination device simultaneously.

The technical solution of the utility model is as follows: a kind of pressure cooling system of compressor, it is characterized in that: comprise cooler (A) and separator (E), wherein the inlet end of cooler (A) is used for being connected with compressor, this cooler has water intake (A1) and water outlet (A2), wherein water intake (A1) is connected with handpiece Water Chilling Units (C) by intake pipe (B), described water outlet (A2) is also connected with this handpiece Water Chilling Units by outlet pipe (D), thus by cooler the delivery temperature of pressurized gas is dropped to≤40 DEG C; The inlet end of described separator (E) is crossed tracheae (F) by one and is communicated with the exhaust end of cooler (A), the effect of this separator realizes Oil-gas Separation, and the exhaust end of separator (E) is for connecting dry decontamination device.

Adopt above technological scheme, the utility model is connected between compressor and dry decontamination device, and cooler the delivery temperature of pressurized gas is dropped to≤40 DEG C, separator can realize Oil-gas Separation, so just significantly can reduce delivery temperature, and purify exhaust, thus reduce the operating load of rear end dry decontamination device, ensure the working life of dry decontamination device, and the utility model structure is simple, with low cost.

As important preferred, described cooler (A) comprises housing (1) and suction valve (7), two ports of its middle shell (1) are closed by left end cap (2) and right end cap (3) respectively, the top of this housing is provided with a described water outlet (A2), and be provided with a described water intake (A1) in the bottom of housing (1), and water outlet (A2) and water intake (A1) all communicate with the inner chamber of housing (1); At least two cooling coils (4) are circumferentially provided with in described housing (1), the inlet end of every root cooling coil is installed with an air inlet clamping joint (5), the outlet side of every root cooling coil (4) is installed with a clamping joint of giving vent to anger (6), and air inlet clamping joint (5) is arranged in the mounting hole on described left end cap (2), clamping joint of giving vent to anger (6) is arranged in the mounting hole on described right end cap (3);

Described suction valve (7) and gas outlet valve (8) are located at housing (1) outside, wherein each air outlet of suction valve (7) is communicated with the endoporus of a corresponding described air inlet clamping joint (5) by a suction tude (9), and the inlet end of suction valve (7) is connected with described compressor; Each suction port of described gas outlet valve (8) is communicated with the endoporus of a corresponding clamping joint of giving vent to anger (6) by a steam outlet pipe (10), and the outlet side of this gas outlet valve connects with described tracheae (F) of crossing.

During use, from the suction port input high temperature compressed air of suction valve (7), high temperature compressed air flows in cooling coil (4), and with the cold water generation heat exchange of flowing from bottom to top, thus cooling down high-temperature pressurized air, cooled low temperature compressed air is discharged from the air outlet of gas outlet valve (8).Adopt above structure, the component integrations such as cooling coil on housing (1), and under the prerequisite ensureing cooling effect, significantly reduce volume and taking up room, and said structure can be applicable to the Environmental Conditions of high pressure by the utility model.

As preferably, the number of described cooling coil (4) is four, and these four cooling coils are distributed on four summits of same rectangle, and described suction valve (7) and gas outlet valve (8) are five-way valve.

Adopt above structure, the number of cooling coil (4) is moderate, can ensure reliable cooling effect, can avoid again because the number of cooling coil (4) too much causes cost significantly to raise.

In the present case, left and right, described housing (1) bottom has two pieces of support plates (11) side by side, and this support plate is L shape structure.

For the ease of connecting, described left end cap (2) and right end cap (3) are fixed by screw and housing (1) respectively.

Beneficial effect: the utility model is connected between compressor and dry decontamination device, and cooler the delivery temperature of pressurized gas is dropped to≤40 DEG C, separator can realize Oil-gas Separation, so just significantly can reduce delivery temperature, and exhaust is purified, thus reduce the operating load of rear end dry decontamination device, ensure the working life of dry decontamination device, and the utility model structure is simple, with low cost.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Fig. 2 is the schematic diagram of cooler in Fig. 1.

Fig. 3 is the sectional view after Fig. 2 removes suction valve and gas outlet valve.

Fig. 4 is the left view of Fig. 3.

Embodiment

Below in conjunction with drawings and Examples, the utility model is described in further detail:

As Fig. 1,2, shown in 3 and 4, a kind of pressure cooling system of compressor, primarily of cooler A, intake pipe B, handpiece Water Chilling Units C, outlet pipe D, separator E with cross tracheae F and form.Wherein, cooler A can outsourcing, also can make by oneself.The inlet end of cooler A is connected with compressor when installing, this cooler A has water inlet A 1 and water outlet A 2, wherein water inlet A 1 is connected with the handpiece Water Chilling Units C of outsourcing by intake pipe B, water outlet A 2 is also connected with this handpiece Water Chilling Units C by outlet pipe D, thus by cooler the delivery temperature of pressurized gas is dropped to≤40 DEG C.The inlet end of separator E is crossed tracheae F by one and is communicated with the exhaust end of cooler A, and the effect of this separator realizes Oil-gas Separation, and separator E is outsourcing piece, connects dry decontamination device when its exhaust end is installed.

As shown in Fig. 2,3 and 4, a kind of cooler, is formed primarily of housing 1, left end cap 2, right end cap 3, cooling coil 4, air inlet clamping joint 5, clamping joint 6 of giving vent to anger, suction valve 7, gas outlet valve 8, suction tude 9, steam outlet pipe 10 and support plate 11.Wherein, housing 1 is cylindrical structure, and two ports of this housing 1 are closed by left end cap 2 and right end cap 3 respectively, and left end cap 2 and right end cap 3 are fixed by screw and housing 1 respectively.The top of housing 1 is provided with a water outlet 1a, and is provided with a water intake 1b in the bottom of housing 1, and water outlet 1a and water intake 1b all communicates with the inner chamber of housing 1.Bottom housing 1, left and right has two pieces of support plates 11 side by side, and this support plate is L shape structure, and housing 1 is supported on the ground by these two pieces of support plates 11.

Circumferentially be provided with at least two cooling coils 4 in housing 1, the inlet end of every root cooling coil 4 is installed with an air inlet clamping joint 5, and the outlet side of every root cooling coil 4 is installed with a clamping joint 6 of giving vent to anger.Air inlet clamping joint 5 is arranged in the mounting hole on left end cap 2, in the mounting hole that clamping joint 6 of giving vent to anger is arranged on right end cap 3.

As shown in Fig. 2,3 and 4, described suction valve 7 and gas outlet valve 8 are located at outside housing 1, and wherein each air outlet of suction valve 7 is communicated with the endoporus of a corresponding described air inlet clamping joint 5 by a suction tude 9, and the inlet end of suction valve 7 is connected with described compressor; Each suction port of described gas outlet valve 8 is communicated with by the endoporus of a steam outlet pipe 10 with corresponding one clamping joint 6 of giving vent to anger, and the outlet side of this gas outlet valve connects with the described tracheae F that crosses.In the present case, the number of cooling coil 4 is four, and these four cooling coils are distributed on four summits of same rectangle, and suction valve 7 and gas outlet valve 8 are five-way valve, and suction valve 7 and gas outlet valve 8 can be made by oneself, also buyable.

The foregoing is only preferred embodiment of the present utility model; it is not restriction with the utility model; all do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., all should be included within protection domain of the present utility model.

Claims (5)

1. the pressure cooling system of a compressor, it is characterized in that: comprise cooler (A) and separator (E), wherein the inlet end of cooler (A) is used for being connected with compressor, this cooler has water intake (A1) and water outlet (A2), wherein water intake (A1) is connected with handpiece Water Chilling Units (C) by intake pipe (B), described water outlet (A2) is also connected with this handpiece Water Chilling Units by outlet pipe (D), thus by cooler the delivery temperature of pressurized gas is dropped to≤40 DEG C; The inlet end of described separator (E) is crossed tracheae (F) by one and is communicated with the exhaust end of cooler (A), the effect of this separator realizes Oil-gas Separation, and the exhaust end of separator (E) is for connecting dry decontamination device.

2. the pressure cooling system of compressor according to claim 1, it is characterized in that: described cooler (A) comprises housing (1) and suction valve (7), two ports of its middle shell (1) are closed by left end cap (2) and right end cap (3) respectively, the top of this housing is provided with a described water outlet (A2), and be provided with a described water intake (A1) in the bottom of housing (1), and water outlet (A2) and water intake (A1) all communicate with the inner chamber of housing (1); At least two cooling coils (4) are circumferentially provided with in described housing (1), the inlet end of every root cooling coil is installed with an air inlet clamping joint (5), the outlet side of every root cooling coil (4) is installed with a clamping joint of giving vent to anger (6), and air inlet clamping joint (5) is arranged in the mounting hole on described left end cap (2), clamping joint of giving vent to anger (6) is arranged in the mounting hole on described right end cap (3);

Described suction valve (7) and gas outlet valve (8) are located at housing (1) outside, wherein each air outlet of suction valve (7) is communicated with the endoporus of a corresponding described air inlet clamping joint (5) by a suction tude (9), and the inlet end of suction valve (7) is connected with described compressor; Each suction port of described gas outlet valve (8) is communicated with the endoporus of a corresponding clamping joint of giving vent to anger (6) by a steam outlet pipe (10), and the outlet side of this gas outlet valve connects with described tracheae (F) of crossing.

3. the pressure cooling system of compressor according to claim 1, it is characterized in that: the number of described cooling coil (4) is four, these four cooling coils are distributed on four summits of same rectangle, and described suction valve (7) and gas outlet valve (8) are five-way valve.

4. the pressure cooling system of compressor according to claim 2, is characterized in that: left and right, described housing (1) bottom has two pieces of support plates (11) side by side, and this support plate is L shape structure.

5. the pressure cooling system of compressor according to claim 2, is characterized in that: described left end cap (2) and right end cap (3) are fixed by screw and housing (1) respectively.