CN212842024U - Clean shelter of independent portable air conditioner - Google Patents

Abstract

The utility model provides an independent portable clean shelter of air conditioner, including the container body, a plurality of division boards, heat pipe precooling fresh air processor, the condensation heat pipe recovery machine of airing exhaust, the fresh air-supply line, the play tuber pipe of airing exhaust, the rose box of airing exhaust, a plurality of blast pipe and a plurality of tuber pipe of airing exhaust, a plurality of division boards set up in the container body to cavity structure is divided into with the container body to a plurality of division boards, heat pipe precooling fresh air processor and condensation heat pipe recovery machine of airing exhaust all fix the setting in the container body. The utility model divides the square cabin into a plurality of cavities by a group of division plates, an air supply pipe and an air exhaust pipe are arranged in each single cavity, and the air flow can be penetrated outwards by the operation room through the arrangement of different positive pressures of the operation room and the isolation room, thereby ensuring the clean air of the operation room; meanwhile, due to the arrangement of different negative pressures of the operation chamber and the isolation chamber, air flow can permeate from the outside to the operation chamber, so that the polluted air in the operation chamber can be ensured to flow directionally, and the outside atmosphere can not be polluted.

Description

Clean shelter of independent portable air conditioner

Technical Field

The utility model belongs to the technical field of air purification, specifically, relate to a clean shelter of independent portable air conditioner.

Background

The container is a current important cargo transportation carrying tool, has huge use amount, and is a large-scale cargo container with certain strength, rigidity and specification and specially used for turnover. Along with the continuous soaring of Chinese economy, import and export trades of China are more and more frequent, so that containers are widely used in the market, for example, the containers are used for transferring goods, the goods can be directly loaded in a warehouse of a shipper and unloaded in a warehouse of a consignee, and when vehicles and ships are changed in midway, the goods do not need to be taken out from the containers for changing the goods, so that the convenience is realized.

In the process of carrying the goods, the demand of different goods to the air situation is different, when carrying the goods that need maintain the preferred air situation, need carry out the work that ventilates to the container ceaselessly, when the relatively poor needs ventilation of air quality in the container, need the staff manually to open and close the window, and ventilation work is comparatively inconvenient.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the utility model aims at providing a clean shelter of independent portable air conditioner has solved how to ventilate the heat transfer in the container, improves container limit travelling comfort, provides one simultaneously and can remove and have air purification throughput's movable box structure.

The technical scheme is as follows: the utility model provides an independent movable clean shelter for air conditioners, which comprises a container body, a plurality of partition plates, a heat pipe pre-cooling fresh air processor, a condensation exhaust heat pipe recovery machine, a fresh air inlet pipe, an exhaust air outlet pipe, an exhaust filter box, a plurality of air supply pipes and a plurality of exhaust air pipes, wherein the plurality of partition plates are arranged in the container body, the container body is divided into a cavity structure by the plurality of partition plates, the heat pipe pre-cooling fresh air processor and the condensation exhaust heat pipe recovery machine are both fixedly arranged in the container body, one end of the fresh air inlet pipe is arranged on the side wall of the container body, the end part of the fresh air inlet pipe arranged on the container body is communicated with the outside, the other end of the fresh air inlet pipe is connected with the heat pipe pre-cooling fresh air processor, the heat pipe pre-cooling fresh air processor and the, the filter box of airing exhaust is fixed to be set up on the outer wall of heat pipe recovery machine is aired in the condensation, the one end and the heat pipe precooling new trend processor of a plurality of air supply tuber pipes are connected, a plurality of air supply tuber pipes and cavity one-to-ones to the tip that the heat pipe precooling new trend processor was kept away from to the air supply tuber pipe is located the cavity, a plurality of one ends and the condensation of airing exhaust the tuber pipe are aired exhaust the heat pipe and are retrieved the machine and be connected, a plurality of air exhaust tuber pipes and cavity one-to-ones to the tip that the condensation was kept away from to air exhaust the heat pipe recovery machine is located the cavity, the one end of airing exhaust the tuber pipe is aired exhaust the heat pipe with the condensation and is retrieved the machine and be.

Furthermore, in the clean shelter of the independent movable air conditioner, the condensation air exhaust heat pipe recovery machine is connected with a bypass fresh air inlet pipe, the end part of the bypass fresh air inlet pipe, which is far away from the condensation air exhaust heat pipe recovery machine, is arranged on the side wall of the container body, and the end part of the bypass fresh air inlet pipe, which is arranged on the container body, is communicated with the outside.

Further, foretell clean shelter of independent portable air conditioner, the container body is the cuboid structure to the container body is equipped with the chamber door along length direction's both ends, it sets up on the lateral wall that container body one end is equipped with the chamber door to air out the tuber pipe of airing exhaust to fresh air-supply line and bypass fresh air-supply line set up on the lateral wall that the container body other end is equipped with the chamber door, the container body all is equipped with to the door along length direction's both ends, to the door cover establish the both ends that the container body is equipped with the chamber door to can cover the door to the door, fresh air inlet that fresh air inlet pipe was located the container body, air outlet, bypass fresh air inlet pipe that air-out pipe was located the air outlet of airing exhaust on the container body, bypass.

Further, foretell clean shelter of independent portable air conditioner, heat pipe precooling new trend processor includes shell body one, filter one, heat pipe one, evaporimeter one, forced draught blower, new trend import, return air import and supply-air outlet, new trend import and return air import all fix the setting on the outer wall of shell body one, the one end and the new trend access connection of new trend air-supply line, filter one, heat pipe one, evaporimeter one and forced draught blower all set up in shell body one, the new trend that the new trend import got into is in proper order through filter one, heat pipe one and evaporimeter one to the gas of dehumidification of a cooling through evaporimeter passes through the supply-air outlet by the forced draught blower and supplies air to the cavity, the one end and the supply-air outlet of a plurality of tuber pipes are connected.

Further, foretell clean shelter of independent portable air conditioner, the condensation is aired exhaust the heat pipe and is retrieved the machine and include shell body two, air intake, supplementary new trend import, heat pipe two, draught fan, compressor, condenser and exhaust fan of airing exhaust, air intake and supplementary new trend import all fix the setting on the outer wall of shell body two, the rose box setting of airing exhaust is in air intake position department of airing exhaust, supplementary new trend import and bypass new trend air-supply line connection, heat pipe two, draught fan, compressor, condenser and exhaust fan all set up in shell body two, the wind that the air intake got into of airing exhaust passes through heat pipe two, draught fan, compressor and condenser in proper order to the wind through the condenser passes through exhaust fan and a plurality of tuber pipe of airing exhaust discharges.

Further, in the clean shelter of the independent movable air conditioner, a first copper pipe, a second copper pipe, a third copper pipe and a fourth copper pipe are arranged between the heat pipe precooling fresh air processor and the condensation exhaust heat pipe recoverer, two ends of the first copper pipe, the second copper pipe, the third copper pipe and the fourth copper pipe are respectively connected with the heat pipe precooling fresh air processor and the condensation exhaust heat pipe recoverer, the first copper pipe and the second copper pipe are pipelines of a refrigeration system, and the third copper pipe and the fourth copper pipe are pipelines of a heat pipe system.

Further, foretell clean shelter of independent portable air conditioner, the quantity of a plurality of division boards is 3, is division board one, division board two and division board three respectively, division board two is located division board one and division board three between, division board one, division board two and division board three divide the container body into four cavities, are isolation room one, isolation room two, control room one and control room two respectively, isolation room one, control room two and isolation room two set gradually along the length direction of container body, isolation room one and two ends at the container body of establishing of isolation room, control room one and two intermediate positions that are located the container body of control room two.

Furthermore, in the clean shelter of the independent movable air conditioner, the number of the air supply pipes and the number of the air exhaust pipes are 4, the air supply pipes and the air exhaust pipes are arranged in the first isolation chamber, the first operation chamber, the second operation chamber and the second isolation chamber, and the air supply pipes and the air exhaust pipes are provided with constant air volume valves.

Further, in the clean shelter of the independent movable air conditioner, cabinet doors are respectively arranged on the first partition plate and the third partition plate, the cabinet door on the first partition plate is used for communicating the first isolation chamber with the first operation chamber, the cabinet door on the third partition plate is used for communicating the second operation chamber with the second isolation chamber, and the second partition plate is used for separating the first operation chamber from the second operation chamber.

Furthermore, in the independent movable air-conditioning clean shelter, a window can be arranged on the second partition plate.

Above-mentioned technical scheme can find out, the utility model discloses following beneficial effect has: the independent movable clean shelter of the air conditioner divides the shelter into a plurality of cavities through a group of division plates, an air supply pipe and an air exhaust pipe are arranged in each single cavity, a heat pipe precooling fresh air processor firstly filters sucked fresh air, then precools the fresh air by a heat pipe, and then cools and dehumidifies the fresh air by an evaporator of a refrigerating system and sends the fresh air to a room; the heat pipe precooling fresh air processor is provided with a return air inlet and a fresh air inlet, and processes fresh air or return air according to actual conditions or requirements; the condensing exhaust heat pipe recycling machine is provided with an exhaust inlet and a supplementary fresh air inlet, wherein the supplementary fresh air inlet is the additional air quantity required by the refrigerating system; through the arrangement of different positive pressures of the operation chamber and the isolation chamber, the air flow can permeate from the operation chamber to the outside, so that the air cleanness of the operation chamber is ensured; meanwhile, due to the arrangement of different negative pressures of the operation chamber and the isolation chamber, air flow can permeate from the outside to the operation chamber, so that the polluted air in the operation chamber can be ensured to flow directionally, and the outside atmosphere can not be polluted.

Drawings

FIG. 1 is a schematic structural view of the independent movable air conditioning clean shelter of the present invention;

FIG. 2 is a front view of the independent movable air conditioning clean shelter of the present invention;

FIG. 3 is a bottom view of the independent movable air conditioning clean shelter of the present invention;

FIG. 4 is a right side view of the independent movable air conditioning clean shelter of the present invention;

FIG. 5 is a left side view of the independent movable air conditioning clean shelter of the present invention;

FIG. 6 is a rear view of the independent movable air conditioning clean shelter of the present invention;

FIG. 7 is a top view of the independent movable air conditioning clean shelter of the present invention;

fig. 8 is a front view of the heat pipe precooling fresh air processor of the present invention;

fig. 9 is a top view of the heat pipe precooling fresh air processor of the present invention;

fig. 10 is a front view of the condensing exhaust heat pipe recycling machine of the present invention;

fig. 11 is a top view of the condensation exhaust heat pipe recycling machine of the present invention.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "clockwise", "counterclockwise" 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 to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, unless otherwise specified, "a plurality" means two or more unless explicitly defined otherwise.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

Example one

The independent movable air-conditioning clean shelter shown in fig. 1-7 comprises a container body 1, a plurality of partition boards 2, a heat pipe precooling fresh air processor 3, a condensation exhaust heat pipe recovery machine 4, a fresh air inlet pipe 5, an exhaust air outlet pipe 6, an exhaust filter box 7, a plurality of air supply pipes 8 and a plurality of exhaust air pipes 9, wherein the plurality of partition boards 2 are arranged in the container body 1, the container body 1 is divided into a cavity structure by the plurality of partition boards 2, the heat pipe precooling fresh air processor 3 and the condensation exhaust heat pipe recovery machine 4 are both fixedly arranged in the container body 1, one end of the fresh air inlet pipe 5 is arranged on the side wall of the container body 1, the end part of the fresh air inlet pipe 5 arranged on the container body 1 is communicated with the outside, the other end of the fresh air inlet pipe 5 is connected with the heat pipe precooling fresh air processor 3, the heat pipe precooling fresh air processor 3 is connected with the condensation exhaust heat, the fixed setting of rose box 7 of airing exhaust is on the outer wall of heat pipe recovery machine 4 is aired in the condensation, a plurality of air supply pipe 8's one end and heat pipe precooling fresh air processor 3 are connected, a plurality of air supply pipe 8 and cavity one-to-ones to air supply pipe 8 keeps away from the tip that heat pipe precooling fresh air processor 3 is located the cavity, a plurality of air exhaust pipe 9's one end and condensation are aired exhaust heat pipe recovery machine 4 and are connected, a plurality of air exhaust pipe 9 and cavity one-to-ones to the tip that air exhaust pipe 9 kept away from condensation and air exhaust heat pipe recovery machine 4 is located the cavity, the one end of airing exhaust pipe 6 is aired with condensation and is aired heat pipe recovery machine 4 and be connected, and the other end setting of airing exhaust pipe 6 is on the lateral wall of container body 1, it communicates with.

Wherein, be connected with bypass new trend air-supply line 10 on the heat pipe recovery machine 4 is aired exhaust in the condensation, the tip that the heat pipe recovery machine 4 is aired exhaust in the condensation is kept away from to bypass new trend air-supply line 10 sets up on the lateral wall of container body 1 to bypass new trend air-supply line 10 sets up tip and external intercommunication on container body 1. Container 1 is the cuboid structure to container 1 is equipped with chamber door 111 along length direction's both ends, it sets up on the lateral wall that 1 one end of container is equipped with chamber door 111 to air-out pipe 6 of airing exhaust to fresh air intake pipe 5 and bypass fresh air intake pipe 10 set up on the lateral wall that the 1 other end of container is equipped with chamber door 111, container 1 all is equipped with to the door 11 along length direction's both ends, to the door 11 cover establish at the both ends that container 1 is equipped with chamber door 111 to can cover to the door 11 and establish fresh air intake on container 1 of chamber door 111, fresh air intake pipe 5 are located container 1, air-out pipe 6 is located the air outlet of airing exhaust on container 1, bypass fresh air intake pipe 10 is located the bypass fresh air intake on container 1.

As shown in fig. 8, 9, the heat pipe precooling fresh air processor 3 includes a first 31 outer shell, a first 32 filter, a first 33 heat pipe, a first 34 evaporator, a blower 35, a fresh air inlet 36, a return air inlet 37 and a blower 38, the fresh air inlet 36 and the return air inlet 37 are all fixedly arranged on the outer wall of the first 31 outer shell, one end of the fresh air inlet pipe 5 is connected with the fresh air inlet 36, the first 32 filter, the first 33 heat pipe, the first 34 evaporator and the blower 35 are all arranged in the first 31 outer shell, the fresh air entering the fresh air inlet 36 sequentially passes through the first 32 filter, the first 33 heat pipe and the first 34 evaporator, and the dehumidified air is cooled by the first 34 evaporator and is supplied to the chamber through the blower 38, one end of the plurality of air supply ducts 8 is connected with the blower 38.

The condensation air exhaust heat pipe recycling machine 4 shown in fig. 10 and 11 comprises two outer shells 41, an air exhaust air inlet 42, a supplementary fresh air inlet 43, two heat pipes 44, an induced draft fan 45, a compressor 46, a condenser 47 and an exhaust fan 48, the air exhaust air inlet 42 and the supplementary fresh air inlet 43 are fixedly arranged on the outer walls of the two outer shells 41, the air exhaust filter box 7 is arranged at the position of the air exhaust air inlet 42, the supplementary fresh air inlet 43 is connected with the bypass fresh air inlet pipe 10, the two heat pipes 44, the induced draft fan 45, the compressor 46, the condenser 47 and the exhaust fan 48 are arranged in the two outer shells 41, air entering the air exhaust air inlet 42 sequentially passes through the two heat pipes 44, the induced draft fan 45, the compressor 46 and the condenser 47, and air passing through the exhaust fan 48 and a plurality of air exhaust 9 is exhausted.

Copper pipe one 12, copper pipe two 13, copper pipe three 14 and copper pipe four 15 are arranged between heat pipe precooling fresh air processor 3 and condensation exhaust heat pipe reclaimer 4 in the structure, two ends of copper pipe one 12, copper pipe two 13, copper pipe three 14 and copper pipe four 15 are respectively connected with heat pipe precooling fresh air processor 3 and condensation exhaust heat pipe reclaimer 4, copper pipe one 12 and copper pipe two 13 are refrigeration system pipelines, copper pipe three 14 and copper pipe four 15 are pipelines of a heat pipe system.

A heat pipe precooling fresh air processor 3 and a condensation exhaust heat pipe recycling machine 4 are configured, and the condensation exhaust heat pipe recycling machine 4 has the functions:

A. discharging indoor polluted air to the outside of the room;

B. the air conditioning energy in the exhaust air is recovered by the heat pipe and the refrigerating system;

C. cooling the condenser of the refrigeration system.

The heat pipe precooling fresh air processor 3 has the functions:

A. filtering the outdoor fresh air and sending the filtered outdoor fresh air into the room;

B. precooling the fresh air by using a heat pipe;

C. the evaporator further cools the fresh air. The heat pipe precooling fresh air processor is connected with the condensation exhaust heat pipe recycling machine through 4 copper pipes: copper pipe one 12, copper pipe two 13, copper pipe three 14 and copper pipe four 15. The exhaust air in the cabin is filtered and sucked by the draught fan, enters the condensation exhaust air heat pipe recycling machine, the air conditioning energy in the exhaust air is firstly recycled by the heat pipe, then the condenser of the refrigeration system is cooled, and finally the exhaust fan discharges the hot waste gas out of the cabin.

Example two

On the basis of an embodiment structure, the specific quantity of a plurality of division boards 2 is 3, is division board one 21, division board two 22 and division board three 23 respectively, division board two 22 is located between division board one 21 and the division board three 23, division board one 21, division board two 22 and division board three 23 divide container 1 into four cavities, are isolation room one 16, isolation room two 17, operation room one 18 and operation room two 19 respectively, isolation room one 16, operation room one 18, operation room two 19 and isolation room two 17 set gradually along the length direction of container 1, isolation room one 16 and isolation room two 17 divide at the both ends of container 1, operation room one 18 and operation room two 19 are located the intermediate position of container 1. The number of the air supply pipes 8 and the number of the air exhaust pipes 9 are 4, the air supply pipes 8 and the air exhaust pipes 9 are arranged in the first isolation chamber 16, the first operation chamber 18, the second operation chamber 19 and the second isolation chamber 17, and the air supply pipes 8 and the air exhaust pipes 9 are provided with air quantity fixing valves 20. The first partition plate 21 and the third partition plate 23 are respectively provided with a cabinet door 24, the cabinet door 24 on the first partition plate 21 is used for communicating the first isolation chamber 16 with the first operation chamber 18, the cabinet door 24 on the third partition plate 23 is used for communicating the second operation chamber 19 with the second isolation chamber 17, and the second partition plate 22 is used for separating the first operation chamber 18 from the second operation chamber 19. In addition, a window can be arranged on the second partition plate 22.

The container body 1 is divided into 4 spaces through the first division plate 21, the second division plate 22 and the third division plate 23: 2 isolation chambers and 2 operation chambers. The isolating chamber is provided with a door, and the operating chamber is provided with a door. The two operation rooms are separated, and the walls of the separation can be opened as required to communicate articles. And can be completely sealed.

A high-efficiency filter is arranged at the inlet of the exhaust air pipe 9 or in the exhaust filter box to purify the discharged air; a filter (which can be primary, intermediate and high-efficiency according to requirements) is arranged in the heat pipe precooling fresh air processor to purify air in the people conveying square cabin.

A constant air volume valve 20 is arranged on the air supply duct 8, and a constant air volume valve 20 is also arranged on the air exhaust duct 9, so that pressure gradients of an operation chamber, an isolation chamber and the external environment can be established, such as +50Pa of the operation chamber and +30Pa of the isolation chamber, and the air flow can be ensured to permeate from the operation chamber to the outside, thereby ensuring the air cleanness of the operation chamber; if the operation chamber is-50 Pa and the isolation chamber is-30 Pa, the air flow can be ensured to permeate from the outside to the operation chamber, thereby ensuring that the polluted air in the operation chamber flows directionally and the outside atmosphere can not be polluted.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications can be made without departing from the principles of the present invention, and these modifications should also be regarded as the protection scope of the present invention.

Claims (10)

1. An independent movable air conditioner clean square cabin is characterized in that: the container comprises a container body (1), a plurality of partition plates (2), a heat pipe precooling fresh air processor (3), a condensation exhaust heat pipe recovery machine (4), a fresh air inlet pipe (5), an exhaust air outlet pipe (6), an exhaust filter box (7), a plurality of air supply pipes (8) and a plurality of exhaust air pipes (9), wherein the plurality of partition plates (2) are arranged in the container body (1), the container body (1) is divided into a cavity structure by the plurality of partition plates (2), the heat pipe precooling fresh air processor (3) and the condensation exhaust heat pipe recovery machine (4) are fixedly arranged in the container body (1), one end of the fresh air inlet pipe (5) is arranged on the side wall of the container body (1), the end part of the fresh air inlet pipe (5) arranged on the container body (1) is communicated with the outside, and the other end of the fresh air inlet pipe (5) is connected with the heat pipe precooling fresh air processor (3), the heat pipe precooling fresh air processor (3) is connected with the condensation exhaust heat pipe recovery machine (4) through a plurality of copper pipes, the exhaust filter box (7) is fixedly arranged on the outer wall of the condensation exhaust heat pipe recovery machine (4), one ends of a plurality of air supply pipes (8) are connected with the heat pipe precooling fresh air processor (3), the air supply pipes (8) are in one-to-one correspondence with the cavity, the end part of the air supply pipe (8) far away from the heat pipe precooling fresh air processor (3) is positioned in the cavity, one ends of the air exhaust pipes (9) are connected with the condensation exhaust heat pipe recovery machine (4), the air exhaust pipes (9) are in one-to-one correspondence with the cavity, the end part of the air exhaust pipe (9) far away from the condensation exhaust heat pipe recovery machine (4) is positioned in the cavity, one end of the air exhaust pipe (6) is connected with the condensation exhaust heat pipe recovery, and the other end of the air exhaust air outlet pipe (6) is arranged on the side wall of the container body (1), and the end part of the air exhaust air outlet pipe (6) arranged on the container body (1) is communicated with the outside.

2. The clean shelter of independent mobile air-conditioner according to claim 1, wherein: the condensation exhaust heat pipe recovery machine (4) is connected with a bypass fresh air inlet pipe (10), the end part of the bypass fresh air inlet pipe (10), which is far away from the condensation exhaust heat pipe recovery machine (4), is arranged on the side wall of the container body (1), and the end part of the bypass fresh air inlet pipe (10), which is arranged on the container body (1), is communicated with the outside.

3. The clean shelter of independent mobile air-conditioning according to claim 2, wherein: the container body (1) is of a rectangular structure, two ends of the container body (1) along the length direction are provided with a door (111), the exhaust air outlet pipe (6) is arranged on the side wall of one end of the container body (1) provided with a container door (111), and the fresh air inlet pipe (5) and the bypass fresh air inlet pipe (10) are arranged on the side wall of the other end of the container body (1) provided with the door (111), the two ends of the container body (1) along the length direction are both provided with split doors (11), the split doors (11) are covered at two ends of the container body (1) provided with the container door (111), and the door (11) can be opened to cover the door (111), the fresh air inlet on the container body (1) is positioned by the fresh air inlet pipe (5), the air outlet on the container body (1) is positioned by the air outlet pipe (6), and the bypass fresh air inlet on the container body (1) is positioned by the bypass fresh air inlet pipe (10).

4. The clean shelter of independent mobile air-conditioner according to claim 1, wherein: the heat pipe precooling fresh air processor (3) comprises a first outer shell (31), a first filter (32), a first heat pipe (33), a first evaporator (34), a blower (35), a fresh air inlet (36), a return air inlet (37) and a blower outlet (38), wherein the fresh air inlet (36) and the return air inlet (37) are fixedly arranged on the outer wall of the first outer shell (31), one end of a fresh air inlet pipe (5) is connected with the fresh air inlet (36), the first filter (32), the first heat pipe (33), the first evaporator (34) and the blower (35) are arranged in the first outer shell (31), fresh air entering from the fresh air inlet (36) sequentially passes through the first filter (32), the first heat pipe (33) and the first evaporator (34), and the cooled and dehumidified gas passes through the blower outlet (35) to supply air into a cavity, one end of each air supply duct (8) is connected with the air supply outlet (38).

5. The clean shelter of independent mobile air-conditioning according to claim 2, wherein: the condensation air exhaust heat pipe recycling machine (4) comprises an outer shell body two (41), an air exhaust air inlet (42), a supplementary fresh air inlet (43), a heat pipe two (44), an induced draft fan (45), a compressor (46), a condenser (47) and an exhaust fan (48), wherein the air exhaust air inlet (42) and the supplementary fresh air inlet (43) are fixedly arranged on the outer wall of the outer shell body two (41), the air exhaust filter box (7) is arranged at the position of the air exhaust air inlet (42), the supplementary fresh air inlet (43) is connected with a bypass fresh air inlet pipe (10), the heat pipe two (44), the induced draft fan (45), the compressor (46), the condenser (47) and the exhaust fan (48) are arranged in the outer shell body two (41), and air entering the air exhaust air inlet (42) sequentially passes through the heat pipe two (44), the induced draft fan (45), the compressor (46) and the condenser (47), and the air passing through the condenser (47) is exhausted through an exhaust fan (48) and a plurality of exhaust air pipes (9).

6. The clean shelter of independent mobile air-conditioner according to claim 1, wherein: copper pipe (12), copper pipe two (13), copper pipe three (14) and copper pipe four (15) are arranged between heat pipe precooling fresh air processor (3) and condensation exhaust heat pipe reclaimer (4), the two ends of copper pipe one (12), copper pipe two (13), copper pipe three (14) and copper pipe four (15) are respectively connected with heat pipe precooling fresh air processor (3) and condensation exhaust heat pipe reclaimer (4), copper pipe one (12) and copper pipe two (13) are refrigerating system pipelines, copper pipe three (14) and copper pipe four (15) are pipelines of heat pipe system.

7. The clean shelter of independent mobile air-conditioner according to claim 1, wherein: the number of the plurality of partition plates (2) is 3, the partition plates are respectively a first partition plate (21), a second partition plate (22) and a third partition plate (23), the second partition plate (22) is positioned between the first partition plate (21) and the third partition plate (23), the container body (1) is divided into four chambers by the first partition plate (21), the second partition plate (22) and the third partition plate (23), wherein the four chambers are respectively a first isolation chamber (16), a second isolation chamber (17), a first operation chamber (18) and a second operation chamber (19), the first isolation chamber (16), the first operation chamber (18), the second operation chamber (19) and the second isolation chamber (17) are sequentially arranged along the length direction of the container body (1), the first isolation chamber (16) and the second isolation chamber (17) are respectively arranged at two ends of the container body (1), the first operating room (18) and the second operating room (19) are positioned in the middle of the container body (1).

8. The clean shelter of independent mobile air-conditioning according to claim 7, wherein: the quantity of the air supply pipes (8) and the air exhaust pipes (9) is 4, the air supply pipes (8) and the air exhaust pipes (9) are arranged in the isolation chamber I (16), the operation chamber I (18), the operation chamber II (19) and the isolation chamber II (17), and the air supply pipes (8) and the air exhaust pipes (9) are provided with air quantity fixing valves (20).

9. The clean shelter of independent mobile air-conditioning according to claim 7, wherein: and the first partition plate (21) and the third partition plate (23) are respectively provided with a cabinet door (24), the cabinet door (24) on the first partition plate (21) is used for communicating the first isolation chamber (16) with the first operation chamber (18), the cabinet door (24) on the third partition plate (23) is used for communicating the second operation chamber (19) with the second isolation chamber (17), and the second partition plate (22) is used for separating the first operation chamber (18) from the second operation chamber (19).

10. The clean shelter of independent mobile air-conditioning according to claim 9, wherein: and a window can be arranged on the second partition plate (22).

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