CN209622938U - Mobile air conditioner - Google Patents

Abstract

The utility model provides a kind of mobile air conditioner, it include: the first heat exchange unit, first heat exchange unit includes first shell, the first fan, First Heat Exchanger and the first heat exchange flow path connecting with First Heat Exchanger, and the first fan and First Heat Exchanger are placed in first shell；Second heat exchange unit, the second heat exchange unit include second shell, the second fan, the second heat exchanger and the second heat exchange flow path connecting with the second heat exchanger, and the second fan and the second heat exchanger are placed in second shell；Second shell is removably connect with first shell, and can be mobile relative to first shell；Wherein, the second heat exchange flow arrangement is heat exchange can be carried out in the form of partition with the first heat exchange flow path.The mobile air conditioner that this programme provides, it moves between first shell and second shell to realize and cancel air-exhausting duct, in this way, the mobility of first shell is good, movement is more flexible, refrigeration or heating position can be neatly adjusted by mobile first shell, product is using more convenient, assembly is also more simplified.

Description

Mobile air conditioner

Technical field

The utility model relates to field of air conditioning, in particular to a kind of mobile air conditioner.

Background technique

Existing movable air conditioner, while refrigeration, hot wind can be also discharged in rear side, generally by air-exhausting duct from interior Outdoor is led to, air draft pipe volume is coarse, this will dig a biggish hole on wall, big inconvenience is brought to installation, And due to the presence of the coarse air-exhausting duct of volume, mobile air conditioner mobility is very restricted, and usage experience reduces.

Utility model content

At least one in order to solve the above-mentioned technical problem, the purpose of this utility model is to provide a kind of mobile air conditioners.

To achieve the above object, the embodiments of the present invention provide a kind of mobile air conditioner, comprising: the first heat exchange is single Member, first heat exchange unit include first shell, the first fan, First Heat Exchanger and connect with the First Heat Exchanger One heat exchange flow path, first fan and the First Heat Exchanger are placed in the first shell；Second heat exchange unit, described Two heat exchange units include second shell, the second fan, the second heat exchanger and the second heat exchange stream connecting with second heat exchanger Road, second fan and second heat exchanger are placed in the second shell；The second shell and the first shell Dismountable connection, and can be mobile relative to the first shell；Wherein, it is described second heat exchange flow arrangement be can with it is described First heat exchange flow path carries out heat exchange in the form of partition.

It is understood that the heat exchange of partition form is it is to be understood that heat transferring medium and the in the first heat exchange flow path Between heat transferring medium in two heat exchange flow paths namely between cold and hot fluid, separated by least one layer of solid wall surface, so that first Heat exchange is formed between the heat transferring medium in heat transferring medium and the second heat exchange flow path in heat exchange flow path, while not being mixed.

The utility model mobile air conditioner provided by the above embodiment opposite can move between first shell and second shell It is dynamic, in this way, first shell can be neatly moved to the position for needing refrigeration (or heating) by user, make in air and first shell First Heat Exchanger heat exchange to meet refrigeration (or heating) demand, and freezed at First Heat Exchanger (or heating) while, Second shell can be made to be placed in and be expelled directly out hot wind (or cold wind) apart from first shell remote position to cancel air-exhausting duct, and guaranteed The work efficiency of product, for existing Integral moveable air conditioner, the mobility of first shell will not benefit from the structure In the restriction of the thick connecting line of air draft, in this way, the mobility of first shell is more preferable, movement is more flexible, so that mobile first shell Body is to adjust the more convenient operation of refrigeration (or heating) position, simultaneously as what is moved in this structure is the part of mobile air conditioner (first shell) rather than the entirety of mobile air conditioner, moving operation is more convenient, laborsaving, and passes through design first shell and second shell Between can relatively move, be also beneficial to make heating, refrigeration position to avoid the operation noise effect inside second shell in this way, promoted The muting function of product, so that product has better usage experience.

In addition, the mobile air conditioner in above-described embodiment provided by the utility model can also have following supplementary technology special Sign:

In above-mentioned technical proposal, the mobile air conditioner further include: intermediate heat exchange unit, the intermediate heat exchange unit includes phase Mutual independent first heat exchanging segment and the second heat exchanging segment, first heat exchanging segment are formed as a part of the first heat exchange flow path, Second heat exchanging segment is formed as a part of the second heat exchange flow path, and first heat exchanging segment and second heat exchanging segment Heat exchange is carried out in the form of septate heat transfer.

In this way, the heat exchange efficiency between the first heat exchange flow path and the second heat exchange flow path is more secure, and the assembly of product It is simpler, conducive to the yields for guaranteeing product.

In above-mentioned technical proposal, counterflow heat exchange is formed between first heat exchanging segment and second heat exchanging segment.

In this way, the heat exchange efficiency between the first heat exchanging segment and the second heat exchanging segment is higher, product efficiency can be promoted.

In any of the above-described technical solution, the intermediate heat exchange unit includes double pipe heat exchanger；Described sleeve pipe formula heat exchanger Including tube side and shell side, second heat exchanging segment is formed in the tube side, and first heat exchanging segment is formed in the shell side.

It includes double pipe heat exchanger that heat-exchanger rig, which is arranged, in this way, the heat-transfer surface between the first heat exchanging segment and the second heat exchanging segment Product is bigger, exchanges heat more efficient, can promote product efficiency, and in the case of identical exchange capability of heat, the volume of double pipe heat exchanger is more It is small, the more conducively miniaturization of product.

So that the second heat exchanging segment is formed in tube side, the first heat exchanging segment is made to be formed in shell side, in this way, from the pipe of double pipe heat exchanger Journey arrives the air layer on the outside of double pipe heat exchanger, the variation tendency that formation temperature gradually rises, so that bushing type is changed to shell side again Hot device is minimized to the radiation loss of air layer, so that product efficiency is promoted, meanwhile, design can also be to a certain extent in this way Inhibit the condensate phenomenon of double pipe heat exchanger outer surface, reduce condensate and generate, promote interiors of products wholesomeness, and reduces empty Gas aridity.

In above-mentioned technical proposal, described sleeve pipe formula heat exchanger construction is at track type.

In the present solution, runway-shaped double pipe heat exchanger can be nested in the outside of compressor, realization is nested with compressor Formula distribution, and there are two straight section and two bending sections, such knots it is understood that runway-shaped double pipe heat exchanger has Structure may make the alternating variation that streamlined flow and curvilinear flow are formed in double pipe heat exchanger, be conducive to break tube side and shell in this way Laminar condition in journey, so that promoting the first heat exchanging segment and the inside the first heat exchanging segment and the second heat exchanging segment internal temperature is uniform Heat exchange efficiency between two heat exchanging segments.

In any of the above-described technical solution, the intermediate heat exchange unit is located at outside the first shell, the first heat exchange stream Road further includes connecting tube, and the connecting tube connects first heat exchanging segment and the First Heat Exchanger.

Intermediate heat exchange unit is located at outside first shell, in this way, first shell is smaller, the portion of first shell and its inside The total weight of part (such as First Heat Exchanger, the first fan) is lighter, and mobility is more preferable, movement is more flexible.

In any of the above-described technical solution, the intermediate heat exchange unit is placed in the second shell；Second heat exchange is single Member further includes compressor, and the compressor displacement is placed in the second shell and is connected with the second heat exchange flow path, the centre Heat exchange unit is centered around around the compressor.

Such structure is sufficiently used the space on the inside of intermediate heat exchange unit border to accommodate compressor, realizes product Compact arrangement between component is conducive to product and minimizes.

In above-mentioned technical proposal, second heat exchange unit further include: block reinforcement is located at the compressor and the centre is changed Between hot cell.

Utilize block reinforcement, on the one hand, compartmentation can be played between compressor and intermediate heat exchange unit, can inhibited in this way On the other hand convective heat transfer between compressor and intermediate heat exchange unit can play the role of stopping limit, prevent intermediate heat exchange Unit inwardly contacts compressor, thus, the loss of refrigeration capacity of intermediate heat exchange unit is reduced, the efficiency of product is promoted.

In any of the above-described technical solution, the connecting tube includes the first pipe and the second pipe, first pipe and described first Exchange heat flow path connection, and second pipe is connect with first heat exchanging segment, removable between first pipe and second pipe Ground connection.

It is removably connected between the first pipe of setting and the second pipe, in this way more convenient for the assembling of product, e.g., user can be with After first shell and second shell to be placed in suitable position, then the first pipe is connected with the second pipe and realizes assembling product, in this way, When the mobile first shell of user or second shell, walk without hauling pipe, mobility is more preferable, and two root canals be connected it is easy to operate, Simply, there is assembling convenience.

In above-mentioned technical proposal, it is described first pipe be equipped with the first connector, it is described second pipe be equipped with the second connector, described first Connector is to be detachably connected with pluggable mode with second connection adapters.

It can further be promoted between the first pipe and the second pipe in this way and dismount convenience, promote the usage experience of product.

In any of the above-described technical solution, mobile air conditioner further includes pipe winding device, and the connecting tube includes hose, the hose It is wound in the pipe winding device；The pipe winding device includes: coil pipe portion, and the soft tube winding is in the coil pipe portion, the coil pipe Portion's rotation setting, and be configured to rotate along preset direction to wind the hose, along the backwards rotation with the preset direction with Discharge the hose.

The storage of the winding to hose and release may be implemented using pipe winding device, be more convenient for connecting tube management and put in order, The ease of use of product is promoted, and the rotation of this structure mid-game pipe portion is to wind or the structure of release hose can be realized to hose more Neatly, it regularly puts in order, it is not easy to the random winding of hose, hose the problems such as losing occur, to the better protecting effect of hose.

In above-mentioned technical proposal, the pipe winding device further include: driving portion, the driving portion connect with the coil pipe portion or It is connected by transmission device with the coil pipe portion, the driving portion is configured to that the coil pipe portion is driven to rotate.

Optionally, the driving portion includes handle or power driver.

In the present solution, setting driving portion includes handle (specific such as driving lever, handwheel, knob), user can operation handle It is easy to use with the rotation of drive disk pipe portion.

It includes electric drive (such as motor) that driving portion, which is arranged, in this way, can control electric drive by operation panel with signal Part work is realized the storage of one key of connecting tube or release, is operated more simple laborsaving with the rotation of corresponding control panel pipe portion.

In any of the above-described technical solution, the mobile air conditioner further include: running gear, the first shell and described second At least one of shell is equipped with the running gear, and the running gear includes universal wheel.

In this way, the case where being equipped with running gear for first shell, first shell can be realized by running gear and be moved, First shell is extracted without user, the moving operation of first shell is more convenient, laborsaving, and makes first shell by universal wheel row It walks, it is more flexible to the direction controlling of first shell.

The case where being equipped with running gear for second shell, second shell can realize movement by running gear, without User extracts second shell, and the moving operation of second shell is more convenient, laborsaving, and second shell is made to walk by universal wheel, It is more flexible to the direction controlling of second shell.

In any of the above-described technical solution, the first shell includes: pedestal；Movable part is connect with the base rotation, Accommodation space is formed in the movable part, the First Heat Exchanger and first fan are set in the accommodation space, And with the movable part relative to the base rotation.

In this way, can be by rotation movable part neatly to adjust wind direction, the using flexible of product is more preferable.

In above-mentioned technical proposal, placement platform is formed on the pedestal, the placement platform is adapted for placing described Two shells；The pedestal is equipped with boss and connection structure, and the boss is located at the side for placing platform, the connection structure It is located on the boss, and the position of the connection structure is higher than the placement platform, the movable part and the connection are tied Structure is connected.

In the present solution, setting placement platform is for placing second shell on pedestal, in this way, user needs to receive product When receiving, second shell can be placed on the placement platform of pedestal, be realized removable between first shell and second shell and sharp In the overall space volume for reducing product.

Platform side setting boss and connection structure are being placed, the position of connection structure, which is higher than, places platform, and makes activity Component is connected with connection structure.It can be achieved to raise the position of connection structure using boss, to accordingly raise the position of movable part It sets, can accordingly increase outlet air height in this way, further to utilize cold air sinking tendency to promote refrigeration uniformity.

In any of the above-described technical solution, the pedestal includes pedestal and lifting device, and the lifting device is set to the seat On body, the movable part is connected to the lifting device, and the lifting device is configured to that the movable part is driven to go up and down.

In the present solution, may be implemented neatly to control outlet air height, mentioning using lifting device control movable part lifting Rise product using flexible and convenience.

In any of the above-described technical solution, the pedestal or the movable part are equipped with condensation water collection component, the condensation Water collecting part is located at the lower section of the First Heat Exchanger, and collects the condensed water that the First Heat Exchanger generates.

In the present solution, setting condensation water collection component collect First Heat Exchanger generate condensed water, can be to avoid condensation Water pollution use environment promotes the usage experience of product.

In any of the above-described technical solution, the mobile air conditioner further include: it is single to be connected to the intermediate heat exchange for temperature measurement component Member, and the temperature measurement component is configured to detect the temperature information of first heat exchanging segment, and issues according to testing result corresponding Detection signal is responded.

In the present solution, setting temperature measurement component detects the temperature information of the first heat exchanging segment, specifically such as detection bushing type is changed The tube temperature of the shell side of hot device, in this way, can judge the heat transferring medium in the first heat exchange flow path by the testing result of temperature measurement component Physical aspect, for example, for first heat exchange flow path in heat transferring medium be water the case where, pass through the testing result of temperature measurement component Judge whether water freezes or soon freeze, to carry out feedback regulation to compressor based on the detection behavior, prevents the first heat exchange stream There are ice formation issues in heat transferring medium in road.

In any of the above-described technical solution, the mobile air conditioner further include: fluid driver, with the first heat exchange flow path phase Even, and to the heat transferring medium in the first heat exchange flow path it drives.

In the present solution, the heat transferring medium that setting fluid driver driving first exchanges heat in flow path, can promote first and change The flowing high efficiency and reliability of heat transferring medium in hot flowpath and First Heat Exchanger avoid heat transferring medium from blocking problem, it is ensured that Heat transfer efficient at First Heat Exchanger, and the heat transferring medium in the first heat exchange flow path is avoided to freeze, promote product operational reliability.

In any of the above-described technical solution, the heat transferring medium in the first heat exchange flow path includes water.

In the present solution, setting heat transferring medium includes water, the temperature constancy of water supplying cold directly is good, without sometimes hot and sometimes cold existing As, and outlet air is soft so that the comfort of user is more preferable, meanwhile, water it is highly-safe, in this way, First Heat Exchanger and first changing Leakage installation level requirements at hot flowpath reduce, more conducively guarantee Product Safety, and heat transferring medium is also had into using water The advantages that this low, acquisition facilitates.

More specifically, by make the working media (such as refrigerant) in the second heat exchange flow path in the form of septate heat transfer to water into After row heating or refrigeration, using water ballast heat and it is dispersed into heat in air to heat or make to air by First Heat Exchanger It is cold, in this way, air and second heat exchange flow path in working media between using water carry out heat-carrying, heat exchange, due to water temperature perseverance It is qualitative good, hot wind at First Heat Exchanger or cold wind can be made softer, the problem for avoiding heating, refrigeration excessively stiff, together When, air moisturizing, the problem for avoiding hot and cold air excessively dry can be conducive to.

The additional aspect and advantage of the utility model will become obviously in following description section, or practical new by this The practice of type is recognized.

Detailed description of the invention

The above-mentioned and/or additional aspect and advantage of the utility model from the description of the embodiment in conjunction with the following figures will Become obvious and be readily appreciated that, in which:

Fig. 1 is the structural schematic diagram under mobile air conditioner first state described in the utility model one embodiment；

Fig. 2 is the structural schematic diagram under the second state of mobile air conditioner described in the utility model one embodiment；

Fig. 3 is the right side structural representation of mobile air conditioner shown in Fig. 2；

Fig. 4 is the schematic cross-sectional view of mobile air conditioner shown in Fig. 2；

Fig. 5 is the structural schematic diagram of mobile air conditioner described in the utility model one embodiment；

Fig. 6 is the structural schematic diagram of mobile air conditioner described in the utility model one embodiment.

Wherein, the corresponding relationship between appended drawing reference and component names of the Fig. 1 into Fig. 6 are as follows:

100 first heat exchange units, 110 First Heat Exchangers, 120 first fans, 130 first shells, 130a pedestal, 131 peaces It is laid flat platform, 132 interconnecting pieces, 1321 boss, 1322 connection structures, 133 fixing axles, 130b movable part, 134 accommodation spaces, 135 Air inlet, 136 air outlets, 137 condensation water collection components, 200 second heat exchange units, 210 coolant systems, 221 compressors, 222 Second heat exchanger, 2,221 first sub- heat exchangers, 2,222 second sub- heat exchangers, 223 second fans, 224 throttling sets, among 230 Heat exchange unit, 231 tube sides, 232 shell sides, 240 second shells, 240a bottom case, 241 block reinforcements, 242 limit ribs, 240b outer cover, 243 Air-inlet grille, 244 air outlet grates, 245 handles, 300 connecting tubes, 400 running gears, 500 coil pipe portions, 600 fluid drivers.

Specific embodiment

In order to be more clearly understood that the above objects, features, and advantages of the utility model, with reference to the accompanying drawing and have The utility model is further described in detail in body embodiment.It should be noted that in the absence of conflict, this Shen The feature in embodiment and embodiment please can be combined with each other.

Many details are explained in the following description in order to fully understand the utility model, still, this is practical Novel to be implemented using other than the one described here other modes, therefore, the protection scope of the utility model is simultaneously It is not limited by the specific embodiments disclosed below.

The mobile air conditioner according to the utility model some embodiments is described referring to Fig. 1 to Fig. 6.

As shown in Figure 1 and Figure 4, the mobile air conditioner that the embodiments of the present invention provide, comprising: the first heat exchange unit 100, Second heat exchange unit 200 and connecting tube 300.

Specifically, the first heat exchange unit 100 includes first shell 130, the first fan 120, First Heat Exchanger 110 and with the First heat exchange flow path of one heat exchanger 110 connection, the first fan 120 and First Heat Exchanger 110 are placed in first shell 130；The Two heat exchange units 200 include second shell 240, the second fan 223, the second heat exchanger 222 and connect with the second heat exchanger 222 Second heat exchange flow path, the second fan 223 and the second heat exchanger 222 are placed in second shell 240；Second shell 240 and first shell Body 130 removably connects, and can be mobile relative to first shell 130；Wherein, second heat exchange flow arrangement be can be with first Heat exchange flow path carries out heat exchange in the form of partition.

More specifically, the heat transferring medium in the second heat exchange unit 200 flows through the second heat exchange flow path, the first heat exchange unit Heat transferring medium in 100 flows through the first heat exchange flow path, realizes heat transferring medium and the first heat exchange unit in the second heat exchange unit 200 Partition form exchanges heat between heat transferring medium in 100, in this way, the cooling capacity generated in the second heat exchange unit 200 can be eventually by the One heat exchanger 110 passes to environment and realizes refrigeration, alternatively, making the heat generated in the second heat exchange unit 200 eventually by first Heat exchanger 110 passes to environment and realizes heating.It wherein, can be opposite between the first shell 130 and second shell 240 of mobile air conditioner It is mobile, in this way, first shell 130 can be neatly moved to the position for needing refrigeration (or heating) by user, make air and first The heat exchange of First Heat Exchanger 110 in shell 130 is freezed at First Heat Exchanger 110 with meeting refrigeration (or heating) demand While (or heating), second shell 240 can be made to be placed in, and to be expelled directly out hot wind apart from 130 remote position of first shell (or cold Wind) to cancel air-exhausting duct, and guarantee the work efficiency of product, and the structure is for existing Integral moveable air conditioner, and The mobility of one shell 130 will not be restricted by the thick connecting line for air draft, in this way, the mobility of first shell 130 is more It is good, movement is more flexible so that mobile first shell 130 to be to adjust the more convenient operation of refrigeration (or heating) position, simultaneously as Moved in this structure be mobile air conditioner part (first shell 130) rather than the entirety of mobile air conditioner, moving operation is more convenient, It is laborsaving, and by that can be relatively moved between design first shell 130 and second shell 240, it is also beneficial to make heating, refrigeration in this way The operation noise effect inside second shell 240 is avoided in position, promotes the muting function of product, so that product, which has, preferably to be made With experience.

In one embodiment of the utility model, as shown in Figure 4, Figure 5 and Figure 6, mobile air conditioner further includes intermediate heat exchange Unit 230, intermediate heat exchange unit 230 include mutually independent first heat exchanging segment and the second heat exchanging segment, and the first heat exchanging segment is formed as A part of first heat exchange flow path, the second heat exchanging segment are formed as a part of the second heat exchange flow path, and the first heat exchanging segment and second Heat exchanging segment carries out heat exchange in the form of septate heat transfer.In this way, the heat exchange efficiency between the first heat exchange flow path and the second heat exchange flow path It is more secure, and the assembly of product is also simpler, conducive to the yields for guaranteeing product.

In other embodiments, it can also be not provided with intermediate heat exchange unit 230, but designing the first heat exchange flow path includes first Pipeline, the second heat exchange flow path includes the second pipeline, makes contact between the first pipeline and the second pipeline or close, and it is mutual side by side Or entwine, it is changed so that flowing through the heat transferring medium of the first heat exchange flow path and flowing through partition between the heat transferring medium of the second heat exchange flow path Heat.

In the present embodiment, counterflow heat exchange is formed between the first heat exchanging segment and the second heat exchanging segment.In this way, the first heat exchanging segment with Heat exchange efficiency between second heat exchanging segment is higher, can promote product efficiency.

In other embodiments, it may also set up and form cocurrent heat exchange between the first heat exchanging segment and the second heat exchanging segment.

In the present embodiment, as shown in figure 4, intermediate heat exchange unit 230 includes double pipe heat exchanger, in this way, the first heat exchange Heat exchange area between section and the second heat exchanging segment is bigger, exchanges heat more efficient, can promote product efficiency, and identical exchange capability of heat feelings Under condition, the volume of double pipe heat exchanger is smaller, more conducively the miniaturization of product.

Further, as shown in Figure 4 and Figure 6, double pipe heat exchanger includes tube side 231 and shell side 232, the second heat exchanging segment shape At in tube side 231, the first heat exchanging segment is formed in shell side 232.In this way, from the tube side 231 of double pipe heat exchanger to shell side 232 again to Air layer on the outside of double pipe heat exchanger, the variation tendency that formation temperature gradually rises, so that double pipe heat exchanger is to air layer Radiation loss minimize, to promote product efficiency, meanwhile, design to inhibit bushing type to change so to a certain extent The condensate phenomenon of hot device outer surface reduces condensate and generates, and promotes interiors of products wholesomeness, and reduce degree of being air-dried.

Further, double pipe heat exchanger is configured to track type.It is may make inside the first heat exchanging segment in this way and second exchanges heat Intersegmental part temperature is uniform, promotes the heat exchange efficiency between the first heat exchanging segment and the second heat exchanging segment.

Certainly, this programme is not limited thereto, and those skilled in the art can also design double pipe heat exchanger structure according to demand Ellipse, circle are caused, even, also may be configured to the polygons such as rectangular, rectangle, triangle.

In other embodiments, the second heat exchanging segment can also being designed in turn and being formed in shell side 232, the first heat exchanging segment is formed in Tube side 231.

In other embodiments, can also design intermediate heat exchange unit 230 includes plate heat exchanger, if plate heat exchanger includes Dry heat exchanger plates, the sides of heat exchanger plates form the second heat exchanging segment, and the other side of heat exchanger plates forms the first heat exchanging segment, the second heat exchanging segment with First heat exchanging segment is exchanged heat by heat exchanger plates between the two.

In other embodiments, can also design intermediate heat exchange unit 230 includes shell-and-tube heat exchanger, shell-and-tube heat exchanger packet Shell chamber and several heat exchanger tubes intracavitary positioned at shell are included, the intracavitary space of shell forms shell side 232, and the space in heat exchanger tube forms tube side 231, the first heat exchanging segment is formed in one in shell side 232 and tube side 231, and the second heat exchanging segment is formed in shell side 232 and tube side 231 In another.

In one embodiment of the utility model, the heat transferring medium in the second heat exchange unit 200 is refrigerant (such as fluorine benefit It is high), and it is formed with coolant system 210 in the second heat exchange unit 200, as shown in Figure 4 and Figure 6, before coolant system 210 specifically includes Second heat exchanger 222, the second fan 223, the second heat exchanging segment, compressor 221 and throttling set 224 in stating etc..

Second fan 223 is configured to certain driving air-flow and the second heat exchanger 222 exchanges heat.

As shown in fig. 6, the second heat exchanger 222, the second heat exchanging segment, compressor 221 and throttling set 224 be series at it is same cold In matchmaker circuit, compressor 221 is configured to the refrigerant compression processing from the second heat exchanging segment, and by the refrigerant after compression processing It arranges to the second heat exchanger 222.Throttling set 224 is configured to carry out throttling processing to from the refrigerant of the second heat exchanger 222, and Will throttling treated that refrigerant is arranged to the second heat exchanging segment.

When mobile air conditioner works, after compressor 221 is to refrigerant compression processing, by the high temperature and pressure refrigerant of compression processing formation It is discharged into the second heat exchanger 222, the second heat exchanger 222 is realized after cooling down to refrigerant as condenser for refrigerant and air-flow heat exchange, will The normal temperature high voltage refrigerant that cooling processing is formed is discharged into throttling set 224, and normal temperature high voltage becomes room temperature after the throttling of throttling set 224 Normal pressure refrigerant, and be discharged into the second heat exchanging segment of intermediate heat exchange unit 230, in intermediate heat exchange unit 230, the second heat exchanging segment is made It is evaporator for refrigerant evaporation heat absorption, so that the heat transferring medium in the first heat exchanging segment of intermediate heat exchange unit 230 is by refrigerant Cooling, in this way, heat transferring medium of the first heat exchanging segment of intermediate heat exchange unit 230 to 110 transporting low temperature of First Heat Exchanger, so that the Cold wind is formed at one heat exchanger 110, in addition, after the second heat exchanging segment of intermediate heat exchange unit 230 is evaporated to the conveying of compressor 221 Refrigerant completes refrigerant circulation.

In one embodiment of the utility model, mobile air conditioner further includes temperature measurement component (such as temperature sensor), thermometric Component is connected to intermediate heat exchange unit 230, and temperature measurement component is configured to the temperature information of the first heat exchanging segment of detection, and according to detection As a result corresponding detection signal is issued to be responded.

Specifically for example, intermediate heat exchange unit 230 is double pipe heat exchanger, temperature measurement component is set to the shell side of double pipe heat exchanger 232 positions, and the tube temperature of the shell side 232 of double pipe heat exchanger is detected, in this way, can be judged by the testing result of temperature measurement component The physical aspect of heat transferring medium in first heat exchange flow path, for example, being the feelings of water for the heat transferring medium in the first heat exchange flow path Condition judges whether water freezes or soon freeze by the testing result of temperature measurement component, with based on the detection behavior to compressor 221 The problem of carrying out feedback regulation, preventing water freezing.

In one embodiment of the utility model, as shown in fig. 6, mobile air conditioner further include fluid driver 600 (such as For pump), fluid driver 600 is connected with the first heat exchange flow path, and drives to the heat transferring medium in the first heat exchange flow path.This Sample can promote the flowing high efficiency and reliability of the first heat exchange flow path and the heat transferring medium in First Heat Exchanger 110, avoid changing Thermal medium blocks problem, it is ensured that heat transfer efficient at First Heat Exchanger 110, and avoid the heat transferring medium knot in the first heat exchange flow path Ice promotes product operational reliability.

Certainly, the design is not limited thereto, and what those skilled in the art can also design intermediate heat exchange unit 230 first changes Siphon circulation is formed between hot arc and First Heat Exchanger 110, to save fluid driver 600.

In any of the above-described embodiment, the heat transferring medium in the first heat exchange flow path includes water.The temperature of water supplying cold directly is constant Property is good, and without sometimes hot and sometimes cold phenomenon, and outlet air is soft so that the comfort of user is more preferable, meanwhile, water it is highly-safe, in this way, Leakage installation level requirements at one heat exchanger 110 and the first heat exchange flow path reduce, more conducively guarantee Product Safety, and exchange heat Medium also has many advantages, such as that at low cost, acquisition is convenient using water.Certainly, the design is not limited thereto, those skilled in the art Can also design work medium further include for inhibiting the compositions such as adjuvant to freeze.

In one embodiment of the utility model, intermediate heat exchange unit 230 is located at outside first shell 130, the first heat exchange Flow path further includes connecting tube 300, and connecting tube 300 connects the first heat exchanging segment and First Heat Exchanger 110.In this way, 130 ruler of first shell Very little smaller, the total weight of the component (such as First Heat Exchanger 110, the first fan 120) of first shell 130 and its inside is lighter, Mobility is more preferable, movement is more flexible.

Further, as shown in figure 4, intermediate heat exchange unit 230 is placed in second shell 240；Second heat exchange unit 200 is also Including compressor 221, compressor 221 is placed in second shell 240 and is connected with the second heat exchange flow path, intermediate heat exchange unit 230 It is centered around around compressor 221.Such structure is sufficiently used the space on the inside of intermediate 230 border of heat exchange unit to hold It receives compressor 221, realizes compact arrangement between product component, be conducive to product and minimize.

In other embodiments, it may also set up intermediate heat exchange unit 230 to be located at outside first shell 130 and be located at second shell Outside 240, three components are independent so that being formed between intermediate heat exchange unit 230, first shell 130, second shell 240, are made It is connected between First Heat Exchanger 110 and the first heat exchanging segment by connecting tube 300, and makes the second heat exchanger 222 and the second heat exchanging segment Between pass through another connecting tube 300 connect.

In the present embodiment, as shown in figure 4, the second heat exchange unit 200 further includes block reinforcement 241, block reinforcement 241 is located at compressor Between 221 and intermediate heat exchange unit 230.In this way, block reinforcement 241 can separate compressor 221 and intermediate heat exchange unit 230, with Inhibit the convective heat transfer between compressor 221 and intermediate heat exchange unit 230, meanwhile, block reinforcement 241 can play the work for stopping limit With, the inside contact compressor 221 of intermediate heat exchange unit 230 is prevented, it is effective to intermediate heat exchange unit 230 to limit and qualitative, reduction The loss of refrigeration capacity of intermediate heat exchange unit 230, promotes the efficiency of product.

Further, as shown in figure 4, the second heat exchange unit 200 further includes limit rib 242, limit rib 242 is located at block reinforcement 241 outside, and limit rib 242 and 241 internal and external partition of block reinforcement and limiting be centered around 221 outside of compressor around tube seat, in Between heat exchange unit 230 be double pipe heat exchanger, and double pipe heat exchanger be set in tube seat.

In the present embodiment, connecting tube 300 includes the first pipe and the second pipe, and the first pipe is connect with the first heat exchange flow path, the Two pipes are connect with the first heat exchanging segment, are removably connected between the first pipe and the second pipe.In this way more convenient for the assembling of product, Such as, after first shell 130 and second shell 240 can be placed in suitable position by user, then first is managed and is connected with the second pipe Assembling product is realized, in this way, walking without hauling pipe, mobility is more when the mobile first shell 130 of user or second shell 240 It is good, and two root canals are connected convenient and simple for operation, have assembling convenience.

Further, the first pipe is equipped with the first connector (specifically one for example in plug and socket), and the second pipe is equipped with the Two connectors (specifically another for example in plug and socket), the first connector are detachable with pluggable mode with the second connection adapters Ground connection.It is further promoted and dismounts convenience between the first pipe and the second pipe, promote the usage experience of product.

In the present embodiment, as shown in figure 4, mobile air conditioner further includes pipe winding device, connecting tube 300 includes hose, hose It is wound in pipe winding device.The storage of the winding to hose and release may be implemented using pipe winding device, be more convenient for managing connecting tube 300 It manages and puts in order, promote the ease of use of product.

In the present embodiment, as shown in figure 4, pipe winding device specifically includes coil pipe portion 500, soft tube winding in coil pipe portion 500, Coil pipe portion 500 rotation setting, and be configured to along preset direction (preset direction can specifically for example clockwise or counterclockwise side To) rotation is to wind hose, along the backwards rotation with preset direction with release hose.In this way, making the rotation of coil pipe portion 500 can be right Hose coiling storage or release, hose put in order more neat, rule, it is not easy to the problem of hose random winding occur, and to soft Pipe dish is not in that hose loses problem, to the better protecting effect of hose while realizing storage purpose around storage.

More specifically, as shown in figure 4, coil pipe portion 500 specifically includes barrel and the flange set on barrel both ends, cylinder 500 rotary setting of coil pipe portion is realized, hose is centered around for being set on 133 outside of fixing axle and rotating around fixing axle 133 in body portion Around barrel and it is limited between two flanges.

In other embodiments, pipe winding device can also further comprise driving portion other than including coil pipe portion 500, drive Dynamic portion connect with coil pipe portion 500 or is connected by transmission device with coil pipe portion 500, and driving portion is configured to 500 turns of drive disk pipe portion It is dynamic.In this way, the rotation of drive disk pipe portion 500 is operated more simple and convenient with carrying out around pipe or putting pipe.

For example, driving portion includes handle (specific such as driving lever, handwheel), handle terminal pad pipe portion 500, so that handle When being rotated, while the rotation of coil pipe portion 500 being driven to realize around pipe or put pipe.

For example, driving portion includes power driver (specific such as motor), in this way, can be by operation panel with signal Electric drive work is controlled with the rotation of corresponding control panel pipe portion 500, realizes the storage of 300 1 key of connecting tube or release, operation is more It is simple laborsaving.

In the present embodiment, shown in Fig. 4, pipe winding device is connected to first shell 130.In this way, the integration of product is more preferable, And such structure neatly closed tube or can put pipe during mobile first shell 130 convenient for user, operation is also more just Benefit.

Specifically for example, being equipped with fixing axle 133 in first shell 130, the barrel in the coil pipe portion 500 of pipe winding device is set on 133 outside of fixing axle is simultaneously rotated around fixing axle 133.

In other embodiments, as shown in figure 5, pipe winding device can also be set in second shell 240.

In other embodiments, can also design pipe winding device is the portion independently of first shell 130 and second shell 240 Part that is, pipe winding device is set to outside first shell 130 and second shell 240, and makes pipe winding device, first shell 130 and second 240 three of shell is formed as three independent components.

In other embodiments, connecting tube 300 may also comprise telescoping tube to replace hose.In this way, can make telescoping tube with Stretch mode adapts to the adjustment of the distance between first shell 130 and second shell 240, and telescoping tube can be to a certain extent to stretch Contracting form realizes the storage of connecting tube 300 or release, puts in order conducive to connecting tube 300.

Certainly, the design is not limited thereto, and those skilled in the art can also design connecting tube 300 according to demand while wrap Containing hose and telescoping tube, alternatively, design connecting tube 300 includes that can fold or the folded tube being unfolded etc..

In the present embodiment, mobile air conditioner further includes running gear 400, and first shell 130 is equipped with running gear 400.This Sample, first shell 130 can be realized by running gear 400 and be moved, and extract first shell 130, first shell 130 without user Moving operation it is more convenient, laborsaving.

In other embodiments, first shell 130 and second shell 240 are respectively equipped with running gear 400.

In other embodiments, first shell 130 is not provided with running gear 400, and second shell 240 is equipped with running gear 400。

In any of the above-described embodiment, running gear 400 includes universal wheel.Make first shell 130 and/or second shell 240 It walks by universal wheel, it is more flexible to the direction controlling of first shell 130 and/or second shell 240.

In other embodiments, it may also set up running gear 400 including crawler attachment etc..

In one embodiment of the utility model, first shell 130 includes pedestal 130a and movable part 130b, activity Component 130b and pedestal 130a are rotatablely connected, and are formed with accommodation space 134 in movable part 130b, First Heat Exchanger 110 and the One fan 120 is set in accommodation space 134, and is rotated with movable part 130b relative to pedestal 130a.

In one embodiment of the utility model, as shown in Figure 1, Figure 2 and Figure 4, first shell 130 includes pedestal 130a It is rotatablely connected with movable part 130b, movable part 130b and pedestal 130a, is formed with accommodation space in movable part 130b 134, First Heat Exchanger 110 and the first fan 120 are set in accommodation space 134, and with movable part 130b relative to pedestal 130a rotation.In this way, can be by rotation movable part 130b neatly to adjust wind direction, the using flexible of product is more It is good.

Preferably, pitch axis is formed between movable part 130b and pedestal 130a, movable part 130b is relative to pedestal 130a is around pitch axes, to realize the air outlet angle for adjusting movable part 130b.

Specifically, as shown in figure 4, movable part 130b is formed as cavity, cavity is equipped with air inlet 135 and air outlet 136, First fan 120 is set in cavity, and certain driving air-flow enters cavity along air inlet 135, and is vented cavity along air outlet 136, Wherein, First Heat Exchanger 110 is set in cavity, and is exchanged heat with the intracorporal air-flow of chamber.In this way, movable part 130b is also used as shell Component forms protective action to First Heat Exchanger 110 and the first fan 120, while playing the role of similar air duct, about to air-flow Beam makes First Heat Exchanger 110 more efficiently exchange heat, and for this structure, when movable part 130b is rotated relative to pedestal 130a, It can make the air outlet angle corresponding change of air outlet 136, realize that air outlet angle is adjusted.

In the present embodiment, as depicted in figs. 1 and 2, it is formed on pedestal 130a and places platform 131, second shell 240 can be put It sets removable between first shell 130 to realize on placing platform 131.

Specifically, as shown in Figure 1, being the knot in the state that second shell 240 is placed on the placement platform 131 of pedestal 130a Structure schematic diagram, as shown in Fig. 2, for second shell 240 from the placements platform 131 of pedestal 130a separate afterwards in the state of structure show It is intended to, in this way, second shell 240 can be put in order on the placement platform 131 of pedestal 130a when user needs to store product, Realize the overall space volume for reducing product.

Further, as shown in Fig. 2, pedestal 130a is equipped with interconnecting piece 132, interconnecting piece 132 is located at the side for placing platform 131 Side, movable part 130b is connected to interconnecting piece 132 and connection portion 132 supports, wherein connecting tube 300 is hose, places platform 131 lower section is equipped with the pipe winding device for being suitable for winding hose.In this way, pipe winding device can be used as weight member, to realize pedestal It is steady to realize that pedestal 130a increases, can reduce pedestal 130a to connection for the 132 side trim of 131 side of placement platform and interconnecting piece of 130a Portion 132 rolls the risk of falling.

Further, as shown in Figures 2 and 3, interconnecting piece 132 includes boss 1321 and connection structure 1322, connection knot Structure 1322 can specifically use hinge, hinge rotational structure etc., and boss 1321 is located at the side for placing platform 131, connection structure 1322 are located on boss 1321, and the position of connection structure 1322 is higher than placement platform 131, movable part 130b and connection structure 1322 are connected.The position of connection structure 1322 is raised using boss 1321, accordingly to raise the position of movable part 130b, in this way Outlet air position can be increased, accordingly further to utilize cold air sinking tendency to promote refrigeration uniformity.

More specifically, as shown in Fig. 2, pedestal 130a is integrally rendered as L shape, interconnecting piece 132 forms L-shaped vertical edge Position places platform 131 and is formed in L-shaped horizontal edge position.In this way, interconnecting piece 132 can both met to movable part 130b's Position castering action, but can make when second shell 240 is placed in and places platform 131 first shell 130 and second shell 240 it Between agree with, realize component between compact arrangement, realize good storage effect.

In other embodiments, the pedestal 130a that can also design first shell 130 specifically includes pedestal and lifting device, rises Falling unit is set on pedestal, and movable part 130b is connected to lifting device, and lifting device is configured to driving movable part 130b liter Drop movement, to adjust the relative altitude between movable part 130b and pedestal.In this way, user can neatly be controlled by lifting device The height of wind position is produced, product using flexible and convenience are promoted.

In one embodiment of the utility model, as shown in figure 4, pedestal 130a or movable part 130b is equipped with condensed water Collecting part 137, condensation water collection component 137 are located at the lower section of First Heat Exchanger 110, and collect the generation of First Heat Exchanger 110 Condensed water.Use environment can be polluted to avoid condensed water in this way, promote the usage experience of product.

In other embodiments, condensation water collection component 137 can also be made to be formed on pedestal 130a.

In a specific embodiment of the utility model, as shown in Figures 1 to 4, mobile air conditioner specifically includes first and changes Hot cell 100 and the second heat exchange unit 200, the first heat exchange unit 100 are changed including first shell 130, the first fan 120, first Hot device 110 etc., First Heat Exchanger 110 are water cooling heat exchanger, it may also be said to, the heat transferring medium to circulate in First Heat Exchanger 110 is Water.

First Heat Exchanger 110 and the first fan 120 are set in first shell 130.

Second heat exchange unit 200 includes second shell 240 and coolant system 210, and coolant system 210 specifically includes compressor 221, throttling set 224, the second fan 223, second heat exchanger 222 etc., compressor 221, throttling set 224, the second fan 223, the second heat exchanger 222 is set in second shell 240, and the heat transferring medium to circulate in coolant system 210 is refrigerant.

In addition, mobile air conditioner includes intermediate heat exchange unit 230, intermediate heat exchange unit 230 is double pipe heat exchanger, bushing type Heat exchanger has shell side 232 and tube side 231, and double pipe heat exchanger is set in second shell 240, and tube side 231 is changed with second Hot device 222 connects, and shell side 232 is connect by connecting tube 300 with First Heat Exchanger 110, and connecting tube 300 is preferably hose or stretches Pipe, so that first shell 130 has good activity relative to second shell 240.

Preferably, connecting tube 300 includes two parts, and a part is connected to First Heat Exchanger 110, and another part is connected to set The shell side 232 of pipe heat exchanger is realized easy to assembly to slotting connection between two parts of connecting tube 300.

For 100 part of the first heat exchange unit, in more detail,

It is additionally provided with universal wheel in the lower end of the first shell 130 of the first heat exchange unit 100, first shell 130 is facilitated to move It is dynamic.

First shell includes pedestal 130a and movable part 130b, and movable part 130b and pedestal 130a are rotatablely connected, living Dynamic component 130b is equipped with air inlet 135 and air outlet 136, and First Heat Exchanger 110 is located in movable part 130b and is located at air inlet Between mouth 135 and air outlet 136, the first fan 120 is additionally provided in movable part 130b, the first fan 120 also is located at air inlet Between 135 and air outlet 136 and certain driving air-flow and First Heat Exchanger 110 exchange heat.In addition, movable part 130b is in First Heat Exchanger 110 lower part is additionally provided with condensation water collection component 137.

More specifically, pedestal 130a shape is L shape, movable part 130b is connected to the L-shaped top of pedestal 130a, so that The upper support First Heat Exchanger 110 of pedestal 130a, first fan 120 etc., can improve the height of movable part 130b simultaneously in this way Degree, it is convenient for the user to operate.The L-shaped horizontal edge position of pedestal 130a is formed as a rectangular shell, and the content of shell is one solid Dead axle 133 and pipe winding device, pipe winding device include coil pipe portion 500, and coil pipe portion 500 has barrel and in barrel axial ends Flange, barrel is sleeved in fixing axle 133 and rotates around fixing axle 133, for the feelings of connecting tube 300 including hose Condition, the rotation of coil pipe portion 500 can get up hose coiling, and user can automatically adjust the flexible length of hose according to actual needs Degree realizes that connecting tube 300 is stored.Meanwhile in this structure, the part pedestal 130a can utilize pipe winding device counterweight, play overturning-preventing Effect.

Preferably, pipe winding device may also include power driver, such as motor, and power driver drive disk pipe portion can be used Automatic pipe winding is realized in 500 rotations, to realize that key control storage connecting tube 300 and a key discharge connecting tube 300.

Certainly, can also be arranged simultaneously mechanical handle come drive disk pipe portion 500 rotation, alternatively, be arranged mechanical handle with Substitution power driver carrys out the rotation of drive disk pipe portion 500.Even, it can also be not provided with mechanical handle and power driver, but Coil pipe portion 500 is directly acted on to realize that coil pipe portion 500 rotates.

For 200 part of the second heat exchange unit, in more detail,

The tube side 231 of double pipe heat exchanger is formed as a part of coolant system 210, wherein compressor 221 and bushing type The tube side 231 of heat exchanger and the connection of the second heat exchanger 222, throttling set 224 are changed with the tube side 231 of double pipe heat exchanger and second Hot device 222 connects, to form the coolant loop for refrigerant circulation, refrigerant is particularly preferred as freon.

The tube side 231 of double pipe heat exchanger plays the role of evaporator in coolant system 210, in the first heat exchange unit In 100, using water as heat transferring medium, and the heat transferring medium absorbs the cooling capacity of refrigerant in double pipe heat exchanger, becomes low temperature Water, water at low temperature are recycled in First Heat Exchanger 110, and discharge cooling capacity in First Heat Exchanger 110, are dropped to room Temperature.To improve heat exchange efficiency, the water in double pipe heat exchanger and First Heat Exchanger 110 is driven equipped with water pump, to accelerate The flowing of water.

Double pipe heat exchanger is equipped with temperature measurement component (such as temperature sensor) and carries out anti-freeze detection.

Double pipe heat exchanger is centered around around compressor 221, and is configured to an annular track type.Meanwhile it covering Between pipe heat exchanger and compressor 221 be equipped with block reinforcement 241 carry out limit and it is heat-insulated.

Preferably, in double pipe heat exchanger, the flowing of tube side 231 has refrigerant, and the flowing of shell side 232 has water, two different works Matter reverse flow reaches good heat transfer effect.

Second housing specifically includes bottom case 240a and outer cover 240b, and outer cover 240b and bottom case 240a are combined to form accommodating chamber, Second heat exchanger 222, the second fan 223, double pipe heat exchanger etc. are located in accommodating chamber, and block reinforcement 241 is formed on bottom case 240a, Compressor 221 is set on bottom case 240a and is located at 241 inside of block reinforcement, and double pipe heat exchanger is nested in 241 outside of block reinforcement, makes block reinforcement 241 play the role of stopping heat convection and radiation between compressor 221 and double pipe heat exchanger, and block reinforcement 241 can be right Double pipe heat exchanger is limited, and limiting boot formula heat exchanger is inwardly close to compressor 221.Second heat exchanger 222 and the second wind 223 Relative distributions are fanned, compressor 221 is between the second heat exchanger 222 and the second fan 223.Correspond to the on outer cover 240b Air-inlet grille 243 is formed at two heat exchangers 222, the second fan 223 is centrifugal fan, and outer cover 240b corresponds to centrifugal fan Exit is formed with air outlet grate 244.

In more detail, the second heat exchanger 222 includes that the first sub- heat exchanger 2221 and the second sub- heat exchanger 2222, the first son change It is in an angle between hot device 2221 and the second heat exchanger 222, wherein the second son changes it is preferred that the first sub- heat exchanger 2221 is vertically arranged Hot 2222 bottom end of device is incorporated into the top of the first sub- heat exchanger 2221, and the second sub- 2222 top of heat exchanger is towards the second wind of place orientation 223 inclination of fan, the second fan 223 also oblique arrangement, and the top of the second fan 223 and the second sub- 2222 top of heat exchanger It is opposite close.Correspondingly, the form that the bottom end that outer cover 240b shape is also designed to mutually fit is loose, top is narrow, and it is adjacent in outer cover 240b Handle 245 is configured at the position on nearly top.

This specific embodiment has the beneficial effect that

1, it can be relatively moved between first shell 130 and second shell 240, so as to remove exhaust pipe, solve movement The mobile restricted problem of formula air-conditioning；

2, by soft between the double pipe heat exchanger in the First Heat Exchanger 110 and second shell 240 in first shell 130 Pipe connection, can make first shell 130 neatly move relative to second shell 240.First shell 130 and second shell Relative mobility is more preferable between 240；

3, this product cools down to water by coolant system 210, and cooling capacity is transmitted water supply, is then recycled by water directly to user Refrigeration can be such that the compression noise jamming being subject at 130 position of first shell reduces in this way, and it is big to solve mobile air conditioner noise Problem；Due to using water directly to freeze user, while the problem of also avoid refrigerant air-conditioning overdrying.And water air-flow with Intermediate heat is carried out between refrigerant, so that supplying cold directly accuracy of temperature control is high, temperature is constant, without sometimes hot and sometimes cold phenomenon, outlet air is soft, User's comfort is good.

In the present invention, term " first ", " second " are only used for the purpose of description, and should not be understood as instruction or dark Show relative importance；Term " multiple " then refers to two or more, unless otherwise restricted clearly.Term " installation ", " phase Even ", the terms such as " connection ", " fixation " shall be understood in a broad sense, for example, " connection " may be a fixed connection, be also possible to removable Connection is unloaded, or is integrally connected；" connected " can be directly connected, can also be indirectly connected through an intermediary.For ability For the those of ordinary skill in domain, the concrete meaning of above-mentioned term in the present invention can be understood as the case may be.

In the description of the utility model, it is to be understood that the orientation or positional relationship of the instructions such as term " on ", "lower" is It is based on the orientation or positional relationship shown in the drawings, is merely for convenience of describing the present invention and simplifying the description, rather than indicate Or imply that signified device or unit must have specific direction, be constructed and operated in a specific orientation, it is thus impossible to understand For limitations of the present invention.

In the description of this specification, the description of term " one embodiment ", " some embodiments ", " specific embodiment " etc. Mean that particular features, structures, materials, or characteristics described in conjunction with this embodiment or example are contained at least the one of the utility model In a embodiment or example.In the present specification, schematic expression of the above terms are not necessarily referring to identical embodiment Or example.Moreover, the particular features, structures, materials, or characteristics of description can be in any one or more embodiment or examples In can be combined in any suitable manner.

The above descriptions are merely preferred embodiments of the present invention, is not intended to limit the utility model, for this For the technical staff in field, various modifications and changes may be made to the present invention.It is all in the spirit and principles of the utility model Within, any modification, equivalent replacement, improvement and so on should be included within the scope of protection of this utility model.

Claims (14)

1. a kind of mobile air conditioner characterized by comprising

First heat exchange unit, first heat exchange unit include first shell, the first fan, First Heat Exchanger and with described first First heat exchange flow path of heat exchanger connection, first fan and the First Heat Exchanger are placed in the first shell；

Second heat exchange unit, second heat exchange unit include second shell, the second fan, the second heat exchanger and with described second Second heat exchange flow path of heat exchanger connection, second fan and second heat exchanger are placed in the second shell；It is described Second shell is removably connect with the first shell, and can be mobile relative to the first shell；

Wherein, the second heat exchange flow arrangement is heat exchange can be carried out in the form of partition with the first heat exchange flow path.

2. mobile air conditioner according to claim 1, which is characterized in that further include:

Intermediate heat exchange unit, the intermediate heat exchange unit include mutually independent first heat exchanging segment and the second heat exchanging segment, and described One heat exchanging segment is formed as a part of the first heat exchange flow path, and second heat exchanging segment is formed as the second heat exchange flow path A part, and first heat exchanging segment and second heat exchanging segment carry out heat exchange in the form of septate heat transfer.

3. mobile air conditioner according to claim 2, which is characterized in that

Counterflow heat exchange is formed between first heat exchanging segment and second heat exchanging segment.

4. mobile air conditioner according to claim 2 or 3, which is characterized in that

The intermediate heat exchange unit includes double pipe heat exchanger；

Described sleeve pipe formula heat exchanger includes tube side and shell side, and second heat exchanging segment is formed in the tube side, first heat exchange Section is formed in the shell side.

5. mobile air conditioner according to claim 2 or 3, which is characterized in that

The intermediate heat exchange unit is located at outside the first shell, and the first heat exchange flow path further includes connecting tube, the connection Pipe connects first heat exchanging segment and the First Heat Exchanger.

6. mobile air conditioner according to claim 5, which is characterized in that

The intermediate heat exchange unit is placed in the second shell；

Second heat exchange unit further includes compressor, and the compressor displacement is placed in the second shell and exchanges heat with described second Flow path is connected, and the intermediate heat exchange unit is centered around around the compressor.

7. mobile air conditioner according to claim 5, which is characterized in that

The connecting tube includes the first pipe and the second pipe, and first pipe is connect with the first heat exchange flow path, second pipe It connect with first heat exchanging segment, is removably connected between first pipe and second pipe.

8. mobile air conditioner according to claim 7, which is characterized in that

First pipe is equipped with the first connector, and second pipe is equipped with the second connector, first connector and second connector It is adapted for being detachably connected with pluggable mode.

9. mobile air conditioner according to claim 5, which is characterized in that further include pipe winding device, the connecting tube includes soft Pipe, the soft tube winding is in the pipe winding device；The pipe winding device includes:

Coil pipe portion, the soft tube winding are configured to rotate along preset direction in the coil pipe portion, the coil pipe portion rotation setting To wind the hose, along the backwards rotation with the preset direction to discharge the hose.

10. mobile air conditioner according to any one of claim 1 to 3, which is characterized in that further include:

Running gear, at least one of the first shell and the second shell are equipped with the running gear, the walking Device includes universal wheel.

11. mobile air conditioner according to any one of claim 1 to 3, which is characterized in that the first shell includes:

Pedestal；

Movable part is connect with the base rotation, is formed with accommodation space in the movable part, the First Heat Exchanger and First fan is set in the accommodation space, and with the movable part relative to the base rotation.

12. mobile air conditioner according to claim 11, which is characterized in that

Placement platform is formed on the pedestal, the placement platform is adapted for placing the second shell；

The pedestal is equipped with boss and connection structure, and the boss is located at the side for placing platform, and the connection structure is set On the boss, and the position of the connection structure is higher than the placement platform, the movable part and the connection structure It is connected.

13. mobile air conditioner according to claim 11, which is characterized in that

The pedestal includes pedestal and lifting device, and the lifting device is set on the pedestal, and the movable part is connected to The lifting device, the lifting device are configured to that the movable part is driven to go up and down.

14. mobile air conditioner according to claim 11, which is characterized in that

The pedestal or the movable part are equipped with condensation water collection component, and the condensation water collection component is located at described first and changes The lower section of hot device, and collect the condensed water that the First Heat Exchanger generates.