CN205261858U - Medium -and -large -sized integral covering or awning on a car, boat, etc. air conditioner for room - Google Patents

Abstract

The utility model provides a medium -and -large -sized integral covering or awning on a car, boat, etc. Air conditioner for room, including compressor, evaporimeter, condenser and static pressure case, the compressor is connected with the condenser, and the condenser is connected with the evaporimeter, and wherein static pressure case detachable fixes above the evaporimeter, and static pressure case front is equipped with horizontal supply -air outlet, and static pressure roof portion is equipped with the set -top supply -air outlet, the utility model discloses an air conditioner can use in different occasions such as middle -size and small -size, medium -and -large -sized and extra -large -size covering or awning on a car, boat, etc. Rooms, be convenient for transportation repeatedly and installation to the use of can starting shooting of connecting with the mains has been left out common scene that needs and has been connect the copper pipe, connects the loaded down with trivial details process of freezing water pipe.

Description

A kind of medium-and-large-sized monoblock type paulin room air-conditioning

Technical field

The utility model relates to a kind of air-conditioning, relates in particular to a kind of medium-and-large-sized monoblock type paulin room air-conditioning.

Background technology

Paulin room is a kind of novel outdoor activities temporary building, and accumulating is light, is referred to as " house property flows ", and it is widely used in business activity, competitive sports, transit depot, factory building, exhibitions paulin room, construction paulin room and emergency rescue space. Along with paulin room is more and more extensive in the application of different field, the paulin room special air conditioner matching with it is also developed, existing large-sized workshop or warehouse adopt central air-conditioning or Water-cooling type air conditioner with air-conditioning more, the former is not suitable for the high temporary building of this mobility in paulin room, but the low the latter of the latter's power consumption can cause waste to underground water, Water-cooling type air conditioner needs scene to connect chilled water pipe in the time being applied to paulin room simultaneously, and installation procedure is very loaded down with trivial details. In order to meet people to the more and more higher demand of paulin room special air conditioner, need a kind of medium-and-large-sized air-cooled monoblock type paulin of exploitation room special air conditioner, occasion that can be different in middle-size and small-size, medium-and-large-sized and ultra-large type paulin room etc. is used, and is convenient to repeatedly transport, install. The air-conditioning use of can starting shooting of connecting with the mains, has omitted common needs scene and has connect copper pipe, connects the loaded down with trivial details operation of chilled water pipe.

Utility model content

Main purpose of the present utility model is to provide a kind of medium-and-large-sized monoblock type paulin room air-conditioning.

For realizing above-mentioned main purpose, the medium-and-large-sized monoblock type paulin room air-conditioning that the utility model provides, comprise compressor, evaporimeter, condenser and plenum chamber, compressor is connected with condenser, condenser is connected with evaporimeter, the wherein dismountable evaporimeter top that is fixed on of plenum chamber, plenum chamber front is provided with horizontal blast mouth, and plenum chamber top is provided with machine top air outlet.

From such scheme, paulin room with air-conditioning by carrying out work to the assembling of compressor, evaporimeter, condenser and plenum chamber, it is convenient to install, while use in actual paulin room, plenum chamber is dismountable simultaneously, can carry out multi-form variation according to the height in actual paulin room and temperature adjustment demand.

A preferred scheme is, evaporimeter top air duct.

Therefore, in the time that paulin room is higher, the plenum chamber of evaporimeter top can be removed, directly evaporimeter is connected with airduct by flange and bolt, by airduct, cold wind is sent into paulin room.

A preferred scheme is on airduct, to have circular hole.

Therefore, on the lateral part of airduct, have circular hole, so that when cold wind is delivered to paulin roof, cold wind can overflow uniformly, makes thermoregulation effect more balanced.

A preferred scheme is that evaporimeter is provided with return air inlet.

Therefore evaporimeter is provided with return air inlet, room air enters evaporimeter again by the return air inlet on evaporimeter, thereby moves in circles, and realizes energy-conservation object.

A preferred scheme is that condenser is provided with air inlet and exhaust outlet.

Therefore outdoor air is taken away cold-producing medium liberated heat by the condenser air inlet on condenser, and discharges by condenser exhaust outlet.

A preferred scheme is, is provided with on horizontal blast flange, machine top air outlet, to install on organic top air-supply flange, return air inlet, to be provided with to be provided with on return air flange, air inlet air draft flange is installed on air inlet flange and exhaust outlet on horizontal blast mouth.

Therefore, according to the big or small type in paulin room and the installation site of air-conditioning, air inlet on return air inlet, condenser on A/C evaporator need to be connected with airduct or excessive airduct by corresponding flange and bolt with the air outlet on exhaust outlet and plenum chamber, thereby realizes the circulation to paulin chamber inner air and outer air.

Brief description of the drawings

Fig. 1 is the right view of the utility model the first embodiment.

Fig. 2 is the front view of the utility model the first embodiment.

Fig. 3 is the stereogram of the utility model the first embodiment.

Fig. 4 is the utility model the first embodiment at the indoor horizontal schematic diagram of blowing.

Fig. 5 is the utility model the first embodiment at the outdoor horizontal schematic diagram of blowing.

Fig. 6 is that the utility model the first embodiment is at indoor set top air-supply schematic diagram.

Fig. 7 is that the utility model the first embodiment is at off-premises station top air-supply schematic diagram.

Fig. 8 is the right body figure of the utility model the second embodiment.

Fig. 9 is the front view of the utility model the second embodiment.

Figure 10 is the stereogram of the utility model the second embodiment.

Figure 11 is the utility model the second embodiment at the indoor horizontal schematic diagram of blowing.

Figure 12 is the utility model the second embodiment at the outdoor horizontal schematic diagram of blowing.

Figure 13 is that the utility model the second embodiment is at indoor set top air-supply schematic diagram.

Figure 14 is that the utility model the second embodiment is at off-premises station top air-supply schematic diagram.

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

Detailed description of the invention

The first embodiment:

From Fig. 1 to Fig. 3, the utility model air-conditioning the first embodiment comprises with the indoor set of evaporimeter 17, plenum chamber 10 with the off-premises station of compressor (not shown), condenser 18, wherein in the middle of indoor set and off-premises station, be reserved with space, indoor set and off-premises station are arranged on pedestal 1, connect into an entirety by pedestal 1; In indoor set, plenum chamber 10 is positioned at evaporimeter top, and plenum chamber 10 is connected with evaporimeter 17 by screw, is provided with return air inlet 15 on evaporimeter 17, is provided with spherical horizontal blast mouth 11 on plenum chamber 10; On condenser 18, be provided with air inlet 13 and condensate drain outlet 14, exhaust outlet 12 is arranged on condenser 18 over top; Indoor set is connected by conduit 19 with off-premises station.

Fig. 4 is the utility model air-conditioning the first embodiment at the indoor horizontal schematic diagram of blowing, in figure, be positioned at paulin room 50 with the indoor set of evaporimeter 17 and plenum chamber 10, be positioned at outside paulin room 50 with the off-premises station of compressor and condenser 18, the liquid refrigerant that compressor is HTHP by the refrigerant compression of gaseous state, then deliver to the liquid refrigerant that becomes normal temperature high voltage after condenser 18 dispels the heat, the outdoor air simultaneously entering by air inlet 13 flows to condenser 18 and takes away cold-producing medium liberated heat, and discharge by exhaust outlet 12, then the cold-producing medium of normal temperature high voltage enters evaporimeter 17 by the capillary in condenser 18 (not shown in Fig. 4), because arriving evaporimeter 17 rear spaces from capillary, cold-producing medium increases suddenly, pressure reduces, liquid cold-producing medium will gasify, become the cold-producing medium of gaseous state low temperature, thereby absorb a large amount of heats, evaporimeter 17 will turn cold, room air is from the cooling later of evaporimeter 17 warps, send by the horizontal blast mouth 11 on the plenum chamber 10 of evaporimeter 17 tops, thereby indoor apparatus of air conditioner blowing cold air, water vapour in room air will be condensed into condensed water after running into cold evaporimeter 17, flow out room air along the condensate drain outlet 14 of evaporimeter 17 belows and again enter evaporimeter 17 by the return air inlet 15 on evaporimeter 17, thereby move in circles, realize energy-conservation object.

Fig. 5 is the utility model air-conditioning the first embodiment at the outdoor horizontal schematic diagram of blowing, be with the difference of the indoor horizontal air-supply shown in Fig. 4, with the indoor set of evaporimeter 17 and plenum chamber 10 be all positioned at outside paulin room 50 with the off-premises station of compressor and condenser 18, but be also that spherical horizontal blast mouth 11 by being arranged on plenum chamber 10 is sent into wind in paulin room.

Fig. 6 is that the utility model air-conditioning the first embodiment is at indoor set top air-supply schematic diagram, as shown in Figure 6, when paulin room 50 height space are when higher, now plenum chamber 10 can be disassembled, directly be connected with airduct 61 with bolt by flange (Fig. 6 is not shown) on evaporimeter 17 tops and carry out the air-supply of machine top, the vertical height of the airduct 61 of machine top air-supply can regulate according to the actual height in paulin room 50, the lateral length of airduct 61 can regulate according to the length in paulin room 50, wherein on the horizontal airduct 61 of 50 inside, paulin room, have circular hole, so that evenly the overflowing of cold wind, make thermoregulation effect more balanced.

Fig. 7 is that the utility model air-conditioning the first embodiment is at off-premises station top air-supply schematic diagram, the indoor set of off-premises station top air-supply of Fig. 7 and the structure of off-premises station with shown in Fig. 6, be the same, be that evaporimeter 17 tops are connected with the bolt airduct 61 adjustable with lateral length with vertical height by flange and carry out machine top air-supply equally, difference is to be only all arranged on outside paulin room 50 with the indoor set of evaporimeter 17 with the off-premises station of compressor, condenser 18.

The second embodiment:

From Fig. 8 to Figure 10, in the present embodiment, evaporimeter 30, plenum chamber 20, compressor (not shown) and condenser 40 are all in an overall structure, condenser 40 is positioned on substrate 2, condenser 40 is provided with air inlet 42 and exhaust outlet 41, condenser 40 tops are evaporimeter 30, evaporimeter 30 is provided with return air inlet 31, evaporimeter 30 tops are plenum chamber 20, plenum chamber 20 tops are provided with machine top air outlet 21, plenum chamber 20 fronts are provided with horizontal blast mouth 22, wherein on condenser air inlet 42, air inlet flange (not shown) is installed, air draft flange (not shown) is installed on exhaust outlet 41, organic top air-supply flange 211 is installed on machine top air outlet 21, on horizontal blast mouth 22, be provided with on horizontal blast flange 212 and return air inlet 31 return air flange 311 is installed.

Figure 11 is the utility model air-conditioning the second embodiment at the indoor horizontal schematic diagram of blowing, in figure, the air-conditioning 100 of the utility model the second embodiment is as a whole is placed in paulin room 50, thereby the air inlet 42 on condenser 40 is connected with excessive airduct 60 respectively and is realized and the exchange of outdoor air by air draft flange and bolt by air inlet flange, exhaust outlet 41, air-conditioning 100 is directly sent cold wind by the horizontal blast mouth 22 on plenum chamber, directly carries out moving in circles of room air by the return air inlet 31 on evaporimeter 30.

Figure 12 is the utility model air-conditioning the second embodiment at the outdoor horizontal schematic diagram of blowing, in figure, air-conditioning 100 is as a whole is placed on outside paulin room 50, air-conditioning 100 directly exchanges with outdoor gas by the air inlet 42 on condenser 40 and exhaust outlet 41, simultaneously, thereby the horizontal blast mouth 22 on plenum chamber 20 is connected to indoor air-supply with excessive airduct 60 by horizontal blast flange 212, thereby the return air inlet 31 on evaporimeter 30 is connected with excessive airduct 60 return air of realizing room air by return air flange 313.

Figure 13 is that the utility model air-conditioning the second embodiment is at indoor set top air-supply schematic diagram, now air-conditioning 100 is placed in paulin room 50, when paulin room 50 height space are when higher, the machine top air outlet 21 at plenum chamber 20 tops pushes up air-supply flange 211 by machine and is connected with airduct 61 and carries out machine top and blow, the vertical height of the airduct 61 of machine top air-supply can regulate according to the actual height in paulin room 50, the lateral length of airduct 61 can regulate according to the length in paulin room 50, wherein on the horizontal airduct 61 of 50 inside, paulin room, have circular hole, so that evenly the overflowing of cold wind, make thermoregulation effect more balanced, simultaneously, return air inlet 31 on evaporimeter 30 directly carries out the return air circulation of room air, air inlet 42 on condenser 40 passes through air inlet flange, thereby exhaust outlet 41 is connected with excessive airduct 60 respectively and is realized and the exchange of outdoor air by air draft flange and bolt.

Figure 14 is that the utility model air-conditioning the second embodiment is at off-premises station top air-supply schematic diagram, now air-conditioning 100 is placed in outside paulin room 50, when paulin room 50 height space are when higher, the machine top air outlet 21 at plenum chamber 20 tops pushes up air-supply flange 211 by machine and is connected with airduct with bolt and carries out machine top and blow, the airduct 61 of machine top air-supply penetrates in paulin room 50, the vertical height of airduct 61 can regulate according to the actual height in paulin room 50, the lateral length of airduct 61 can regulate according to the length in paulin room 50, wherein on the horizontal airduct 61 of 50 inside, paulin room, have circular hole, so that evenly the overflowing of cold wind, make thermoregulation effect more balanced, simultaneously, thereby the return air inlet 31 on evaporimeter 30 is connected with excessive airduct 60 return air of realizing room air with bolt by return air flange 313, air inlet 42 on condenser 40 and exhaust outlet 41 directly and outdoor air exchange.

Claims (6)

1. a medium-and-large-sized monoblock type paulin room air-conditioning, comprise compressor, evaporimeter, condenser and plenum chamber, described compressor is connected with described condenser, described condenser is connected with described evaporimeter, it is characterized in that: the dismountable described evaporimeter top that is fixed on of described plenum chamber, described plenum chamber front is provided with horizontal blast mouth, and described plenum chamber top is provided with machine top air outlet.

2. medium-and-large-sized monoblock type paulin according to claim 1 room air-conditioning, is characterized in that: the top of described evaporimeter is connected with airduct.

3. medium-and-large-sized monoblock type paulin according to claim 2 room air-conditioning, is characterized in that: on described airduct, have circular hole.

4. medium-and-large-sized monoblock type paulin according to claim 2 room air-conditioning, is characterized in that: described evaporimeter is provided with return air inlet.

5. medium-and-large-sized monoblock type paulin according to claim 4 room air-conditioning, is characterized in that: described condenser is provided with air inlet and exhaust outlet.

6. medium-and-large-sized monoblock type paulin according to claim 5 room air-conditioning, it is characterized in that: on described horizontal blast mouth, horizontal blast flange is installed, organic top air-supply flange is installed on the air outlet of described machine top, return air flange is installed on described return air inlet, on described air inlet, air inlet flange is installed, and on described exhaust outlet, air draft flange is installed.