CN204786818U - Rack air conditioning equipment - Google Patents

Abstract

The utility model provides a rack air conditioning equipment, rack air conditioning equipment includes the casing, set up compressor in the casing, internal circulation system circulation system outside and, the casing includes the perisporium that surrounds into the framework and sets up the baffle that is used for separating internal circulation system circulation system outside with in the perisporium, the baffle with be formed with the space between the perisporium, rack air conditioning equipment is still including being used for the intercommunication internal circulation system and outer circulation system's refrigerant poling, the space of refrigerant poling between baffle and perisporium is passed. , need not bore a hole on the baffle from this, can strengthen holistic leakproofness, the space surplus is great to it is more convenient to weld, and operation process is more convenient more easily.

Description

A kind of rack conditioner

Technical field

The utility model provides a kind of rack conditioner.

Background technology

In order to prevent moisture, dust or pernicious gas from entering rack, rack is usually to outer closure.Be in operation, because self evolution of heat of device in rack or outdoors sunlight irradiate or heat, in rack, temperature can constantly raise, as heat radiation will certainly affect the normal operation of device in rack not in time.Therefore, the control rack applied in these industries need configure special equipment and dispel the heat to air in rack, i.e. rack conditioner.

Rack conditioner is the device that can regulate the temperature of air in electrical control cabinet, relative humidity, flowing velocity, can solve the heat dissipation problem such as outdoor communication cabinet, unlimited outdoor cabinet base station, storage battery cabinet.Mainly through taking away the heat that the small size electric energy of electrical equipment sends, for all kinds of interior of equipment cabinet provides desirable humiture environment, isolate the dust in external environment, corrosive gas simultaneously, extended the service life of electrical equipment, improve machine system operational reliability.

Rack conditioner is generally made up of inside and outside two circulatory systems, generally dividing plate is all provided with for isolating internal circulation system and external circulating system, and be provided with the refrigerant poling being communicated with described internal circulation system and external circulating system in the casing of rack conditioner.General refrigerant poling is all bored a hole and mistake from the waist of described dividing plate, like this can cause the problems such as sealing is weak, space is crowded.And refrigerant poling and external circulating system are provided with the joint welded, refrigerant poling is mistake from waist perforation, is unfavorable for welding operation.

Therefore, a kind of novel rack conditioner must be designed, to solve the problem.

Utility model content

The utility model, for prior art Problems existing, its object is to provide a kind of novel rack conditioner, can strengthen overall sealing, and welding is easier, and it is more convenient to operate.

For achieving the above object, the utility model provides a kind of rack conditioner, described rack conditioner comprises casing, the compressor be arranged in casing, internal circulation system and external circulating system, and described casing comprises the perisporium that encompasses framework and is arranged in perisporium in order to separate the dividing plate of internal circulation system and external circulating system; Space is formed between described dividing plate and described perisporium; Described rack conditioner also includes the refrigerant poling being communicated with described internal circulation system and external circulating system, and described refrigerant poling passes from the space between dividing plate and perisporium.

As further improvement of the utility model, described perisporium comprises the base plate, the top board and between base plate and top board and the pair of side plates be oppositely arranged that are oppositely arranged, and described space is formed on the downside of described dividing plate and between described base plate.

As further improvement of the utility model, described compressor is arranged on base plate, and the inner setting in downside of described dividing plate is also formed with the host cavity of accommodating described compressor with the outer end of casing, and described host cavity is connected with described space.

As further improvement of the utility model, described external circulating system comprises the condensing heat exchanger of rectangular tabular, described internal circulation system comprises the evaporating heat exchanger of rectangular tabular, described condensing heat exchanger is arranged at the upside in described casing, described evaporating heat exchanger is arranged at the downside in casing, and described refrigerant poling is communicated with described evaporating heat exchanger and condensing heat exchanger.

As further improvement of the utility model, described refrigerant poling extends through space from described evaporating heat exchanger and arrives host cavity, and is connected with described condensing heat exchanger after host cavity inner bending extends.

As further improvement of the utility model, described refrigerant poling is provided with the joint be connected with described condensing heat exchanger.

As further improvement of the utility model, described compressor and described condensing heat exchanger are arranged at the homonymy of described dividing plate.

As further improvement of the utility model, the downside of described dividing plate has exceeded the downside of described evaporating heat exchanger downwards or has flushed with the downside of described evaporating heat exchanger.

As further improvement of the utility model, described rack conditioner is also provided with the first siphunculus and the second siphunculus being communicated with described compressor and evaporating heat exchanger that are communicated with described condensing heat exchanger and compressor, and described second siphunculus passes space from compressor and is connected with described evaporating heat exchanger.

As further improvement of the utility model, described perisporium and dividing plate are integrated injection mo(u)lding, are connected mutually on the upside of described dividing plate with described top board, and the dual-side of described dividing plate vertical direction is connected mutually with described side plate.

The beneficial effects of the utility model are: described refrigerant poling passes from the space between dividing plate and perisporium, thus, do not need at the enterprising eleven punch 11 of dividing plate, overall sealing can be strengthened, spatial margin is comparatively large, and welds convenient, and operating process is more easily more convenient.

Accompanying drawing explanation

Fig. 1 is the positive side structure schematic diagram of described rack conditioner.

Fig. 2 is the enlarged diagram of encircled portion in Fig. 1.

Fig. 3 is the trailing flank structural representation of described rack conditioner.

Fig. 4 is the decomposition texture schematic diagram that compressor removed by described rack conditioner.

Detailed description of the invention

Below with reference to each embodiment shown in the drawings, the utility model is described in detail.But these embodiments do not limit the utility model, the structure that those of ordinary skill in the art makes according to these embodiments or conversion functionally are all included in protection domain of the present utility model.

According to shown in Fig. 1 to Fig. 4, a kind of rack conditioner 100, described rack conditioner 100 comprises casing 1, the compressor 2 be arranged in casing 1, internal circulation system 3 and external circulating system 4 and the refrigerant poling 5 in order to be communicated with described internal circulation system 3 and external circulating system 4.

Described casing 1 comprises the perisporium 10 that encompasses framework and to be arranged in perisporium 10 in order to separate the dividing plate 14 of internal circulation system 3 and external circulating system 4, is formed with space 141 between described dividing plate 14 and described perisporium 10.Described perisporium 10 comprises the base plate 11 that is oppositely arranged and top board 12, between base plate 11 and top board 12 and the pair of side plates 13 be oppositely arranged, in the present embodiment, described space 141 is formed on the downside of described dividing plate 14 and between described base plate 11.Certainly, if described space 141 is formed at other places, also the purpose of this utility model can be reached.

Described dividing plate 14 and perisporium 10 are integrated injection mo(u)lding, are connected mutually on the upside of described dividing plate 14 with described top board 12, and the dual-side of described dividing plate 14 vertical direction is connected mutually with described side plate 13.By this integrated structure, ensure that the sealing of internal circulation system 3 and external circulating system 4, improve degree of protection, and simplify assembly process, reduce cost.Described dividing plate 14 bends extension from top to bottom, near arranging near the outer end of described casing 1 on the upside of described dividing plate 14, arranges on the downside of described dividing plate 14 near the inner of described casing 1.Form the host cavity 20 of accommodating described compressor 2 with casing 1 outer end on the downside of described dividing plate 14, be formed with described space 141 between described dividing plate 14 lower end and described base plate 11, described host cavity 20 is connected with described space 141.

Described external circulating system 4 comprises the condensing heat exchanger 41 of rectangular tabular, and described internal circulation system 3 comprises the evaporating heat exchanger 31 of rectangular tabular.Described condensing heat exchanger 41 is arranged at the upside of described casing 1 and is connected mutually with described top board 12, described evaporating heat exchanger 31 is arranged at the downside of described casing 1, and the downside of described dividing plate 14 has exceeded the downside of described evaporating heat exchanger 31 downwards or flushed with the downside of described evaporating heat exchanger 31.Thus described evaporating heat exchanger 31 overall can be shielded in the inner side of described dividing plate 14, strengthens the sealing of system.Described evaporating heat exchanger 31 is all connected with described side plate 13 mutually with the two opposite sides edge of the vertical direction of condensing heat exchanger 41, makes the maximization of described evaporating heat exchanger 31 and condensing heat exchanger 41 area coverage as far as possible, improves heat exchange efficiency as much as possible.In the present embodiment, described condensing heat exchanger 41 and evaporating heat exchanger 31 are all fixed on two side plates 13, the downside of described dividing plate 14 extends downward the downside of evaporating heat exchanger 31, and to inner and be upwards bent to form the bending part 142 that can support bottom described evaporating heat exchanger 31.

Described refrigerant poling 5 is in order to be communicated with described evaporating heat exchanger 31 and condensing heat exchanger 41.Described refrigerant poling 5 arrives host cavity 20 from described evaporating heat exchanger 31 to downward-extension and through space 141, and in host cavity 20, upwards bending is connected with described condensing heat exchanger 41 after extending.Described refrigerant poling 5 passes from space 141, instead of punch on the waist of dividing plate 14 through, the sealing of single-piece frame 1 can be made to strengthen.As shown in Figure 2, in addition, described refrigerant poling 5 is provided with the joint 51 be connected with described condensing heat exchanger 41.Described joint 51 is welding point 51, and refrigerant poling 5 is underlying and after space 141 is passed, in host cavity 20 or side carry out being welded to connect described condensing heat exchanger 41, thus, can provide larger spatial margin to welding operation, operating process succinctly saves time.

Described compressor 2 is vertical compressor 2 or the vertical installation for horizontal compressor 2, and be provided with mount pad 21 on the downside of described compressor 2, described mount pad 21 is fixed on base plate 11, has the effect of damping.Described rack conditioner 100 is also provided with the first siphunculus 411 and the second siphunculus 311 being communicated with described compressor 2 and evaporating heat exchanger 31 that are communicated with described condensing heat exchanger 41 and compressor 2.Described first siphunculus 411 extends downward on the downside of described compressor 2 from described condensing heat exchanger 41, and upwards bending extends to compressor 2 top, and is connected with compressor 2.Described second siphunculus 311 inwardly passes space 141 from compressor 2 and is connected with described evaporating heat exchanger 31.

Described rack conditioner 100 when mounted thus, and because refrigerant poling 5 is underlying, the space 141 on the downside of dividing plate 14 is passed, and not be used in the punching of dividing plate 14 waist, thus enhances sealing, also eliminate the trouble of punching.And the host cavity 20 be arranged at by refrigerant poling 5 on the downside of casing 1, spatial margin is larger, also convenient operation more during welding.

Be to be understood that, although this description is described according to embodiment, but not each embodiment only comprises an independently technical scheme, this narrating mode of description is only for clarity sake, those skilled in the art should by description integrally, technical scheme in each embodiment also through appropriately combined, can form other embodiments that it will be appreciated by those skilled in the art that.

A series of detailed description listed is above only illustrating for feasibility embodiment of the present utility model; they are also not used to limit protection domain of the present utility model, all do not depart from the utility model skill equivalent implementations of doing of spirit or change all should be included within protection domain of the present utility model.

Claims (10)

1. a rack conditioner, it is characterized in that: described rack conditioner comprises casing, the compressor be arranged in casing, internal circulation system and external circulating system, described casing comprises the perisporium that encompasses framework and is arranged in perisporium in order to separate the dividing plate of internal circulation system and external circulating system; Space is formed between described dividing plate and described perisporium; Described rack conditioner also includes the refrigerant poling being communicated with described internal circulation system and external circulating system, and described refrigerant poling passes from the space between dividing plate and perisporium.

2. rack conditioner according to claim 1, it is characterized in that: described perisporium comprises the base plate, the top board and between base plate and top board and the pair of side plates be oppositely arranged that are oppositely arranged, and described space is formed on the downside of described dividing plate and between described base plate.

3. rack conditioner according to claim 2, it is characterized in that: described compressor is arranged on base plate, the inner setting in downside of described dividing plate is also formed with the host cavity of accommodating described compressor with the outer end of casing, and described host cavity is connected with described space.

4. rack conditioner according to claim 3, it is characterized in that: described external circulating system comprises the condensing heat exchanger of rectangular tabular, described internal circulation system comprises the evaporating heat exchanger of rectangular tabular, described condensing heat exchanger is arranged at the upside in described casing, described evaporating heat exchanger is arranged at the downside in casing, and described refrigerant poling is communicated with described evaporating heat exchanger and condensing heat exchanger.

5. rack conditioner according to claim 4, is characterized in that: described refrigerant poling extends through space from described evaporating heat exchanger and arrives host cavity, and is connected with described condensing heat exchanger after host cavity inner bending extends.

6. rack conditioner according to claim 5, is characterized in that: described refrigerant poling is provided with the joint be connected with described condensing heat exchanger.

7. rack conditioner according to claim 4, is characterized in that: described compressor and described condensing heat exchanger are arranged at the homonymy of described dividing plate.

8. rack conditioner according to claim 4, is characterized in that: the downside of described dividing plate has exceeded the downside of described evaporating heat exchanger downwards or flushed with the downside of described evaporating heat exchanger.

9. rack conditioner according to claim 4, it is characterized in that: described rack conditioner is also provided with the first siphunculus and the second siphunculus being communicated with described compressor and evaporating heat exchanger that are communicated with described condensing heat exchanger and compressor, described second siphunculus passes space from compressor and is connected with described evaporating heat exchanger.

10. rack conditioner according to claim 2, is characterized in that: described perisporium and dividing plate are integrated injection mo(u)lding, is connected mutually on the upside of described dividing plate with described top board, the dual-side of described dividing plate vertical direction is connected mutually with described side plate.