CN210602343U - High-efficient combination formula water condenser - Google Patents

Abstract

The utility model relates to a high-efficiency combined water condenser, which comprises a connecting underframe and a supporting subframe; a condensation tank and a liquid storage tank are arranged on the upper surface of the connecting underframe; the support subframe is arranged on the condensing tank and the liquid storage tank; a compressor is arranged on the supporting auxiliary frame; in the utility model, the connection underframe and the support subframe are matched, so that the connection underframe can support the condensing tank and can also be matched with the condensing tank to support the compressor; in addition, the supporting sub-frame adopts a double-layer structure of the connecting base plate and the supporting plate and is connected with the elastic module, so that the influence of vibration on the condensing tank is reduced when the compressor acts, and the service life of the whole frame is prolonged.

Description

High-efficient combination formula water condenser

Technical Field

The utility model relates to a condensing system frame field especially relates to a high-efficient combination formula water condenser.

Background

The modern refrigeration industry is in a rapid development period, and under the backgrounds of rapid market growth, strong international competition, energy conservation and environmental protection urgent requirements, the modern refrigeration technology is permeated and promoted by technical progress of microelectronics, computers, novel materials and other related industrial fields, and has some breakthrough progress and new development prospect.

Screw water coolers are so named because they employ screw compressors. The refrigerating power of the water chiller is higher than that of a vortex type water chiller, and the water chiller is mainly applied to refrigerating in chemical plants, printing ink printing plants, automobile manufacturing plants or central air conditioning systems or other large-scale industries. The existing screw compressor is large in overall dimension, heavy and large in size, large in occupied space and complex in installation and connection, so that the equipment investment cost and the land construction cost are greatly increased.

At present, in the process of using a condensing tank of the existing refrigerating system, the interior of the condensing tank is provided with a liquid storage function, so that when the condensing tank works, cooled liquid can be stored in the condensing tank, thereby occupying a condensing area, further causing slow cooling speed of the condensing tank and poor cooling effect; in addition, the condensation tank and the compressor are taken as two independent units, two independent supports are generally adopted to independently install the units at the same horizontal height, so that a large number of positions are occupied in the space at the same height, and the whole layout is huge and redundant.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a high-efficient combination formula water condenser that can make full use of space compactification design.

In order to solve the technical problem, the utility model adopts the technical scheme that: the high-efficiency combined water condenser is characterized in that: comprises a connecting underframe and a supporting subframe; a condensation tank and a liquid storage tank are arranged on the upper surface of the connecting underframe; the support subframe is arranged on the condensing tank and the liquid storage tank; a compressor is arranged on the supporting auxiliary frame;

the connecting underframe comprises a horizontal plate, supporting legs and side baffles; the horizontal plate, the supporting legs and the side baffle are formed by cutting and bending an integrally formed flat plate structure; the two ends of the horizontal plate are bent downwards and form a U-shaped structure with the bottom surface of the horizontal plate to form supporting legs; two sides of the horizontal plate are bent upwards and perpendicular to the upper surface of the horizontal plate to form a side baffle structure; a plurality of arc-shaped supporting clamping plates matched with the arc-shaped surface of the condensing tank are sequentially arranged on the horizontal plate along the extension direction;

the support subframe comprises a connecting substrate, a support plate and an elastic module; the connecting base plates are provided with a pair of connecting base plates which are arranged in parallel, the bottom ends of the connecting base plates are in an arc structure and are arranged on the upper surface of the condensing tank in a matching way with the outer surface of the condensing tank, and a plurality of positioning bolt holes are formed in the upper surface of the connecting base plates; the supporting plate is horizontally arranged above the connecting substrate and is parallel to the connecting substrate; the supporting plate is connected with the connecting base plate through the elastic module.

Furthermore, the bottom end of the supporting leg is horizontally arranged, and a locking bolt hole is formed in the bottom end of the supporting leg.

Furthermore, the elastic module comprises a connecting bolt and a spring, and the connecting bolt is perpendicular to the connecting base plate and the supporting plate to support the supporting plate; the spring is nested on the outer surface of the connecting bolt, the top end of the spring is connected to the bottom surface of the supporting plate, and the bottom end of the spring is connected to the upper surface of the connecting base plate.

Furthermore, a filter screen is arranged at the air inlet of the condensing tank.

The utility model has the advantages that: the utility model discloses in through adopting the mode of connecting chassis and support subframe matched with, connect the chassis and also can utilize support subframe and condensate tank to cooperate the realization to the support of compressor when supporting the condensate tank.

Through the side at the condensing tank add a liquid storage pot, in the liquid storage pot is sent out to get into from the condensing tank directly to the liquid after the cooling like this, no longer save in the condenser and occupy the condensation area, the effectual cooling rate that improves the condensing tank has improved cooling efficiency.

For the filter screen that condensing tank air inlet department set up, for the baffle that conventional condensing tank adopted, the flow requirement in the condensing tank can be guaranteed in the use of filter screen.

In addition, the supporting sub-frame adopts a double-layer structure of the connecting base plate and the supporting plate and is connected with the elastic module, so that the influence of vibration on the condensing tank is reduced when the compressor acts, and the service life of the whole frame is prolonged.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural diagram of the high-efficiency combined water condenser of the present invention.

Detailed Description

The following examples are presented to enable those skilled in the art to more fully understand the present invention and are not intended to limit the scope of the present invention.

As shown in figure 1, the high-efficiency combined water condenser comprises a connecting underframe 1 and a supporting subframe 2, wherein a condensing tank 3 and a liquid storage tank 5 are arranged on the upper surface of the connecting underframe 1, the supporting subframe 2 is arranged on the condensing tank 3 and the liquid storage tank 5, and a compressor 4 is arranged on the supporting subframe 2. By additionally arranging the liquid storage tank 5 beside the condensation tank 3, the cooled liquid is directly sent out from the condensation tank 3 to enter the liquid storage tank 5 and is not stored in the condenser 3 to occupy the condensation area, so that the cooling speed of the condensation tank is effectively increased, and the cooling efficiency is improved.

A strainer 31 is provided at the air inlet of the condensation tank 3. For the filter screen 31 arranged at the air inlet of the condensing tank 3, compared with an air baffle plate adopted by a conventional condensing tank, the use of the filter screen 31 can ensure the flow requirement in the condensing tank.

Connect chassis 1 including the horizontal plate, supporting legs 12 and side shield 13, the horizontal plate, supporting legs 12 and side shield 13 tailor the bending formation for whole shaping plate structure, the both ends of horizontal plate bend downwards and be U type structure formation supporting legs 12 between the bottom surface of horizontal plate, the both sides of horizontal plate along upwards bend with horizontal plate upper surface vertical form side shield 13 structure, along extending direction set gradually a plurality ofly with 3 arcwall face complex arc support cardboard of condensate tank on the horizontal plate.

The support sub-frame 2 includes a connection substrate 21, a support plate 22, and an elastic module 23; connecting substrate 21 has a pair ofly and parallel arrangement each other, connecting substrate 21's bottom is arc structure and condensing tank 3's surface cooperation setting on condensing tank 3's upper surface, it has a plurality of positioning bolt holes to open on connecting substrate 21's the upper surface, backup pad 22 level setting just connecting substrate 21's top backup pad 22 is parallel with connecting substrate 21, links to each other through elasticity module 23 between backup pad 22 and the connecting substrate 21.

The bottom end of the supporting leg 12 is horizontally arranged and a locking bolt hole is arranged on the bottom end of the supporting leg 12.

The elastic module 23 includes a connection bolt perpendicular to the connection substrate and the support plate 22 to support the support plate 22, and a spring 231; the spring 231 is nested on the outer surface of the connection bolt, the top end of the spring 231 is connected to the bottom surface of the support plate 22, and the bottom end of the spring 231 is connected to the upper surface of the connection base plate 21.

It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (4)

1. A high-efficiency combined water condenser is characterized in that: comprises a connecting underframe and a supporting subframe; a condensing tank and a liquid storage tank are arranged on the upper surface of the connecting underframe in parallel; the support subframe is arranged on the condensing tank and the liquid storage tank; a compressor is arranged on the supporting auxiliary frame;

the connecting underframe comprises a horizontal plate, supporting legs and side baffles; the horizontal plate, the supporting legs and the side baffle are formed by cutting and bending an integrally formed flat plate structure; the two ends of the horizontal plate are bent downwards and form a U-shaped structure with the bottom surface of the horizontal plate to form supporting legs; two sides of the horizontal plate are bent upwards and perpendicular to the upper surface of the horizontal plate to form a side baffle structure; a plurality of arc-shaped supporting clamping plates matched with the arc-shaped surface of the condensing tank are sequentially arranged on the horizontal plate along the extension direction;

the support subframe comprises a connecting substrate, a support plate and an elastic module; the connecting base plates are provided with a pair of connecting base plates which are arranged in parallel, the bottom ends of the connecting base plates are in an arc structure and are arranged on the upper surface of the condensing tank in a matching way with the outer surface of the condensing tank, and a plurality of positioning bolt holes are formed in the upper surface of the connecting base plates; the supporting plate is horizontally arranged above the connecting substrate and is parallel to the connecting substrate; the supporting plate is connected with the connecting base plate through the elastic module.

2. A high efficiency combined water condenser as set forth in claim 1 wherein: the bottom of supporting legs level sets up and is provided with the locking bolt hole on the bottom of supporting legs.

3. A high efficiency combined water condenser as set forth in claim 1 wherein: the elastic module comprises a connecting bolt and a spring, and the connecting bolt is perpendicular to the connecting base plate and the supporting plate to support the supporting plate; the spring is nested on the outer surface of the connecting bolt, the top end of the spring is connected to the bottom surface of the supporting plate, and the bottom end of the spring is connected to the upper surface of the connecting base plate.

4. A high efficiency combined water condenser as set forth in claim 1 wherein: and a filter screen is arranged at the air inlet of the condensing tank.

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