CN211526756U - Not altogether wind V type forced air cooling module unit frame - Google Patents

Abstract

The utility model relates to a not be altogether wind V type forced air cooling module unit frame, including the frame main part, the frame main part includes chassis component, and chassis component four corners department respectively installs a stand, is connected with the crossbeam between the middle part of stand, installs the heat exchanger base between the crossbeam, installs the bounding wall between crossbeam and the chassis component, installs the electrical apparatus case between the bounding wall, the top installation back timber subassembly of stand. The utility model has simple structure and small occupied space, and the two cavities can monitor the temperature of each system fin through the left temperature sensor and the right temperature sensor respectively so as to achieve the purpose of independent defrosting, ensure that each system is adjusted more accurately, reduce power consumption and improve energy efficiency; the heat exchanger adopts V type (need not to bend) mounting means and for UV type heat exchanger (need bend) more can save the material and reduce unit cost installation convenient.

Description

Not altogether wind V type forced air cooling module unit frame

Technical Field

The utility model belongs to the technical field of air-cooled module unit equipment, a not altogether wind V type air-cooled module unit frame is related to.

Background

The air cooling module unit is divided into a single cooling type and a heat pump type, wherein the heat pump type air cooling module unit integrates the functions of refrigeration and heating, can supply cold and heat, can realize refrigeration in summer and heating in winter, and has multiple purposes. Therefore, the air-cooled heat pump unit is usually a scheme preferentially selected in the heating and ventilation engineering design which does not have a heat supply boiler, a heat supply heat network or other stable and reliable heat sources and requires a year-round air conditioner, can form a semi-centralized air conditioning system together with a fan coil or a cabinet type, a ceiling type air processor and a fresh air unit, and has the characteristics of attractive appearance, flexible installation, building space saving, convenient adjustment, independent start and stop, low operation noise and the like.

Usually air-cooled module unit is multisystem (dual system or four systems) unit, each system corresponds a fin type heat exchanger, its fin type heat exchanger is mostly V type or UV type installation and corresponds many fans, the unit that this kind of mounting means designed all is the formula unit of calming the anger altogether, this kind of unit often can't independently change frost, adjusting error is big, and the pipeline of its V type heat exchanger all is outside easy maintenance of cavity and UV type pipeline all is inboard at the cavity, need the people to climb into the cavity during maintenance, the operation degree of difficulty is big, the maintenance is difficult.

Disclosure of Invention

An object of the utility model is to provide a wind V type forced air cooling module unit frame not altogether can solve the problem that can't independently change frost, adjusting error is big, and thereby can effectively improve unit availability factor and practice thrift the material reduce cost installation that wind traded copper pipe and fin.

According to the utility model provides a technical scheme: an outer frame of a non-co-air V-shaped air-cooled module unit comprises a frame main body, wherein the frame main body comprises a chassis assembly, four corners of the chassis assembly are respectively provided with a stand column, a cross beam is connected between the middle parts of the stand columns, a heat exchanger base is installed between the cross beams, a coaming is installed between the cross beam and the chassis assembly, an electrical box is installed between the coamings, a top beam assembly is installed at the top of the stand column, air exchange connecting plates are installed on two sides of the top beam assembly, air exchange installation outer plates are installed between two sides of the heat exchanger base and two sides of the top beam assembly, an air exchange partition plate is installed between the middle part of the heat exchanger base and the middle part of the top beam assembly, an air exchange cavity is formed between the air exchange installation outer plates, the air exchange cavity is divided into a left air exchange cavity and a right air exchange cavity by the air exchange partition plate, the air conditioner is characterized in that temperature sensors are mounted on the fin type heat exchangers, a gas collection outlet pipe assembly and a liquid pipe assembly are respectively arranged between the fin type heat exchangers at the front end and the rear end of the left air exchange cavity and between the fin type heat exchangers at the front end and the rear end of the right air exchange cavity, and a left fan port plate and a right fan port plate are respectively arranged above the left air exchange cavity and the right air exchange cavity.

As a further improvement of the utility model, the heat exchanger base is the type of falling V, heat exchanger base bottom both ends are the crossbeam connecting portion, crossbeam connecting portion with the crossbeam can adopt welded connection, all open the wind outside the heat exchanger base and trade installation planking connecting thread hole, it trades baffle connecting thread hole to open between the wind trades installation planking connecting thread hole.

As a further improvement of the utility model, wind trades connecting plate includes the back timber connecting plate, the back timber connecting plate is connected wind and is traded the mounting panel, be equipped with back timber connection screw in the back timber connecting plate, wind is traded and is equipped with wind in the mounting panel and trade and connect the screw.

As a further improvement, the gas collection exit tube subassembly includes that the tee bend goes into the trachea, the tee bend goes into the trachea both sides and connects the outlet duct, the tee bend goes into to open on the trachea and has gone into the gas port, it has the gas outlet to open on the outlet duct, go into the gas port and connect external air supply, the gas outlet is connected the fin type heat exchanger.

As a further improvement, the liquid pipe assembly both sides set up the drain pipe, be equipped with the fluid-discharge tube in the middle of the liquid pipe assembly, the liquid outlet is connected fin type heat exchanger, external runner is connected to the leakage fluid dram.

As a further improvement, the outer side of the chassis component is provided with a hoisting ring.

As a further improvement of the utility model, the wind trades the installation planking with the wind trades the baffle and all is the V type.

As a further improvement of the utility model, the finned heat exchanger both sides are connected wind respectively and are traded the installation planking with wind trades the baffle.

As a further improvement, the middle part of the long edge of the chassis component and the middle support between the cross beams are also installed

As a further improvement of the utility model, the cross beam and the top beam component are provided with an upper middle support.

Compared with the prior art, the utility model, have following advantage:

the utility model has simple structure and small occupied space; the two chambers can respectively control the input quantity of respective refrigerants through the feedback of the left temperature sensor and the right temperature sensor so as to achieve the purpose of independently defrosting, enable the adjustment of each system to be more accurate, reduce the power consumption and improve the energy efficiency; the heat exchanger adopts V type (need not to bend) mounting means and for UV type heat exchanger (need bend) more can save the material and reduce unit cost installation convenient.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the heat exchanger base of the present invention.

Fig. 3 is a schematic structural view of the top beam assembly of the present invention.

Fig. 4 is a schematic structural view of the wind exchanging connection plate of the present invention.

Fig. 5 is a schematic structural view of the gas collection outlet tube assembly of the present invention.

Fig. 6 is a schematic structural view of the liquid pipe assembly of the present invention.

Fig. 7 is the structural schematic diagram of the finned heat exchanger of the present invention.

Detailed Description

The following description will further describe embodiments of the present invention with reference to the accompanying drawings.

In the figures 1-7, the heat exchanger comprises a chassis component 1, a vertical column 2, a cross beam 3, an upper middle support 4, a lower middle support 5, a coaming 6, an electrical box 7, a heat exchanger base 8, a cross beam connecting part 8-1, a wind exchange mounting outer plate connecting threaded hole 8-2, a wind exchange clapboard connecting threaded hole 8-3, a wind exchange mounting outer plate 9, a wind exchange clapboard 10, a wind exchange connecting plate 11, a top beam connecting plate 11-1, a wind exchange mounting plate 11-2, a top beam connecting threaded hole 11-3, a wind exchange upper connecting threaded hole 11-4, a top beam component 12, a fan mouth plate 13, a header fixing frame 14, a gas collection outlet pipe component 15, a three-way gas inlet pipe 15-1, a gas outlet pipe 15-2, a liquid pipe component 16, a liquid outlet pipe 16-1, a liquid discharge pipe 16-2, a fin type heat.

As shown in fig. 1, the utility model relates to a not altogether wind V type forced air cooling module unit frame, including the frame main part, as shown in fig. 7, the frame main part includes chassis subassembly 1, stand 2, crossbeam 3, bounding wall 6, electrical apparatus case 7, back timber subassembly 12 and fan oral area 13. The chassis component 1 is rectangular, a stand column 2 is respectively installed at four corners of the chassis component, a cross beam 3 is connected between the middle parts of the stand columns 2, and the heat exchanger base 8 is located between the cross beams 3 on two sides.

As shown in FIG. 2, the heat exchanger base 8 is in an inverted V shape, the two ends of the bottom of the heat exchanger base 8 are provided with beam connecting parts 8-1, and the beam connecting parts 8-1 and the beam 3 can be connected by welding. The outer sides of the heat exchanger bases 8 are provided with wind exchange mounting outer plate connecting threaded holes 8-2, and wind exchange partition plate connecting threaded holes 8-3 are formed between the wind exchange mounting outer plate connecting threaded holes 8-2 on the two sides.

A system cavity is formed between the heat exchanger base 8 and the chassis assembly 1. Install bounding wall 6 between crossbeam 3 and chassis subassembly 1, it has a plurality of ventilative louvres to open on bounding wall 6, and ventilative louvre can be for being the strip of crisscross distribution, installs electrical apparatus case 7 between bounding wall 6.

The top beam assembly 12 is installed at the top of the upright column 2, the wind exchanging connection plates 11 are installed at two sides of the top beam assembly 12, as shown in fig. 4, the wind exchanging connection plates 11 are bent plates, each wind exchanging connection plate 11 comprises a top beam connection plate 11-1, the top beam connection plate 11-1 is connected with the wind exchanging upper installation plate 11-2, a top beam connection screw hole 11-3 is formed in the top beam connection plate 11-1, and a wind exchanging upper connection screw hole 11-4 is formed in the wind exchanging upper installation plate 11-2. And the bolt penetrates through the top beam connecting screw hole 11-3 and then is connected with the top beam assembly 12, so that the connection between the wind exchanging connection plate 11 and the side surface of the top beam assembly 12 is completed.

An air exchange installation outer plate 9 is installed between two sides of the heat exchanger base 8 and two sides of the top beam assembly 12, a bolt penetrates through an air exchange installation outer plate connecting threaded hole 8-2 and then is connected with the bottom of the air exchange installation outer plate 9, the heat exchanger base 8 is connected with the air exchange installation outer plate 9, and the upper portion of the air exchange installation outer plate 9 is connected with two sides of the top beam assembly 12.

An air exchange partition plate 10 is arranged between the middle of the heat exchanger base 8 and the middle of the top beam assembly 12, a bolt penetrates through an air exchange partition plate connecting threaded hole 8-3 and then is connected with the bottom of the air exchange partition plate 10, the heat exchanger base 8 is connected with the air exchange partition plate 10, and the upper portion of the air exchange installation outer plate 9 is connected with the middle of the top beam assembly 12.

An air exchange cavity is formed between the air exchange installation outer plates 9 on the two sides, and the air exchange cavity is divided into a left air exchange cavity and a right air exchange cavity by an air exchange partition plate 10.

The wind trades installation planking 9 and wind trades baffle 10 and all is the V type.

The front end and the rear end of the left air exchange cavity and the right air exchange cavity are both provided with a finned heat exchanger 17, the finned heat exchanger 17 is provided with a temperature sensor, and the two sides of the finned heat exchanger 17 are respectively connected with an air exchange installation outer plate 9 and an air exchange partition plate 10.

And a gas collection outlet pipe assembly 15 and a liquid pipe assembly 16 are respectively arranged between the two sides of the finned heat exchanger 17 at the front end and the rear end of the left air exchange cavity. And a gas collection outlet pipe assembly 15 and a liquid pipe assembly 16 are respectively arranged between the two sides of the finned heat exchanger 17 at the front end and the rear end of the right air exchange cavity.

As shown in fig. 5, the gas collection outlet pipe assembly 15 includes a three-way inlet pipe 15-1, and two sides of the three-way inlet pipe 15-1 are connected with an outlet pipe 15-2. The three-way air inlet pipe 15-1 is provided with an air inlet, and the air outlet pipe 15-2 is provided with an air outlet. The air inlet is connected with an external air source, and the air outlet is connected with the fin type heat exchangers 17 at two sides.

As shown in FIG. 6, the liquid pipe assembly 16 is a U-shaped structure, liquid outlet pipes 16-1 are arranged at both sides of the liquid pipe assembly 16, and liquid outlet pipes 16-2 are arranged in the middle of the liquid pipe assembly 16. The liquid outlet pipe 16-1 is connected with the fin type heat exchangers 17 at two sides, and the liquid outlet pipe 16-2 is connected with an external flow channel.

A left fan port plate 13 and a right fan port plate 13-1 are respectively arranged above the left air exchange cavity and the right air exchange cavity. The left fan port plate 13 and the right fan port plate 13-1 are both installed in the top beam assembly 12.

In order to ensure the stability of the structure, a lower middle support 5 is also arranged between the middle part of the long side of the chassis component 1 and the cross beam 3; an upper middle support 4 is arranged between the cross beam 3 and the top beam assembly 12 and above the corresponding lower middle support 5.

The outer side of the chassis component 1 is provided with a hoisting ring 18, which is convenient for the transportation of the frame.

The working process of the utility model is as follows:

the refrigerant enters the finned heat exchanger 17 from the air inlet of the three-way air inlet pipe 15-1 in a gas state, natural wind outside the finned heat exchanger 17 and independent draught fan at the top form air flow, so that the gas refrigerant flowing into the air exchange assembly is condensed into liquid, flows into the liquid pipe assembly 16 from the liquid outlet pipe 16-1 arranged at two sides of the liquid pipe assembly 16, flows into an external flow channel from the liquid discharge pipe 16-2, and then flows out of the external flow channel, and the purpose of heat exchange is achieved.

Because the left temperature sensor and the right temperature sensor are respectively arranged on the fin type heat exchangers on the two sides, the two chambers can respectively monitor the temperature of fins of each system through the left temperature sensor and the right temperature sensor, so that the aim of independently defrosting can be fulfilled, each system can be adjusted more accurately, the power consumption is reduced, and the energy efficiency is improved; the heat exchanger adopts V type (need not to bend) mounting means for UV type heat exchanger (need bend) more can save materials and reduce unit cost installation convenient and the pipeline of its V type heat exchanger all is in cavity outside easy maintenance and UV type pipeline all is inboard at the cavity, need the people to climb into the cavity during maintenance, the operation degree of difficulty is big, and the maintenance is difficult.

Claims (10)

1. The utility model provides a not be altogether wind V type forced air cooling module unit frame which characterized in that: the outer frame comprises a frame main body, the frame main body comprises a chassis component (1), four corners of the chassis component (1) are respectively provided with a stand column (2), a cross beam (3) is connected between the middle parts of the stand columns (2), a heat exchanger base (8) is installed between the cross beams (3), a coaming (6) is installed between the cross beams (3) and the chassis component (1), an electrical box (7) is installed between the coamings (6), a top beam component (12) is installed at the top part of the stand column (2), wind exchanging connecting plates (11) are installed at two sides of the top beam component (12), wind exchanging installation outer plates (9) are installed between two sides of the heat exchanger base (8) and two sides of the top beam component (12), a wind exchanging partition plate (10) is installed between the middle part of the heat exchanger base (8) and the middle part of the top beam component (12), and a wind exchanging cavity is formed between, the air exchange partition plate (10) divides an air exchange cavity into a left air exchange cavity and a right air exchange cavity, fin type heat exchangers (17) are mounted at the front and rear ends of the left air exchange cavity and the right air exchange cavity, temperature sensors are mounted on the fin type heat exchangers (17), a gas collection outlet pipe assembly (15) and a liquid pipe assembly (16) are arranged between the fin type heat exchangers (17) at the front and rear ends of the left air exchange cavity and between the fin type heat exchangers (17) at the front and rear ends of the right air exchange cavity respectively, and a left air fan mouth plate (13) and a right air fan mouth plate (13-1) are arranged above the left air exchange cavity and the right air exchange cavity respectively.

2. The V-shaped out-of-common-wind air-cooled modular unit casing of claim 1, wherein: the heat exchanger base (8) is of an inverted V shape, two ends of the bottom of the heat exchanger base (8) are beam connecting portions (8-1), the beam connecting portions (8-1) and the beam (3) can be connected in a welding mode, wind exchange installation outer plate connecting threaded holes (8-2) are formed in the outer side of the heat exchanger base (8), and wind exchange partition plate connecting threaded holes (8-3) are formed between the wind exchange installation outer plate connecting threaded holes (8-2).

3. The V-shaped out-of-common-wind air-cooled modular unit casing of claim 1, wherein: the wind trade connecting plate (11) comprises a top beam connecting plate (11-1), the top beam connecting plate (11-1) is connected with a wind trade mounting plate (11-2), a top beam connecting screw hole (11-3) is arranged in the top beam connecting plate (11-1), and a wind trade connection screw hole (11-4) is arranged in the wind trade mounting plate (11-2).

4. The V-shaped out-of-common-wind air-cooled modular unit casing of claim 1, wherein: the gas collection outlet pipe assembly (15) comprises a three-way gas inlet pipe (15-1), two sides of the three-way gas inlet pipe (15-1) are connected with gas outlet pipes (15-2), a gas inlet is formed in the three-way gas inlet pipe (15-1), a gas outlet is formed in the gas outlet pipes (15-2), the gas inlet is connected with an external gas source, and the gas outlet is connected with the fin type heat exchanger (17).

5. The V-shaped out-of-common-wind air-cooled modular unit casing of claim 1, wherein: liquid outlet pipes (16-1) are arranged on two sides of the liquid pipe assembly (16), a liquid discharge pipe (16-2) is arranged in the middle of the liquid pipe assembly (16), the liquid outlet pipes (16-1) are connected with the fin type heat exchanger (17), and the liquid discharge pipe (16-2) is connected with an external flow channel.

6. The V-shaped out-of-common-wind air-cooled modular unit casing of claim 5, wherein: and a hoisting ring (18) is arranged on the outer side of the chassis component (1).

7. The V-shaped out-of-common-wind air-cooled modular unit casing of claim 1, wherein: the wind trades installation planking (9) and wind trades baffle (10) and all is the V type.

8. The V-shaped out-of-common-wind air-cooled modular unit casing of claim 1, wherein: and two sides of the finned heat exchanger (17) are respectively connected with an air exchange installation outer plate (9) and the air exchange partition plate (10).

9. The V-shaped out-of-common-wind air-cooled modular unit casing of claim 1, wherein: and a lower middle support (5) is further arranged between the middle part of the long edge of the chassis component (1) and the cross beam (3).

10. The V-shaped out-of-common-wind air-cooled modular unit casing of claim 1, wherein: an upper middle support (4) is arranged between the cross beam (3) and the top beam assembly (12).

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