CN105352146B - A kind of Turbogrid plates Formula V type heat-exchanger rig - Google Patents

Abstract

The invention discloses a kind of Turbogrid plates Formula V type heat-exchanger rigs, including V-type heat exchange cabinet, the air exhausting device of V-type heat exchange top of the box is set, and it is arranged in the intracorporal Turbogrid plates of V-type heat exchange box, the Turbogrid plates are set to the lower section of the air exhausting device, and the Turbogrid plates and V-type heat exchange top of the box fastening.It by the setting of Turbogrid plates, can be acted in the flow blockage of Turbogrid plates, so that the convection velocity at the top of heat-exchanger rig suitably reduces, and the convection velocity of bottom increases.And then the negative pressure formed under the action of air exhausting device is uniformly distributed on V-type heat exchange cabinet, improve the working efficiency of V-type heat exchange cabinet bottom end, to realize the homogenization of Convective wind speed, and then realize that heat exchange efficiency is more uniform everywhere in V-type heat exchange cabinet.

Description

A kind of Turbogrid plates Formula V type heat-exchanger rig

Technical field

The present invention relates to technical field of central air more particularly to a kind of Turbogrid plates Formula V type heat-exchanger rigs.

Background technique

Air conditioner refrigerating technology has indispensable role in terms of people's daily life and business application.With the energy Consumption and in short supply, energy-saving and emission-reduction become the importance in China's process of economic development.Air conditioner refrigerating technology daily It is mainly used for the room refrigeration of summer in life, Partial Food processing enterprise is also required to freezer and carries out food fresh keeping.China's air-conditioning The consumed energy is larger, and energy shortage can be effectively relieved in the refrigerating efficiency by improving air-conditioning, achieves energy-saving and emission reduction purposes. The V-type heat exchanger of central air-conditioning is the important component that air-conditioning and outdoor environment carry out heat exchange, and heat exchange efficiency will directly affect To the operational efficiency of air-conditioning entirety.As shown in Figure 1, V-type heat exchanger angle is generally 50~60 degree at present, pass through the fan at top Carry out suction cross-ventilation heat exchange.By testing and emulating number it has been found that the convection velocity at the top of V-type heat exchanger is larger, and The semiconvection wind speed of bottom end is smaller, and heat exchange efficiency is extremely inefficient, even hardly works.In order to optimize V-type heat exchanger The purpose that heat exchange efficiency improves is realized, it is therefore desirable to explore novel V-type heat exchanger structure in flow field.

Summary of the invention

It is high that the purpose of the present invention is to provide a kind of heat exchange efficiencies, and exchange heat uniform Turbogrid plates Formula V type heat-exchanger rig.

To achieve this purpose, the present invention adopts the following technical scheme:

Beneficial effects of the present invention: the present invention includes

Including V-type heat exchange cabinet, the row of V-type heat exchange top of the box is arranged in a kind of Turbogrid plates Formula V type heat-exchanger rig Wind apparatus, and be arranged in the intracorporal Turbogrid plates of V-type heat exchange box, the Turbogrid plates are set under the air exhausting device Side, and the Turbogrid plates and V-type heat exchange top of the box fastening.

Wherein, the Turbogrid plates include preceding Turbogrid plates and rear Turbogrid plates, between the preceding Turbogrid plates and the rear Turbogrid plates It is provided with angle.

Wherein, the angle being arranged between the preceding Turbogrid plates and the rear Turbogrid plates is set as acute angle.

Wherein, the preceding Turbogrid plates be arranged in V-type heat exchange cabinet preceding heat exchanger plates be disposed adjacent, it is described after Turbogrid plates with The rear heat exchanger plates that V-type heat exchange cabinet is arranged in are disposed adjacent.

Wherein, the preceding Turbogrid plates with it is described after Turbogrid plates structure is identical and equal length.

Wherein, the length of the preceding Turbogrid plates and the rear Turbogrid plates is respectively less than the preceding heat exchanger plates and the rear heat exchanger plates Length.

Wherein, the preceding Turbogrid plates and the rear Turbogrid plates extend through and are provided with airflow hole.

Beneficial effects of the present invention: the present invention includes V-type heat exchange cabinet, the row that V-type heat exchange top of the box is arranged in Wind apparatus, and be arranged in the intracorporal Turbogrid plates of V-type heat exchange box, the Turbogrid plates are set under the air exhausting device Side, and the Turbogrid plates and V-type heat exchange top of the box fastening.It, can be in the flowing of Turbogrid plates by the setting of Turbogrid plates Retardation, so that the convection velocity at the top of heat-exchanger rig suitably reduces, and the convection velocity of bottom increases.And then it is filled in air draft The negative pressure formed under the action of setting is uniformly distributed on V-type heat exchange cabinet, improves the work effect of V-type heat exchange cabinet bottom end Rate to realize the homogenization of Convective wind speed, and then realizes that heat exchange efficiency is more uniform everywhere in V-type heat exchange cabinet.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of V-type heat-exchanger rig under the prior art.

Fig. 2 is a kind of structural schematic diagram of Turbogrid plates Formula V type heat-exchanger rig of the present invention.

Fig. 3 is the inside partial structural diagram of Fig. 2.

Fig. 4 is the sectional view of Fig. 2.

Specific embodiment

To further illustrate the technical scheme of the present invention below with reference to the accompanying drawings and specific embodiments.

As shown in Figures 2 to 4, a kind of Turbogrid plates Formula V type heat-exchanger rig, including V-type heat exchange cabinet 1, setting are in the V-type The air exhausting device 3 of heat exchange top of the box, and be arranged in the intracorporal Turbogrid plates 2 of the V-type heat exchange box, the Turbogrid plates are set to The lower section of the air exhausting device 3, and the Turbogrid plates and V-type heat exchange top of the box fastening.Preferably, air exhausting device 3 is set It is set to fan.

It is further preferred that the Turbogrid plates include preceding 21 plate of grid and rear Turbogrid plates 22, preceding 21 plate of grid and institute It states and is provided with angle between rear Turbogrid plates 22, the angle being arranged between preceding 21 plate of grid and the rear Turbogrid plates 22 is set as Acute angle.

It is further preferred that 21 plate of preceding grid is disposed adjacent with the preceding heat exchanger plates 11 that V-type heat exchange cabinet 1 is arranged in, Turbogrid plates 22 are disposed adjacent with the rear heat exchanger plates 12 that V-type heat exchange cabinet 1 is arranged in after described.

It is further preferred that 21 plate of preceding grid with it is described after 22 structure of Turbogrid plates is identical and equal length.Before described The length of 21 plate of grid and the rear Turbogrid plates 22 is respectively less than the length of the preceding heat exchanger plates 11 and the rear heat exchanger plates 12, described Preceding 21 plate of grid and the rear Turbogrid plates 22 extend through and are provided with airflow hole.

The V-type heat exchanger designed using the above structure is by two panels plate package in inverted triangle V-type arrangement, air passes through Enter inner cavity after forward and backward heat exchanger plates heat exchange, the fan that the hot-air after heat exchange passes through top again is discharged in environment.V-type is changed The difference of hot device and traditional structure is: the angle between preceding heat exchanger plates 11 and 12 is larger, and inner space is larger.Turbogrid plates are bands There is the thin plate of through-flow grid, is mounted on the appropriate seat inside V-type heat exchanger.In the process of running, the air in environment passes through Preceding heat exchanger plates 21 and rear heat exchanger plates 22 enter the inside of heat exchanger cavity.For traditional V-type heat exchanger, top wind speed is big And bottom end wind speed is small.Turbogrid plates Formula V heat exchanger novel for this kind, since the flow blockage of Turbogrid plates acts on, so that heat exchanger The convection velocity at top suitably reduces, and the convection velocity of bottom increases.By the adjustment effect of Turbogrid plates, so that fan is formed Negative pressure be uniformly distributed on heat exchanger, the working efficiency of heat exchanger bottom end is improved, to realize Convective wind speed Homogenization, and then realize that heat exchange efficiency is more uniform everywhere in heat exchanger.By the above form, novel Turbogrid plates Formula V heat exchanger Heat exchange efficiency may make integrally to be promoted.

The technical principle of the invention is described above in combination with a specific embodiment.These descriptions are intended merely to explain of the invention Principle, and shall not be construed in any way as a limitation of the scope of protection of the invention.Based on the explanation herein, the technology of this field Personnel can associate with other specific embodiments of the invention without creative labor, these modes are fallen within Within protection scope of the present invention.

Claims (1)

1. a kind of Turbogrid plates Formula V type heat-exchanger rig, which is characterized in that including V-type heat exchange cabinet, be arranged in the V-type heat exchange box Air exhausting device at the top of body, and be arranged in the intracorporal Turbogrid plates of V-type heat exchange box, the Turbogrid plates are set to the air draft The lower section of device, and the Turbogrid plates and V-type heat exchange top of the box fastening, the Turbogrid plates include preceding Turbogrid plates and rear grid Panel is provided with angle, between the preceding Turbogrid plates and the rear Turbogrid plates between the preceding Turbogrid plates and the rear Turbogrid plates The angle of setting is set as acute angle, and the preceding Turbogrid plates are disposed adjacent with the preceding heat exchanger plates that V-type heat exchange cabinet is arranged in, after described Turbogrid plates are disposed adjacent with the rear heat exchanger plates that V-type heat exchange cabinet is arranged in, the preceding Turbogrid plates and the rear Turbogrid plates structure phase The length of same and equal length, the preceding Turbogrid plates and the rear Turbogrid plates is respectively less than the preceding heat exchanger plates and the rear heat exchanger plates Length, the preceding Turbogrid plates and it is described after Turbogrid plates extend through and be provided with airflow hole.