CN217979711U - Constant temperature and humidity all-in-one machine with double condensation coil pipe structure - Google Patents

Abstract

The utility model provides a constant temperature and humidity all-in-one machine with double condensation coil pipe structures, which comprises a heat insulation shell, wherein a heat exchange cavity is arranged on the left side inside the heat insulation shell, a heat exchanger is arranged in the heat insulation shell, a condensation cavity and an air pipe cavity are arranged below the right side inside the heat insulation shell, a filtering cavity is arranged above the right side inside the heat insulation shell, the condensation cavity is communicated with the heat exchange cavity, and two condensation coils are arranged in the condensation cavity side by side; the air pipe chamber is communicated with the condensation chamber and the filtering chamber, and a centrifugal fan is arranged outside the air pipe chamber and used for enabling air in the heat-preservation shell to flow circularly; the filtering chamber is communicated with the condensing chamber and the heat exchange chamber, and the filter is arranged in the filtering chamber; the gas flow route inside the heat preservation shell is as follows: the air conditioner comprises an air inlet, a heat exchange cavity, a condensation cavity, an air pipe cavity, a filtering cavity, a heat exchange cavity and an air outlet.

Description

Constant temperature and humidity all-in-one machine with double condensation coil pipe structure

Technical Field

The utility model relates to a heat transfer dehumidification equipment makes the field, especially relates to a constant temperature and humidity all-in-one of two condensation coil pipe structures.

Background

In the production of industries such as food, chemical industry, medicine, paper, leather, wood, medicinal materials, agricultural and sideline product processing and the like, a lot of materials or products need to be dried or dried, the existing drying mode can be divided into natural drying and drying room drying, wherein the natural drying is low in cost, but long in drying period and greatly influenced by weather conditions; therefore, some large-scale factory enterprises choose to use the drying room to dry the materials or products.

The temperature, the humidity, the airflow circulation speed and the like in the drying room in the drying process are three main factors influencing the drying quality; the temperature in a common drying room is 50-100 ℃, and a large amount of moisture is evaporated from materials or products in such a high-temperature environment, so that the relative humidity in the drying room is increased; if the dehumidification is not carried out in time, the high-temperature and high-humidity environment not only slows down the drying speed, but also influences the product quality. The method adopted in the past is to install an air inlet window and an exhaust funnel for ventilation and moisture removal; the method has the advantages of low efficiency of cooling and heat extraction, complex pipeline arrangement, more occupied space and high production cost, so a device with better cooling and dehumidifying effects is needed, and the indoor constant temperature and humidity can be kept.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing a constant temperature and humidity all-in-one machine with a double-condensation coil pipe structure.

In order to achieve the above purpose, the utility model adopts the following technical proposal:

a constant temperature and humidity all-in-one machine with a double-condensation coil structure comprises a heat insulation shell, a heat exchanger, a condensation coil, a filter and a centrifugal fan, wherein the heat exchanger, the condensation coil, the filter and the centrifugal fan are arranged in the heat insulation shell;

the heat-insulation shell comprises a first side wall and a second side wall which are opposite, an air inlet is formed in the upper half part of the first side wall, an air outlet is formed in the lower half part of the first side wall, and an air return opening is formed in the top end of the heat-insulation shell; a heat exchange cavity is arranged on the left side inside the heat-insulation shell, the heat exchange cavity is close to the first side wall, the heat exchanger is installed in the heat exchange cavity, a condensation cavity and an air pipe cavity are arranged below the right side inside the heat-insulation shell, a filtering cavity is arranged above the right side inside the heat-insulation shell, the condensation cavity is communicated with the heat exchange cavity, and the number of the condensation coils is two and the condensation coils are installed in the condensation cavity side by side; the air pipe chamber is close to the second side wall and communicated with the condensation chamber and the filtering chamber, the centrifugal fan is arranged on the second side wall and communicated with the air pipe chamber, and the centrifugal fan is used for enabling air in the heat preservation shell to flow circularly; the filtering chamber is communicated with the condensing chamber and the heat exchange chamber, and the filter is arranged in the filtering chamber;

the gas flow route inside the heat preservation shell is as follows: the air conditioner comprises an air inlet, a heat exchange cavity, a condensation cavity, an air pipe cavity, a filtering cavity, a heat exchange cavity and an air outlet.

Preferably, the heat exchanger comprises four heat exchange surfaces facing the air inlet, the condensation chamber, the filtration chamber and the air outlet, respectively, and configured to circulate air between the chambers.

Preferably, the two condensing coils are connected in series side by side, and air flowing out of the heat exchanger is condensed and dehumidified through the two condensing coils in sequence.

Preferably, the air pipe of tuber pipe cavity bottom mouth of pipe convulsions, top mouth of pipe air supply for with the air suction of heat transfer cavity bottom end condensation cavity, with the filtration cavity of the air suction of condensation cavity to the top again.

Preferably, an arc-shaped guide plate is arranged in the filtering chamber.

Preferably, the filter is secured adjacent a side of the filtration chamber adjacent the heat exchange chamber.

Preferably, the filter is an F9 filter.

Preferably, the centrifugal fan is installed on the second side wall and located outside the heat-insulating housing.

Preferably, the centrifugal fan is located inside the heat preservation shell, and a fan chamber is added beside the second side wall and used for placing the centrifugal fan.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses a constant temperature and humidity all-in-one of two condensation coil pipe structures, gas heat exchange has been integrated, the condensation dehumidification, gas filtration and constant temperature air supply function in an organic whole, adopt two condensation coil pipe structures, install in the bottom side by side for the air can obtain more abundant more excellent condensation dehumidification effect, and the top leaves enough space installation filters and carries out air quality purification, avoid the air to receive secondary pollution, the structure planning is reasonable, save space, simplify the piping erection and can strengthen cooling dehumidification effect.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural view of a constant temperature and humidity all-in-one machine with a double-condensation coil structure and a centrifugal fan outside;

fig. 2 is a schematic structural diagram of a constant temperature and humidity all-in-one machine with a double-condensation coil structure and a centrifugal fan.

Detailed Description

In order to further understand the objects, structures, features and functions of the present invention, the following embodiments are described in detail.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1 and fig. 2, a constant temperature and humidity all-in-one machine with a double-condensing coil 3 structure includes a heat-insulating housing 1, and a heat exchanger 2, a condensing coil 3, a filter 4 and a centrifugal fan 5 which are installed inside the heat-insulating housing 1.

The heat preservation shell 1 comprises a first side wall 11 and a second side wall 12 which are opposite, an air inlet 111 is arranged at the upper half part of the first side wall 11, an air outlet 112 is arranged at the lower half part of the first side wall 11, and an air return opening 113 is arranged at the top end of the heat preservation shell 1; a heat exchange chamber 101 is arranged on the left side in the heat-insulating shell 1, the heat exchange chamber 101 is close to the first side wall 11, the heat exchanger 2 is installed in the heat exchange chamber 101, a condensation chamber 102 and an air pipe chamber 103 are arranged below the right side in the heat-insulating shell 1, a filtering chamber 104 is arranged above the right side in the heat-insulating shell 1, the condensation chamber 102 is communicated with the heat exchange chamber 101, and two condensation coils 3 are installed in the condensation chamber 102 side by side; the air pipe chamber 103 is close to the second side wall 12 and is communicated with the condensation chamber 102 and the filtering chamber 104, the centrifugal fan 5 is installed on the second side wall 12 and is communicated with the air pipe chamber 103, and the centrifugal fan 5 is used for enabling air inside the heat preservation shell 1 to flow circularly; the filtering chamber 104 is communicated with the condensing chamber 102 and the heat exchange chamber 101, and the filter 4 is arranged in the filtering chamber 104;

the flow route of the gas in the heat preservation shell 1 is as follows: the air inlet 111, the heat exchange chamber 101, the condensation chamber 102, the air duct chamber 103, the filtering chamber 104, the heat exchange chamber 101, and the air outlet 112.

When the constant temperature and humidity all-in-one machine is used, the constant temperature and humidity all-in-one machine is arranged outside a drying room or other rooms needing to keep constant temperature and humidity, an air inlet 111 of the constant temperature and humidity all-in-one machine is connected with an air outlet of the drying room, an air outlet 112 of the constant temperature and humidity all-in-one machine is connected with an air inlet of the drying room, indoor air is sent into the constant temperature and humidity all-in-one machine through the air inlet 111 by the air outlet of the drying room, firstly passes through a heat exchange chamber 101, primarily exchanges heat under the action of a heat exchanger 2, then enters a condensation chamber 102, and is condensed in sequence through a double-row condensation coil pipe 3, so that redundant water in the constant temperature and humidity all-in machine is analyzed while the air temperature is reduced, and the effects of cooling and dehumidifying are achieved; the condensed gas is conveyed through the air pipe chamber 103 and then reaches the filtering chamber 104, is filtered by the filter 4 and then enters the heat exchange chamber 101 again, and directly returns to the drying room from the air outlet 112 after being subjected to heat exchange again through the heat exchanger 2; air circulation in the constant temperature and humidity all-in-one machine depends on the centrifugal fan 5 to suck.

The utility model discloses a constant temperature and humidity all-in-one adopts two condensing coil 3 structures, sets up two condensing coil 3 to place two condensing coil 3 side by side, make the air of heat transfer directly get into the cool chamber of congealing in the follow heat transfer cavity 101, and two cool coil condensations of congealing in the continuous process, can obtain better cooling and the effect of dehumidification.

In one embodiment, the heat exchanger 2 includes four heat exchange surfaces facing the air inlet 111, the condensation chamber 102, the filtering chamber 104 and the air outlet 112, respectively, and configured to circulate air between the chambers, so as to ensure that air can circulate between the heat exchange chamber 101, the condensation chamber 102, the duct chamber 103 and the filtering chamber 104.

In an embodiment, series connection side by side between two condensing coil 3, the air that flows out from heat exchanger is dehumidified through two condensing coil 3 condensations in proper order, adopts the design of two condenser pipes, and the series connection installation, simple to operate for air condensation area enlarges, obtains better condensation dehumidification effect.

In one embodiment, the air pipe chamber 103 draws air from the bottom end pipe opening of the air pipe and blows air from the top end pipe opening of the air pipe to draw air from the heat exchange chamber 101 to the bottom condensation chamber 102, and then draws air from the condensation chamber 102 to the filtering chamber 104 above the condensation chamber, and the air circulation is realized by the centrifugal fan 5 and the air pipe connected to the centrifugal fan.

Further, an arc-shaped guide plate 6 is arranged in the filtering chamber 104, so that air sucked from the bottom can flow to the filter 4 along the radian of the arc-shaped guide plate 6, and enters the heat exchange chamber 101 after being filtered by the filter 4.

In an embodiment, the filter 4 is fixed next to the side of the filtering chamber 104 close to the heat exchange chamber 101, so that all air must be filtered through the filter 4 before entering the heat exchange chamber 101, preventing the air from being secondarily contaminated. Preferably, the filter 4 is an F9 filter 4, the filtration level of which is selected according to the actual usage requirements.

In one embodiment, the centrifugal fan 5 is mounted on the second side wall 12 and located outside the thermal insulation shell 1, so that the installation and maintenance are convenient.

In another preferred embodiment, the centrifugal fan 5 is located inside the thermal insulation casing 1, the fan chamber 105 is added beside the second side wall 12 for placing the centrifugal fan 5, and the centrifugal fan 5 is placed inside the thermal insulation casing 1 to effectively isolate the sound generated during the operation of the thermal insulation casing 1, thereby achieving a good silencing effect.

The utility model provides a pair of constant temperature and humidity all-in-one of two condensation coil pipe structures, gas heat exchange has been integrated, the condensation dehumidification, gas filtration and constant temperature air supply function in an organic whole, adopt two condensation coil pipe structures, install in the bottom side by side, make the air can obtain more abundant more excellent condensation dehumidification effect, and the top leaves enough space installation filter and carries out air quality purification, avoid the air to receive secondary pollution, the structure planning is reasonable, save space, simplify the piping erection and can strengthen cooling dehumidification effect.

The present invention has been described in relation to the above embodiments, which are only examples for implementing the present invention. It should be noted that the disclosed embodiments do not limit the scope of the invention. On the contrary, the invention is not to be limited by the spirit and scope of the appended claims.

Claims (9)

1. The utility model provides a constant temperature and humidity all-in-one of two condensation coil pipe structures which characterized in that: the heat-preserving device comprises a heat-preserving shell, and a heat exchanger, a condensing coil, a filter and a centrifugal fan which are arranged in the heat-preserving shell;

the heat-insulation shell comprises a first side wall and a second side wall which are opposite, an air inlet is formed in the upper half part of the first side wall, an air outlet is formed in the lower half part of the first side wall, and an air return opening is formed in the top end of the heat-insulation shell; a heat exchange cavity is arranged on the left side inside the heat-insulation shell, the heat exchange cavity is close to the first side wall, the heat exchanger is installed in the heat exchange cavity, a condensation cavity and an air pipe cavity are arranged below the right side inside the heat-insulation shell, a filtering cavity is arranged above the right side inside the heat-insulation shell, the condensation cavity is communicated with the heat exchange cavity, and the number of the condensation coils is two and the condensation coils are installed in the condensation cavity side by side; the air pipe chamber is close to the second side wall and communicated with the condensation chamber and the filtering chamber, the centrifugal fan is arranged on the second side wall and communicated with the air pipe chamber, and the centrifugal fan is used for enabling air in the heat preservation shell to flow circularly; the filtering chamber is communicated with the condensing chamber and the heat exchange chamber, and the filter is arranged in the filtering chamber;

the gas flow route inside the heat preservation shell is as follows: the air conditioner comprises an air inlet, a heat exchange cavity, a condensation cavity, an air pipe cavity, a filtering cavity, a heat exchange cavity and an air outlet.

2. The thermostatic and humidistatic all-in-one machine with the double-condensation coil pipe structure as claimed in claim 1, wherein: the heat exchanger comprises four heat exchange surfaces facing the air inlet, the condensation chamber, the filtration chamber and the air outlet respectively and used for circulating air among the chambers.

3. The thermostatic and humidistatic all-in-one machine with the double-condensation coil pipe structure as claimed in claim 1, wherein: the two condensing coils are connected in series side by side, and air flowing out of the heat exchanger is condensed and dehumidified by the two condensing coils in sequence.

4. The thermostatic and humidistatic all-in-one machine with the double-condensation coil pipe structure as claimed in claim 1, wherein: the air pipe bottom mouth of pipe convulsions, the air supply of top mouth of pipe of tuber pipe cavity for with the air suction of heat transfer cavity bottom condensation cavity, with the filtration cavity of the air suction top of condensation cavity again.

5. The thermostatic and humidistatic all-in-one machine with the double-condensation coil pipe structure as claimed in claim 4, wherein: an arc-shaped guide plate is arranged in the filter cavity.

6. The thermostatic and humidistatic all-in-one machine with the double-condensation coil pipe structure as claimed in claim 5, wherein: the filter is fixed next to one side of the filtering chamber close to the heat exchange chamber.

7. The thermostatic and humidistatic all-in-one machine with the double-condensation coil pipe structure as claimed in claim 6, wherein: the filter is an F9 filter.

8. The thermostatic and humidistatic all-in-one machine with the double-condensation coil pipe structure as claimed in claim 1, wherein: the centrifugal fan is installed on the second side wall and located outside the heat preservation shell.

9. The thermostatic and humidistatic all-in-one machine with the double-condensation coil pipe structure as claimed in claim 1, wherein: the centrifugal fan is located inside the heat preservation shell, and a fan cavity is additionally arranged beside the second side wall and used for placing the centrifugal fan.

Images