CN213778407U - Airflow drying cabinet - Google Patents
Airflow drying cabinet Download PDFInfo
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- CN213778407U CN213778407U CN202021769952.7U CN202021769952U CN213778407U CN 213778407 U CN213778407 U CN 213778407U CN 202021769952 U CN202021769952 U CN 202021769952U CN 213778407 U CN213778407 U CN 213778407U
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Abstract
The patent discloses an airflow drying cabinet, which comprises a cabinet main body and an air inlet system, wherein a cabinet cavity for placing objects to be dried is formed in the cabinet main body; the cabinet cavity comprises a first air guide channel, one end of the first air guide channel is communicated with the air inlet system, and the other end of the first air guide channel extends to the bottom of the cabinet cavity or is close to the bottom of the cabinet cavity and is provided with an air guide outlet; the first air guide channel is an air guide channel and is arranged on one side of the backrest in the cabinet cavity, or the first air guide channel comprises at least two air guide channels, one air guide channel is arranged on one side close to the left side in the cabinet cavity, and the other air guide channel is arranged on one side close to the right side; the pneumatic drying cabinet does not comprise a heating system. This patent the air current drying cabinet can realize the dry laboratory vessel of the fast speed of room temperature etc..
Description
Technical Field
The utility model relates to an air current drying cabinet, especially an air current drying cabinet who comes dry through the air current belongs to the drying equipment field.
Background
Laboratory utensils need wash the drying after carrying out the experiment, and the laboratory utensils of a great variety, numerous are still need to be deposited after washing the drying, occupy a large amount of spaces in the laboratory. At present, a laboratory generally uses heating equipment such as an oven for drying, and water removal and drying are mainly realized through heating at a higher temperature. However, for glass instruments with measuring instruments, such as volumetric flasks, measuring cylinders, etc., and some plastic vessels which are not resistant to high temperature, the way of drying by heating at high temperature is not suitable. Therefore, the design of the drying equipment capable of drying the experimental ware at room temperature at a high speed has very practical significance.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the technical problem that an air drying cabinet is provided, through the setting to air drying cabinet ventilation system, wind-guiding passageway, wind-guiding export etc. realize the dry laboratory ware of the fast speed of room temperature.
The utility model discloses the technical problem that solve is realized through following technical scheme:
an airflow drying cabinet comprises a cabinet main body 1 and an air inlet system 2, wherein a cabinet cavity 101 for placing objects to be dried is formed in the cabinet main body, at least one cabinet door 102 is arranged on the cabinet main body, the cabinet main body is similar to a cuboid or similar to a cube, the cabinet cavity is similar to a cuboid or similar to a cube, and the air inlet system is arranged outside the cabinet cavity; the cabinet cavity comprises a first air guide channel 104, one end of the first air guide channel is communicated with the air inlet system, and the other end of the first air guide channel extends to the bottom of the cabinet cavity or is close to the bottom of the cabinet cavity and is provided with an air guide outlet 105; the first air guide channel is an air guide channel and is arranged on one side of the backrest in the cabinet cavity, or the first air guide channel comprises at least two air guide channels, one of the at least two air guide channels is arranged on one side of the cabinet cavity close to the left side, and the other air guide channel is arranged on one side of the cabinet cavity close to the right side; the pneumatic drying cabinet does not comprise a heating system.
The bottom of the cabinet main body can be provided with components such as a self-locking roller and the like so as to facilitate the carrying of the airflow drying cabinet, and related contents belong to the prior art and are not described in detail.
The object to be dried can be glass ware, plastic ware and the like, and can also be traditional Chinese medicine and other articles.
The shape of the quasi-cuboid or quasi-cube is a cuboid or quasi-cube, and the shape of the quasi-cuboid or quasi-cube can be close to that of the cuboid or quasi-cube, for example, the vertex angle can be in a circular arc shape. Preferably, the cabinet main body is cuboid or cube. The cabinet main body comprises four faces, the cabinet door is a front face, and two side faces and a back face.
Preferably, when the cabinet door is closed, the cabinet door is sealed with the cabinet main body. Also, the cabinet door is sealed with the cabinet main body part in contact with the cabinet door, preferably, the cabinet door is sealed with the sealing strip arranged on the cabinet main body through the sealing strip on the cabinet door. Preferably, the cabinet door is a self-suction door, and self-suction sealing is realized between the cabinet door and the cabinet main body. Preferably, the cabinet door is made of transparent materials in whole or in part.
Preferably, the cabinet body is provided with at least one air outlet 103. Preferably, the air outlet can be arranged on the back and/or the side of the cabinet main body. Preferably, the air outlet is arranged at more than half of the height of the cabinet main body. Preferably, the air outlet is arranged 2-15 cm away from the top of the cabinet main body. Preferably, the air outlet is arranged 5-10 cm away from the top of the cabinet main body.
Preferably, the air outlet is provided with an air outlet sealing piece capable of sealing with the air outlet.
Preferably, the air inlet system is arranged at the top or the side of the cabinet main body. Further preferably, the air inlet system is arranged at the top of the cabinet main body. Further preferably, the air intake system is arranged in the functional box 4, and an air intake 401 is arranged on a box body of the functional box. Preferably, the air inlet is additionally provided with a filtering unit.
Preferably, the cabinet cavity forms a sealed cabinet cavity except the air outlet and the first air guide channel.
Preferably, the first air guide channel is two air guide channels, one of which is arranged at one side close to the left side in the cabinet cavity, and the other is arranged at one side close to the right side in the cabinet cavity; or the first air guide channel is three air guide channels, one air guide channel is arranged on one side close to the left side in the cabinet cavity, the other air guide channel is arranged on one side close to the right side in the cabinet cavity, and the third air guide channel is arranged on one side of the backrest in the cabinet cavity.
Preferably, the first wind guide channel is made of heat conducting materials. Preferably, the heat conducting material is one or more of stainless steel, aluminum alloy, cast iron, a metal material containing a coating or a composite material containing an inorganic filler.
Preferably, the first air guide channel is not provided with other air outlets except the air guide outlet.
Preferably, the width of at least one air guide channel of the first air guide channel is 10% -100% of the width of the back of the cabinet cavity. Preferably, the width of at least one air guide channel of the first air guide channel is 10% -90% of the width of the back of the cabinet cavity. Preferably, the width of at least one air guide channel of the first air guide channel is 30% -80% of the width of the back of the cabinet cavity.
Preferably, a first air guiding plate 107 is arranged at the air guiding outlet, and a plurality of air guiding holes 108 are formed in the first air guiding plate.
Preferably, one side of the air outlet surface 109 of the first air deflector is a plane, and the air outlet surface is horizontally arranged or obliquely arranged with an included angle of 2-10 degrees; or one side of the air outlet surface of the first air deflector is an arc surface. Preferably, one side of the air outlet surface of the first air deflector is an arc surface.
Preferably, a second air deflector is arranged below the first air deflector, and all or part of the plurality of air guide holes in the first air deflector are not directly opposite to all or part of the plurality of air guide holes in the second air deflector. Preferably, the plurality of air guide holes on the first air guide plate are not directly opposite to the plurality of air guide holes on the second air guide plate. When this is the case, the pneumatic drying effect of the drying box will be better.
Preferably, the height of the airflow drying cabinet main body is 1-2.4 m. Preferably, the height of the airflow drying cabinet main body is 1.2-2 m. Preferably, the height of the airflow drying cabinet main body is 1.3-1.9 m. Further preferably, the dimensions of the cabinet body of the pneumatic drying cabinet are 0.8m × 0.8m × (1.3-1.9) m.
The beneficial effect of this patent lies in:
1. this patent the air current drying cabinet can realize the dry laboratory vessel of the fast speed of room temperature.
2. Through the design of wind-guiding export, this patent air drying cabinet air drying's effect is better.
Drawings
FIG. 1 is a perspective view of an air flow drying cabinet;
FIG. 2 is a front view of the airflow drying cabinet;
FIG. 3 is a cross-sectional view of the airflow dryer cabinet A-A of FIG. 2;
FIG. 4 is a cross-sectional view of the airflow dryer cabinet B-B of FIG. 3;
fig. 5 is a cross-sectional view of the airflow drying cabinet C-C of fig. 3.
The corresponding relation between each part and the number in the patent drawings is as follows:
the cabinet comprises a cabinet body 1, a cabinet cavity 101, a cabinet door 102, an air outlet 103, a first air guide channel 104, an air guide outlet 105, a storage layer 106, a first air guide plate 107, an air guide hole 108, an air outlet surface 109, a second air guide plate 110, an air inlet system 2, an air supply channel 201, a barrier member 202, a function box 4 and an air inlet 401.
Detailed Description
The present invention will be described in detail with reference to the following embodiments. The following examples will assist those skilled in the art in further understanding the present invention, but are not intended to limit the invention in any way. It should be noted that various changes and modifications can be made by one skilled in the art without departing from the spirit of the invention. These all belong to the protection scope of the present invention.
Example 1
The airflow drying cabinet related to the embodiment is shown in a three-dimensional view, a front view, a sectional view A-A, a sectional view B-B and a sectional view C-C respectively in fig. 1-5, and comprises a cabinet main body 1 and an air inlet system 2, wherein the cabinet main body comprises four faces, a cabinet door is a front face, and two side faces and a back face; a cabinet cavity 101 for placing objects to be dried is formed in the cabinet main body, at least one cabinet door 102 is arranged on the cabinet main body, the cabinet main body is cuboid-like, the cabinet cavity is cuboid-like, and the air inlet system is arranged outside the cabinet cavity; the cabinet main body is provided with at least one air outlet 103; the cabinet cavity comprises a first air guide channel 104, one end of the first air guide channel is connected with an air inlet system through an air supply channel 201, and the other end of the first air guide channel extends to the bottom of the cabinet cavity and is provided with an air guide outlet 105; the first air guide channel is an air guide channel and is arranged on one side of the backrest part in the cabinet cavity, and the first air guide channel is made of heat conduction materials; the width of the first air guide channel is 33% of the width of the back of the cabinet cavity; a first air deflector 107 is arranged at the air guide outlet, and a plurality of air guide holes 108 are formed in the first air deflector; one side of the air outlet surface 109 of the first air deflector is a plane, and the air outlet surface is horizontally arranged; a second air deflector 110 is arranged below the first air deflector, and a plurality of air guide holes on the first air deflector are not directly opposite to a plurality of air guide holes on the second air deflector; at least one material containing layer 106 is arranged in the cabinet cavity; when the cabinet door is closed, the cabinet door and the cabinet main body are sealed; the cabinet cavity forms a sealed cabinet cavity except the air outlet and the first air guide channel; the air inlet system is arranged in the functional box 4 and is arranged at the top of the cabinet main body; an air inlet 401 is arranged on the box body of the function box.
When the drying is carried out at the room temperature of 30 ℃, the volume of a cabinet cavity of the airflow drying cabinet is 1000L, 3 layers are arranged, half of utensils are placed on each layer, and all the utensils are dried within about 9 hours.
Example 2
The airflow drying cabinet according to this embodiment is the same as that in embodiment 1 except that the first air guide plate has an air outlet surface 109 with an arc surface.
All dishes were completely dried for about 8.5h under the same drying conditions as in example 1.
Example 3
The airflow drying cabinet comprises a cabinet main body 1 and an air inlet system 2, wherein a cabinet cavity 101 for placing objects to be dried is formed in the cabinet main body, the cabinet main body is provided with at least one cabinet door 102, the cabinet main body is in a cuboid shape, the cabinet cavity is in a cuboid shape, and the air inlet system is arranged outside the cabinet cavity; the cabinet main body is provided with at least one air outlet 103; the cabinet cavity comprises a first air guide channel 104, one end of the first air guide channel is connected with an air inlet system through an air supply channel 201, and the other end of the first air guide channel extends to the bottom of the cabinet cavity and is provided with an air guide outlet 105; the first air guide channel comprises at least two air guide channels, one air guide channel is arranged on one side close to the left side in the cabinet cavity, the other air guide channel is arranged on one side close to the right side in the cabinet cavity, and the first air guide channel is made of heat conduction materials; the width of the first air guide channel is 50% of the width of the back of the cabinet cavity; a first air deflector 107 is arranged at the air guide outlet, and a plurality of air guide holes 108 are formed in the first air deflector; one side of the air outlet surface 109 of the first air deflector is a plane, and the air outlet surface is horizontally arranged; a second air deflector 110 is arranged below the first air deflector, and a plurality of air guide holes on the first air deflector are not directly opposite to a plurality of air guide holes on the second air deflector; at least one material containing layer 106 is arranged in the cabinet cavity; when the cabinet door is closed, the cabinet door and the cabinet main body are sealed; the cabinet cavity forms a sealed cabinet cavity except the air outlet and the first air guide channel; the air inlet system is arranged at the top of the cabinet main body.
When the drying is carried out at the room temperature of 30 ℃, the volume of a cabinet cavity of the airflow drying cabinet is 1000L, 3 layers are arranged, half of utensils are placed on each layer, and all the utensils are dried within about 8.5 hours.
Example 4
The airflow drying cabinet comprises a cabinet main body 1 and an air inlet system 2, wherein a cabinet cavity 101 for placing objects to be dried is formed in the cabinet main body, the cabinet main body is provided with at least one cabinet door 102, the cabinet main body is in a cuboid-like or cube-like shape, and the cabinet cavity is in a cuboid-like or cube-like shape; the cabinet cavity comprises a first air guide channel 104, one end of the first air guide channel is communicated with the air inlet system, and the other end of the first air guide channel extends to the bottom of the cabinet cavity and is provided with an air guide outlet 105; the first air guide channel is an air guide channel and is arranged on one side of the backrest part in the cabinet cavity; when the cabinet door is closed, the cabinet door and the cabinet main body are sealed; the cabinet main body is provided with at least one air outlet 103; the first air guide channel is made of heat conducting materials; the width of the air guide channel of the first air guide channel is 60% of the width of the back of the cabinet cavity; a first air deflector 107 is arranged at the air guide outlet, and a plurality of air guide holes 108 are formed in the first air deflector; one side of the air outlet surface 109 of the first air deflector is a plane, and the air outlet surface and the horizontal plane form an inclined arrangement with an included angle of 6 degrees. The cabinet door is a self-suction door, and self-suction sealing is realized between the cabinet door and the cabinet main body. The cabinet door part is made of transparent materials.
Claims (10)
1. An airflow drying cabinet comprises a cabinet main body 1 and an air inlet system 2, wherein a cabinet cavity 101 for placing objects to be dried is formed in the cabinet main body, the cabinet main body is provided with at least one cabinet door 102, the cabinet main body is similar to a cuboid or similar to a cube, and the cabinet cavity is similar to a cuboid or similar to a cube; the cabinet cavity comprises a first air guide channel 104, one end of the first air guide channel is communicated with the air inlet system, and the other end of the first air guide channel extends to the bottom of the cabinet cavity or is close to the bottom of the cabinet cavity and is provided with an air guide outlet 105; the first air guide channel is an air guide channel and is arranged on one side of the backrest in the cabinet cavity, or the first air guide channel comprises at least two air guide channels, one of the at least two air guide channels is arranged on one side of the cabinet cavity close to the left side, and the other air guide channel is arranged on one side of the cabinet cavity close to the right side; the pneumatic drying cabinet does not comprise a heating system.
2. A pneumatic drying cabinet as claimed in claim 1, wherein the cabinet door is sealed to the cabinet body when closed, said cabinet body being provided with at least one air outlet 103.
3. A pneumatic drying cabinet as claimed in claim 1 wherein said cabinet chamber, except for said air outlet and said first air conduction path, defines a sealed cabinet chamber; and/or the air inlet system is arranged at the top or the side of the cabinet main body.
4. A pneumatic drying cabinet as claimed in claim 1 wherein the cabinet body comprises four sides, the cabinet door being a front side, two side sides and a back side; the whole or part of the cabinet door is made of transparent materials; at least one material containing layer 106 is arranged in the cabinet cavity; the cabinet door is a self-suction door, and self-suction sealing is realized between the cabinet door and the cabinet main body.
5. The airflow drying cabinet of claim 1, wherein said first air guiding channel is made of a heat conducting material.
6. A pneumatic drying cabinet as claimed in claim 2 wherein said first air ducting outlet is not provided with an air outlet other than said air ducting outlet; and/or the air outlet is arranged at more than half of the height of the cabinet main body.
7. An airflow drying cabinet as claimed in claim 1 wherein the width of at least one of said first air guiding channels is 10% to 90% of the width of the rear face of the cabinet chamber.
8. An airflow drying cabinet as claimed in claim 1, wherein a first air guiding plate 107 is disposed at said air guiding outlet, and a plurality of air guiding holes 108 are formed on said first air guiding plate.
9. The airflow drying cabinet of claim 8, wherein one side of the air outlet surface 109 of the first air deflector is a plane, and the air outlet surface is horizontally arranged or obliquely arranged with an included angle of 2-10 ° between the air outlet surface and the horizontal surface; or one side of the air outlet surface of the first air deflector is an arc surface.
10. The airflow drying cabinet of claim 8 or 9, wherein a second air guiding plate 110 is disposed under the first air guiding plate, and all or part of the plurality of air guiding holes of the first air guiding plate are not directly opposite to all or part of the plurality of air guiding holes of the second air guiding plate.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202021769952.7U CN213778407U (en) | 2020-08-23 | 2020-08-23 | Airflow drying cabinet |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202021769952.7U CN213778407U (en) | 2020-08-23 | 2020-08-23 | Airflow drying cabinet |
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Publication Number | Publication Date |
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CN213778407U true CN213778407U (en) | 2021-07-23 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202021769952.7U Active CN213778407U (en) | 2020-08-23 | 2020-08-23 | Airflow drying cabinet |
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CN (1) | CN213778407U (en) |
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2020
- 2020-08-23 CN CN202021769952.7U patent/CN213778407U/en active Active
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