CN219083617U - Convection type animal experiment drying box and device - Google Patents

Abstract

The application discloses a convection type animal experiment drying box and device, comprising a base frame assembly, wherein the base frame assembly comprises a drying bin, a rotating piece and a drying piece, and the drying bin is provided with a drying station, a first backflow channel, a second backflow channel and an exhaust port; the rotating piece is arranged on the drying bin, and the output end of the rotating piece is at least partially inserted into the drying bin; the drying piece is connected with the output end of the rotating piece; the drying assembly comprises a first air blowing piece, a second air blowing piece and a heating unit, wherein the first air blowing piece is arranged at a first drying end of the drying bin and is communicated with the first backflow channel; the second air blowing piece is arranged at a second drying end of the drying bin and is communicated with the second reflux channel; the heating units are respectively arranged at two ends of the drying bin and are respectively connected with the first blowing piece and the second blowing piece. The utility model provides a convection type animal experiment drying cabinet and device can be with the hot air flow leading-in from the both ends in dry storehouse respectively, and lets the even rotation of drying vessel, and then lets the sample article evenly be heated.

Description

Convection type animal experiment drying box and device

Technical Field

The application belongs to the field of sample drying equipment, and particularly relates to a convection type animal experiment drying box and device.

Background

The laboratory drying box is widely applied to the fields of chemistry, biology, pharmacy and forensics, is also called a laboratory oven and a laboratory oven, is mainly used for baking, drying, heat treatment, heating and sterilization of articles, is usually heated by an electric heater, is usually an electric heating pipe, is used for the electric heater, is used for placing sample articles in the drying box through a drying tray, is used for increasing the temperature in the drying box through the heater, and is used for blowing high-temperature air away through a fan, so that hot air circulates in the whole drying box, and the aim of drying is fulfilled;

at present, the existing laboratory drying boxes generally adopt fixed drying, and hot air flows from one end to the other end of a drying tray, so that sample articles contacted with the hot air firstly are high in drying speed, and then sample articles contacted with the hot air are low in drying speed, and the aim of drying can be achieved by adjusting the whole temperature in the drying boxes to be high; therefore, there is a disadvantage that the overall drying time is long, and that the test effect of the sample article is easily affected by the excessive temperature of the sample article that is first contacted with the hot air flow.

Therefore, there is a need for an experimental drying oven that can uniformly heat the entire sample article.

Content of the application

Application purpose: in order to overcome the defect, the purpose of this application provides a convection type animal experiment drying cabinet and device, and its reasonable in design easily produces, uses in a flexible way, can be through the convection type with the hot air flow respectively from the both ends of dry storehouse leading-in, and let the even rotation of drying vessel, and then let the sample article evenly be heated, avoid having whole drying time long, avoid the test effect of temperature too high influence sample article.

For solving above-mentioned technical problem, this application provides a convection type animal experiment drying cabinet, include:

the base frame assembly comprises a drying bin, a rotating piece and a drying piece, wherein the drying bin is provided with a drying station, a first backflow channel, a second backflow channel and an exhaust port; the rotating piece is arranged on the drying bin, and the output end of the rotating piece is at least partially inserted into the drying bin; the drying piece is connected with the output end of the rotating piece and is used for placing a sample to be dried;

the drying assembly comprises a first air blowing piece, a second air blowing piece and a heating unit, wherein the first air blowing piece is arranged at a first drying end of the drying bin and is communicated with the first backflow channel; the second air blowing piece is arranged at a second drying end of the drying bin and is communicated with the second reflux channel; the heating units are respectively arranged at two ends of the drying bin and are respectively connected with the first blowing piece and the second blowing piece.

Through adopting above-mentioned technical scheme, can be with the hot gas flow respectively from the both ends of drying storehouse leading-in, and will wait to dry the sample and carry out the rotation at uniform velocity, and then make waiting to dry the sample and can evenly be heated, avoid having whole drying time long, and then avoid the too high experimental effect that influences sample article of temperature.

As a preferred mode of the present application, the base assembly further comprises an air flow dispersing unit comprising a first mesh member mounted at a first air flow end of the drying bin and a second mesh member mounted at a second air flow end of the drying bin.

As a preferred mode of the application, the first mesh member is provided with a plurality of first holes, and the first holes are arranged in an array along the peripheral direction of the first mesh member; the second mesh piece is provided with a plurality of second holes, and the second holes are arranged in an array along the peripheral direction of the second mesh piece.

As a preferred mode of the application, the first hole is respectively communicated with the inner cavity of the drying bin and the first backflow channel; the second hole is respectively communicated with the inner cavity of the drying bin and the second reflux passage.

By adopting the technical scheme, the first hot air flow and the second hot air flow entering the drying cavity can be uniformly dispersed, and the uniform heating of the sample to be dried placed on the drying net is further improved.

As a preferred mode of the application, the heating unit comprises a first heating element and a second heating element, wherein the first heating element is arranged at a first drying end of the drying bin and is connected with the first blowing element; the second heating piece is arranged at the second drying end of the drying bin and is connected with the second blowing piece.

As a preferred mode of the application, the drying piece comprises a connecting frame and a drying net, wherein the connecting frame is connected with the output end of the rotating piece and is provided with a plurality of drying grooves which are arranged in an array along the height direction of the connecting frame; the drying net is inserted into the drying groove and is used for placing a sample to be dried.

As a preferred mode of this application, the drying part still includes pivot, locating part, the pivot is installed on connecting frame, the one end and the pivot rotation of locating part are connected, the other end of locating part inserts in the drying groove at least partially.

Through adopting above-mentioned technical scheme, can prevent that the drying net from rocking and falling from the connection frame when rotating.

The application also provides a convection type animal experiment drying device, include a convection type animal experiment drying cabinet, still include:

the movable frame is provided with a plurality of movable wheels, and the plurality of movable wheels are arranged in an array along the length direction of the movable frame.

Through adopting above-mentioned technical scheme, can provide the operating personnel and remove convection type animal experiment drying cabinet to the demand position.

Compared with the prior art, the technical scheme of the application has the following advantages:

1. according to the convection type animal experiment drying box and device, hot air flows can be respectively led in from two ends of the drying bin, and then the sample to be dried rotates at a constant speed, so that the sample to be dried can be heated uniformly, the whole drying time is prevented from being long, and the influence of overhigh temperature on the test effect of sample articles is avoided;

2. the first hot air flow and the second hot air flow entering the drying cavity can be uniformly dispersed, so that the uniform heating of the sample to be dried placed on the drying net is further improved; and simultaneously, the drying net is prevented from falling off from the connecting frame when the connecting frame rotates.

Drawings

In order that the contents of the present application may be more readily understood, the present application will be described in further detail below with reference to specific embodiments thereof and with reference to the accompanying drawings.

Fig. 1 is a schematic perspective view of an animal experiment drying oven of the present application.

Fig. 2 is a first cross-sectional schematic view of the animal experiment drying oven of the present application.

Fig. 3 is a second cross-sectional schematic view of the animal experiment drying oven of the present application.

Fig. 4 is a third cross-sectional schematic view of the animal experiment drying oven of the present application.

Fig. 5 is a schematic perspective view of a drying member of the present application.

Fig. 6 is a schematic sectional view of an area where the drying wire of the present application is fixed.

Fig. 7 is a schematic cross-sectional view of an area where the drying wire of the present application is not immobilized.

Fig. 8 is a first perspective view of the animal experiment drying apparatus of the present application.

Fig. 9 is a second perspective view of the animal experiment drying apparatus of the present application.

Description of the specification reference numerals: 1. the drying cabinet comprises a drying box, 4, a movable frame, 20, a drying bin, 21, a rotating part, 22, a drying part, 23, an airflow dispersing unit, 30, a first blowing part, 31, a second blowing part, 32, a first heating part, 33, a second heating part, 40, a movable wheel, 200, a drying station, 201, a first backflow channel, 202, a second backflow channel, 203, an exhaust port, 204, a first drying end of the drying bin, 205, a second drying end of the drying bin, 206, a first airflow end of the drying bin, 207, a second airflow end of the drying bin, 210, an output end of the rotating part, 220, a connecting frame, 221, a drying net, 222, a drying groove, 223, a rotating shaft, 224, a limiting part, 230, a first mesh part, 231, a second mesh part, 232, a first hole, 233 and a second hole.

Detailed Description

The present application will be further described in conjunction with the drawings and specific embodiments so that those skilled in the art may better understand and practice the present application, but the embodiments are not limiting of the present application.

Example 1

Referring to fig. 1-5, the present application provides an embodiment of a convection type animal experiment drying oven, comprising:

the base frame assembly comprises a drying bin 20, a rotating piece 21 and a drying piece 22, wherein the drying bin 20 is provided with a drying station 200, a first backflow channel 201, a second backflow channel 202 and an exhaust port 203; the rotating member 21 is mounted on the drying chamber 20, and the output end 210 of the rotating member is at least partially inserted into the drying chamber 20; the drying part 22 is connected with the output end 210 of the rotating part, and is used for placing a sample to be dried;

referring to fig. 1 and 3, the drying station 200 is located in an inner cavity of the drying bin 20, the first backflow channel 201 is located at one end of the drying bin 20, the second backflow channel 202 is located at the other end of the drying bin 20, and the air outlet 203 is located at an air outlet end of the drying bin 20; the rotating member 21 is mounted on the drying bin 20 through a mounting seat, and the output end 210 of the rotating member is at least partially inserted into the inner cavity of the drying bin 20, so long as the rotating member 21 can drive the drying member 22 to rotate, the rotating member can be any driving structure, including but not limited to a rotary cylinder and a servo motor, and the rotating member is specifically set by an operator according to actual drying requirements and cost, and in this embodiment, the servo motor is always referred to;

referring to fig. 5, the drying member 22 includes a connection frame 220 and a drying net 221, the connection frame 220 is rotatably connected with the output end 210 of the rotating member, and a plurality of drying slots 222 are provided, and the plurality of drying slots 222 are arranged in an array along the height direction of the connection frame 220; the drying wires 221 are inserted into the drying grooves 222, and a sample to be dried is placed, i.e., each drying wire 221 is inserted into one drying groove 222.

The drying assembly comprises a first air blowing piece 30, a second air blowing piece 31 and a heating unit, wherein the first air blowing piece 30 is arranged at a first drying end 204 of the drying bin and is communicated with the first backflow channel 201; the second air blowing piece 31 is installed at the second drying end 205 of the drying bin and is communicated with the second backflow channel 202; the heating units are respectively installed at two ends of the drying bin 20 and are respectively connected with the first air blowing piece 30 and the second air blowing piece 31.

Referring to fig. 2-4, the first air blowing member 30 is mounted on the first drying end 204 of the drying chamber, the output end of the first air blowing member 30 is communicated with the first backflow channel 201, and the first air flow is led into the first backflow channel 201 through the first air blowing member 30, so that the first air flow moves from the first air flow end 206 of the drying chamber to the second air flow end through the first backflow channel 201; the second air blowing member 31 is installed at the second drying end 205 of the drying bin, the output end of the second air blowing member 31 is communicated with the second backflow channel 202, and the second air flow is led into the second backflow channel 202 through the second air blowing member 31, so that the second air flow moves from the second air flow end 207 of the drying bin to the first air flow end through the second backflow channel 202; the first air blowing member 30 and the second air blowing member 31 may be any type of air blowing device as long as they can form an air flow, and in this embodiment, an operator selects an existing air blower according to the actual drying requirement and cost;

2-4, the heating unit includes a first heating element 32 and a second heating element 33, where the first heating element 32 is installed at the first drying end 204 of the drying bin and is connected to the first air blowing element 30, and the first air flow of the first air blowing element 30 is formed into a first hot air flow by the first heating element 32; the second heating element 33 is installed at the second drying end 205 of the drying chamber and connected to the second air blowing element 31, and forms a second hot air flow by the second air flow of the second air blowing element 31 through the second heating element 33; the first heating element 32 and the second heating element 33 may be any heating structures as long as they can provide heating, and in this embodiment, the operator selects the existing electric heating tube according to the actual drying requirement and cost.

Preferably, the working principle of the convection type animal experiment drying box is as follows:

the operator places the sample to be dried on the drying wire 221, and then closes the drying chamber 20;

the first air flow is led into the first backflow channel 201 through the first air blowing piece 30, and meanwhile, the first air flow is converted into the first air flow through the first heating piece 32, and the first air flow enters the first air flow end 206 of the drying bin through the first backflow channel 201 and moves from the first air flow end 206 of the drying bin to the second air flow end; simultaneously, the second air flow is led into the second backflow channel 202 through the second air blowing piece 31, and is converted into the second air flow through the second heating piece 33, and the second air flow enters the second air flow end 207 of the drying bin through the second backflow channel 202, and then moves from the second air flow end 207 of the drying bin to the first air flow end;

drying the sample to be dried placed on the drying net 221 through the first hot air flow and the second hot air flow, and driving the connecting frame 220 through the rotating piece 21 to drive the drying net 221 to rotate at a constant speed, so that the first hot air flow, the second hot air flow and sample impurities carried by the air flow are discharged through the air outlet 203 of the drying bin 20;

the operating power of the first air blowing member 30 and the second air blowing member 31, the heating temperatures of the first heating member 32 and the second heating member 33, and the rotational speeds of the rotating members 21 are set by operators according to actual drying requirements and costs.

By adopting the technical scheme, the sample to be dried can be rotated at a constant speed through the arrangement of the rotating piece 21 and the drying piece 22, so that the sample to be dried can be heated uniformly; simultaneously through the setting of first piece 30 of blowing, second 31 heating element of blowing, can be with the hot air respectively from the both ends import of dry storehouse 20, further let the sample article evenly be heated, avoid having whole drying time long, and then avoid the too high experimental effect that influences the sample article of temperature.

Example two

Referring to fig. 1 to 4, the second embodiment is substantially the same as the first embodiment except that:

the base assembly further comprises an airflow dispersion unit 23;

referring to fig. 4, the airflow dispersing unit 23 includes a first mesh member 230 and a second mesh member 231, wherein the first mesh member 230 is mounted at the first airflow end 206 of the drying chamber, the first mesh member 230 is provided with a plurality of first holes 232, and the plurality of first holes 232 are arranged in an array along the peripheral direction of the first mesh member 230; the second mesh member 231 is mounted at the second airflow end 207 of the drying chamber, and the second mesh member 231 is provided with a plurality of second holes 233, and the plurality of second holes 233 are arranged in an array along the peripheral direction of the second mesh member 231;

wherein, the first hole 232 is respectively communicated with the inner cavity of the drying bin 20 and the first backflow channel 201, and the second hole 233 is respectively communicated with the inner cavity of the drying bin 20 and the second backflow channel 202.

By adopting the technical scheme, the first hot air flow and the second hot air flow entering the drying cavity can be uniformly dispersed through the arrangement of the first mesh piece 230 and the second mesh piece 231, so that the uniform heating of the sample to be dried, which is placed by the drying net 221, is further improved.

Example III

Referring to fig. 5 to 8, the second embodiment is substantially the same as the first embodiment except that:

the drying part 22 further comprises a rotating shaft 223 and a limiting part 224;

referring to fig. 7 and 8, the rotating shaft 223 is mounted at one end of the connecting frame 220 near the drying groove 222; one end of the limiting member 224 is rotatably connected with the rotating shaft 223, and the other end of the limiting member 224 is at least partially inserted into the drying groove 222.

By adopting the technical scheme, the drying net 221 can be prevented from falling off from the connecting frame 220 when the connecting frame 220 rotates through the arrangement of the rotating shaft 223 and the limiting piece 224.

Example IV

Referring to fig. 1-9, the present application further provides a convection type animal experiment drying apparatus, including a convection type animal experiment drying oven, further including:

the movable frame 4 is provided with a plurality of movable wheels 40, and the plurality of movable wheels 40 are arranged in an array along the length direction of the movable frame 4.

By adopting the technical scheme, the operation staff can move the convection type animal experiment drying oven to the required position through the matching of the movable frame 4 and the movable wheels 40.

It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations and modifications of the present utility model will be apparent to those of ordinary skill in the art in light of the foregoing description. It is not necessary here nor is it exhaustive of all embodiments. And obvious variations or modifications thereof are contemplated as falling within the scope of the present application.

Claims (8)

1. A convection type animal experiment drying oven, which is characterized by comprising:

the base frame assembly comprises a drying bin (20), a rotating piece (21) and a drying piece (22), wherein the drying bin (20) is provided with a drying station (200), a first backflow channel (201), a second backflow channel (202) and an exhaust port (203); the rotating piece (21) is arranged on the drying bin (20), and the output end (210) of the rotating piece is at least partially inserted into the drying bin (20); the drying piece (22) is connected with the output end (210) of the rotating piece and is used for placing a sample to be dried;

the drying assembly comprises a first air blowing piece (30), a second air blowing piece (31) and a heating unit, wherein the first air blowing piece (30) is arranged at a first drying end (204) of the drying bin and is communicated with the first backflow channel (201); the second air blowing piece (31) is arranged at a second drying end (205) of the drying bin and is communicated with the second backflow channel (202); the heating units are respectively arranged at two ends of the drying bin (20) and are respectively connected with the first blowing piece (30) and the second blowing piece (31).

2. A convection type animal experiment drying oven as set forth in claim 1 wherein the base assembly further comprises an air flow dispersion unit (23), the air flow dispersion unit (23) comprising a first mesh member (230), a second mesh member (231), the first mesh member (230) being mounted to the drying cabinet first air flow end (206), the second mesh member (231) being mounted to the drying cabinet second air flow end (207).

3. The convection type animal experiment drying oven according to claim 2, wherein the first mesh member (230) is provided with a plurality of first holes (232), and the plurality of first holes (232) are arranged in an array along the peripheral direction of the first mesh member (230); the second mesh member (231) is provided with a plurality of second holes (233), and the plurality of second holes (233) are arranged in an array along the peripheral direction of the second mesh member (231).

4. A convection type animal experiment drying oven as claimed in claim 3, wherein said first holes (232) are respectively communicated with the inner cavity of the drying chamber (20) and the first return passage (201); the second hole (233) is respectively communicated with the inner cavity of the drying bin (20) and the second backflow channel (202).

5. A convection type animal experiment drying oven as set forth in claim 1 wherein the heating unit comprises a first heating element (32), a second heating element (33), the first heating element (32) being mounted at a first drying end (204) of the drying chamber and being connected to a first air blowing element (30); the second heating piece (33) is arranged at the second drying end (205) of the drying bin and is connected with the second blowing piece (31).

6. The convection type animal experiment drying box according to claim 1, wherein the drying member (22) comprises a connection frame (220) and a drying net (221), the connection frame (220) is connected with the output end (210) of the rotating member, and a plurality of drying grooves (222) are arranged, and the plurality of drying grooves (222) are arranged in an array along the height direction of the connection frame (220); the drying wire (221) is inserted into the drying tank (222) and holds a sample to be dried.

7. The convection type animal experiment drying box according to claim 6, wherein the drying piece (22) further comprises a rotating shaft (223) and a limiting piece (224), the rotating shaft (223) is installed on the connecting frame (220), one end of the limiting piece (224) is rotatably connected with the rotating shaft (223), and the other end of the limiting piece (224) is at least partially inserted into the drying groove (222).

8. A convection type animal experiment drying apparatus, comprising a convection type animal experiment drying oven as set forth in any one of claims 1 to 7, further comprising:

the movable frame (4) is provided with a plurality of movable wheels (40), and the plurality of movable wheels (40) are arranged in an array along the length direction of the movable frame (4).

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