CN213873627U - Experimental apparatus drying device - Google Patents

Abstract

The utility model discloses a drying device for experimental instruments, which includes: a supporting base, the supporting base is used to support the device; a bearing structure, the supporting structure is arranged on the upper surface of the supporting base; a blocking door structure, the blocking structure is arranged on the supporting structure; a rotating structure, the rotating structure is arranged in a bearing structure; a fixed structure, the fixing structure is arranged on the rotating structure; a drying structure, the drying structure is arranged in the bearing structure. The utility model relates to the field of drying experimental instruments, which effectively prevents damage to the experimental instruments, has a relatively simple structure and is convenient to use.

Description

Experimental apparatus drying device

Technical Field

The utility model relates to an laboratory glassware field of drying specifically is a laboratory glassware drying device.

Background

The experimental instrument is used for concrete experiments in natural science and is mainly used in physics, chemistry and biology. Modern common experimental instruments include test tubes, beakers, evaporating dishes, crucibles, alcohol lamps, buchner funnels, gas washing bottles, drying tubes, tray balances, measuring cylinders, volumetric flasks, burettes, measuring devices and the like.

Present laboratory glassware is made by glass mostly, and is very troublesome during the stoving, and traditional stoving mode also can cause certain damage to laboratory glassware moreover, consequently in order to solve this problem, designs a laboratory glassware drying device and is very necessary.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model provides a laboratory glassware drying device has solved present laboratory glassware and has made by glass more, and is very troublesome during the stoving, and traditional stoving mode also can cause the problem of certain damage to the laboratory glassware moreover.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: the utility model provides a laboratory glassware drying device, includes:

a support base for supporting the device;

the bearing structure is arranged on the upper surface of the support base;

a shutter structure disposed on the load bearing structure;

the rotating structure is arranged in the bearing structure;

a fixed structure disposed on the rotating structure;

a drying structure disposed within the load-bearing structure;

a temperature control structure disposed within the load-bearing structure;

a transfer structure disposed on a side surface of the carrier structure;

a heat dissipating structure disposed within the transport structure.

Preferably, the load bearing structure comprises: a load bearing housing;

the bearing shell is arranged on the upper surface of the supporting base.

Preferably, the shutter structure includes: the pair of first fixed circular rings, the pair of first rotating circular rods, the stop door, the observation glass, the handle and the anti-scalding layer;

the front surface of the bearing shell is provided with a strip-shaped opening, the two pairs of first fixed circular rings are arranged at the strip-shaped opening, each first rotating circular rod is arranged on the corresponding first fixed circular ring, the stop door is arranged on the corresponding first rotating circular rod, a rectangular opening is formed in the stop door, the observation glass is arranged at the rectangular opening, the handle is arranged on the stop door, and the anti-scald layer is arranged on the handle.

Preferably, the rotation structure includes: the four pairs of first fixing frames, the four pairs of rotating motors, the four pairs of protective shells, the four pairs of connecting blocks and the four pairs of rotating plates;

the lower surface of the bearing shell is provided with four pairs of circular grooves, each first fixing frame is arranged in the corresponding circular groove, each rotating motor is arranged on the corresponding first fixing frame, each protection shell is arranged on the corresponding first fixing frame, each connecting block is arranged on the rotating end of the corresponding rotating motor, and each rotating plate is arranged on the corresponding rotating motor.

Preferably, the fixing structure includes: four pairs of fixed support frames;

each fixed support frame is arranged on the corresponding rotating plate.

Preferably, the drying structure includes: the dryer comprises a first support frame, a first dryer, a second support frame, a second dryer, a pair of third support frames and a pair of third dryers;

the upper surface in the bearing shell is provided with a first rectangular groove, the first support frame is arranged at the first rectangular groove, the first dryer is arranged on the first support frame, the rear surface in the bearing shell is provided with a second rectangular groove, the second support frame is arranged at the second rectangular groove, the second dryer is arranged on the second support frame, the inner side surface of the bearing shell is provided with a pair of second rectangular grooves, each third support frame is arranged at the corresponding third rectangular groove, and each third dryer is arranged on the corresponding third support frame.

Preferably, the temperature control structure includes: a pair of fourth support frames and a pair of temperature sensors;

the inner surface of the bearing shell is provided with a pair of fourth rectangular grooves, each fourth supporting frame is arranged at the corresponding fourth rectangular groove, and each temperature sensor is arranged on the corresponding fourth supporting frame.

Preferably, the transfer structure comprises: a pair of conveying pipes and an electric control valve;

the bearing shell is provided with a circular opening, each conveying pipe is arranged at the corresponding circular opening, and each electric control valve is arranged on the corresponding conveying pipe.

Preferably, the heat dissipation structure includes: a pair of second fixing frames and a pair of heat radiation fans;

each second fixing frame is arranged in the corresponding conveying pipe, and each heat dissipation fan is arranged on the corresponding second fixing frame.

Preferably, the bearing shell is provided with a controller, and the bearing shell is provided with a mains supply interface.

Advantageous effects

The utility model provides an experimental apparatus drying device. The method has the following beneficial effects: the device can be better dry laboratory glassware, and is very convenient, and it is troublesome to have reduced unnecessary, and the temperature that control laboratory glassware was dried that can be fine has effectually prevented the damage of laboratory glassware, and the structure is simple relatively, convenient to use.

Drawings

Fig. 1 is the utility model relates to a laboratory glassware drying device's schematic structure diagram.

Fig. 2 is the utility model discloses a laboratory glassware drying device's front view.

Fig. 3 is the utility model relates to a laboratory glassware drying device's top view.

Fig. 4 is the utility model relates to a laboratory glassware drying device's local enlarger.

Fig. 5 is a schematic view of the fixing support frame of the present invention.

In the figure: 1-a support base; 2-a load-bearing housing; 3-a first fixed ring; 4-a first rotating round bar; 5-a stop gate; 6-observation glass; 7-a handle; 8-an anti-scald layer; 9-a first fixing frame; 10-a rotating electrical machine; 11-a protective housing; 12-connecting blocks; 13-a rotating plate; 14-fixing a support frame; 15-a first support frame; 16-a first dryer; 17-a second support; 18-a second dryer; 19-a third support; 20-a third dryer; 21-a fourth support frame; 22-a temperature sensor; 23-a delivery tube; 24-an electrically controlled valve; 25-a second mount; 26-a heat dissipation fan; 27-a controller; 28-mains supply interface.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: the utility model provides a laboratory glassware drying device, includes: a support base 1, the support base 1 being used for supporting the device; the bearing structure is arranged on the upper surface of the support base 1; the shutter structure is arranged on the bearing structure; the rotating structure is arranged in the bearing structure; the fixed structure is arranged on the rotating structure; the drying structure is arranged in the bearing structure; the temperature control structure is arranged in the bearing structure; the conveying structure is arranged on the side surface of the bearing structure; and the heat dissipation structure is arranged in the conveying structure.

The bearing structure comprises: a carrier housing 2; the bearing housing 2 is arranged on the upper surface of the supporting base 1.

The shutter structure includes: the device comprises two pairs of first fixed circular rings 3, a pair of first rotating circular rods 4, a shutter 5, observation glass 6, a handle 7 and an anti-scald layer 8; bear 2 front surfaces of casing and be equipped with the bar opening, two pairs of first fixed rings 3 settle in the bar opening part, every first rotation round bar 4 settle on a pair of first fixed ring 3, and shutter 5 settles on a pair of first rotation round bar 4, is equipped with the rectangle opening on shutter 5, and observation glass 6 settles in the rectangle opening part, and handle 7 settles on shutter 5, prevents scalding layer 8 and settles on handle 7.

The rotating structure includes: four pairs of first fixed frames 9, four pairs of rotating motors 10, four pairs of protective shells 11, four pairs of connecting blocks 12 and four pairs of rotating plates 13; the lower surface of the bearing shell 2 is provided with four pairs of circular grooves, each first fixing frame 9 is arranged in the corresponding circular groove, each rotating motor 10 is arranged on the corresponding first fixing frame 9, each protection shell 11 is arranged on the corresponding first fixing frame 9, each connecting block 12 is arranged on the rotating end of the corresponding rotating motor 10, and each rotating plate 13 is arranged on the corresponding rotating motor 10.

The fixing structure includes: four pairs of fixed supports 14; each of the fixed support brackets 14 is seated on the corresponding rotating plate 13.

The stoving structure includes: a first supporting frame 15, a first dryer 16, a second supporting frame 17, a second dryer 18, a pair of third supporting frames 19, and a pair of third dryers 20; bear the casing 2 in the upper surface be equipped with first rectangle recess, first support frame 15 settles in first rectangle recess department, first drying apparatus 16 settles on first support frame 15, bear the casing 2 in the rear surface be equipped with second rectangle recess, second support frame 17 settles in second rectangle recess department, second drying apparatus 18 settles on second support frame 17, bear the casing 2 inside surface and be equipped with a pair of second rectangle recess, every third support frame 19 settles in corresponding third rectangle recess department, every third drying apparatus 20 settles on corresponding third support frame 19.

The temperature control structure includes: a pair of fourth support frames 21 and a pair of temperature sensors 22; a pair of fourth rectangular grooves are formed on the inner surface of the bearing shell 2, each fourth supporting frame 21 is arranged at the corresponding fourth rectangular groove, and each temperature sensor 22 is arranged on the corresponding fourth supporting frame 21.

The transfer structure includes: a pair of transfer pipes 23 and an electrically controlled valve 24; the bearing shell 2 is provided with a circular opening, each conveying pipe 23 is arranged at the corresponding circular opening, and each electric control valve 24 is arranged on the corresponding conveying pipe 23.

The heat radiation structure includes: a pair of second holders 25 and a pair of heat dissipation fans 26; each second holder 25 is disposed in the corresponding transfer pipe 23, and each heat dissipation fan 26 is disposed on the corresponding second holder 25.

The carrying housing 2 is provided with a controller 27, and the carrying housing 2 is provided with a mains supply interface 28.

Example (b): the supporting base 1 is used for supporting the device, the bearing structure on the upper surface of the supporting base 1 is used for bearing, the shutter structure on the bearing structure is used for connection, the rotating structure in the bearing structure is used for rotation, the fixing structure on the rotating structure is used for fixing, the drying structure in the bearing structure is used for drying, the temperature control structure in the bearing structure is used for controlling temperature, the conveying structure on the side surface of the bearing structure is used for conveying, the heat dissipation structure in the conveying structure is used for heat dissipation, firstly, a power supply is connected through a commercial power interface 28 on the bearing shell 2, a controller 27 on the bearing shell 2 is opened, the shutter 5 is opened through a handle 7 on the shutter 5, an experimental instrument needing drying is placed on a fixing supporting frame 14, after the experimental instrument is placed, the shutter 5 is closed through a first rotating round rod 4 on a first fixing ring 3, and then, a first dryer 16 on a first supporting frame 15 is opened through the controller 27 on the bearing shell 2, A second dryer 18 on a second support frame 17 and a third dryer 20 on a third support frame 19, a first dryer 16 on a first support frame 15, a second dryer 18 on the second support frame 17 and a third dryer 20 on the third support frame 19 start to dry the experimental instrument, at the same time, a rotating motor 10 on a first fixing frame 9 is turned on, the rotating motor 10 on the first fixing frame 9 drives a rotating plate 13 on a connecting block 12 to rotate, the rotating plate 13 drives a fixed support frame 14 to rotate, so that the experimental instrument on the fixed support frame 14 is uniformly dried, when the temperature in the bearing housing 2 is too high, a temperature sensor 22 on a fourth support frame 21 senses the temperature and sends the temperature to a controller 27 on the bearing housing 2, the controller 27 on the bearing housing 2 controls an electric control valve 24 on a conveying pipe 23 to open, and simultaneously opens a heat dissipation fan 26 on the second fixing frame 25, the heat dissipation is very convenient.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation. The use of the phrase "comprising one of the elements does not exclude the presence of other like elements in the process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a laboratory glassware drying device which characterized in that includes:

a support base (1), said support base (1) being for supporting the device;

the bearing structure is arranged on the upper surface of the support base (1);

a shutter structure disposed on the load bearing structure;

the rotating structure is arranged in the bearing structure;

a fixed structure disposed on the rotating structure;

a drying structure disposed within the load-bearing structure;

a temperature control structure disposed within the load-bearing structure;

a transfer structure disposed on a side surface of the carrier structure;

a heat dissipating structure disposed within the transport structure.

2. The drying device for laboratory instruments according to claim 1, wherein the carrying structure comprises: a load-bearing housing (2);

the bearing shell (2) is arranged on the upper surface of the supporting base (1).

3. The drying device for laboratory instruments according to claim 2, wherein the door structure comprises: two pairs of first fixed circular rings (3), a pair of first rotating circular rods (4), a shutter (5), observation glass (6), a handle (7) and an anti-scald layer (8);

bear casing (2) front surface and be equipped with the bar opening, two pairs of first fixed ring (3) are settled in the bar opening part, every first rotation pole (4) settle on a pair of first fixed ring (3), shutter (5) settle on a pair of first rotation pole (4), be equipped with the rectangle opening on shutter (5), observe glass (6) and settle in the rectangle opening part, handle (7) settle on shutter (5), prevent scalding layer (8) and settle on handle (7).

4. The drying device for laboratory instruments according to claim 2, wherein the rotating structure comprises: the device comprises four pairs of first fixed frames (9), four pairs of rotating motors (10), four pairs of protective shells (11), four pairs of connecting blocks (12) and four pairs of rotating plates (13);

the lower surface of the bearing shell (2) is provided with four pairs of circular grooves, each first fixing frame (9) is arranged in the corresponding circular groove, each rotating motor (10) is arranged on the corresponding first fixing frame (9), each protection shell (11) is arranged on the corresponding first fixing frame (9), each connecting block (12) is arranged on the rotating end of the corresponding rotating motor (10), and each rotating plate (13) is arranged on the corresponding rotating motor (10).

5. The drying device for laboratory instruments according to claim 4, wherein the fixing structure comprises: four pairs of fixed support frames (14);

each fixed support frame (14) is arranged on the corresponding rotating plate (13).

6. The drying device for laboratory instruments according to claim 2, wherein the drying structure comprises: the dryer comprises a first support frame (15), a first dryer (16), a second support frame (17), a second dryer (18), a pair of third support frames (19) and a pair of third dryers (20);

the inner upper surface of the bearing shell (2) is provided with a first rectangular groove, the first support frame (15) is arranged at the position of the first rectangular groove, the first dryer (16) is arranged on the first support frame (15), the inner rear surface of the bearing shell (2) is provided with a second rectangular groove, the second support frame (17) is arranged at the position of the second rectangular groove, the second dryer (18) is arranged on the second support frame (17), the inner side surface of the bearing shell (2) is provided with a pair of second rectangular grooves, each third support frame (19) is arranged at the corresponding third rectangular groove, and each third dryer (20) is arranged on the corresponding third support frame (19).

7. The drying device for laboratory instruments according to claim 2, wherein the temperature control structure comprises: a pair of fourth support frames (21) and a pair of temperature sensors (22);

a pair of fourth rectangular grooves is formed in the inner surface of the bearing shell (2), each fourth supporting frame (21) is arranged at the corresponding fourth rectangular groove, and each temperature sensor (22) is arranged on the corresponding fourth supporting frame (21).

8. The drying device for laboratory instruments according to claim 2, wherein the conveying structure comprises: a pair of conveying pipes (23) and an electric control valve (24);

the bearing shell (2) is provided with a circular opening, each conveying pipe (23) is arranged at the corresponding circular opening, and each electric control valve (24) is arranged on the corresponding conveying pipe (23).

9. The drying device for laboratory instruments according to claim 8, wherein the heat dissipation structure comprises: a pair of second fixing frames (25) and a pair of heat radiation fans (26);

each second fixing frame (25) is arranged in the corresponding conveying pipe (23), and each heat dissipation fan (26) is arranged on the corresponding second fixing frame (25).

10. The drying device for laboratory instruments according to claim 2, wherein a controller (27) is disposed on the carrying case (2), and a commercial power interface (28) is disposed on the carrying case (2).

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