CN215113816U - Medical drying cabinet in many cabins - Google Patents

Abstract

A multi-cabin medical drying cabinet belongs to the technical field of medical instruments. The method is characterized in that: including the predrying unit that sets gradually, hot air drying unit and vacuum drying unit, in the predrying unit, be provided with predrying cabin (2) in hot air drying unit and the vacuum drying unit respectively, hot air drying cabin (7) and vacuum drying cabin (13), be provided with the compression drying mechanism who is connected with predrying cabin (2) in the predrying unit, be provided with the hot air drying mechanism who is connected with hot air drying cabin (7) in the hot air drying unit, still be provided with in the vacuum drying unit and connect in vacuum drying mechanism with vacuum drying cabin (13), still be provided with compression drying mechanism, hot air drying mechanism and vacuum drying mechanism link to each other and carry out the control circuit of control. In the medical drying cabinet with multiple cabins, the instruments can be sequentially subjected to compressed air drying, hot air drying and vacuum drying treatment, so that the defects of various drying modes in the prior art are overcome.

Description

Medical drying cabinet in many cabins

Technical Field

A multi-cabin medical drying cabinet belongs to the technical field of medical instruments.

Background

At present, in hospitals, reusable surgical instruments can be reused after being strictly cleaned, disinfected, dried, sterilized and the like. The drying step mainly comprises three drying modes of manual drying, forced air drying and vacuum drying. The existing three drying modes have respective defects. Wherein, when the manual drying is carried out, the drying is generally carried out by a compressed air gun, and when the drying is carried out, water drops are easy to splash to eyes or skin of operators, thus harming the safety of the operators. When the blast drying is carried out, the inside of the tube cavity can not be dried for some catheter instruments with long lengths. When vacuum drying is carried out, manual pre-drying treatment needs to be carried out on the apparatus in advance, and if excessive water exists or water is accumulated on the part of the apparatus, the drying speed of the article is seriously influenced. Meanwhile, in the three existing drying modes, the forced air drying and the vacuum drying both need to be heated, and after the drying is finished, the surface temperature of the appliance is high, so that the damage such as scalding can be caused.

Disclosure of Invention

The to-be-solved technical problem of the utility model is: the defects of the prior art are overcome, and the multi-cabin medical drying cabinet which enables the instrument to be sequentially subjected to compressed air drying, hot air drying and vacuum drying treatment and avoids various drying mode defects in the prior art is provided.

The utility model provides a technical scheme that its technical problem adopted is: this medical drying cabinet in many cabins, its characterized in that: including the predrying unit that sets gradually, hot air drying unit and vacuum drying unit, in the predrying unit, be provided with the predrying cabin in hot air drying unit and the vacuum drying unit respectively, hot air drying cabin and vacuum drying cabin, be provided with the compression drying mechanism who is connected with the predrying cabin in the predrying unit, be provided with the hot air drying mechanism who is connected with the hot air drying cabin in the hot air drying unit, still be provided with in the vacuum drying unit and connect in vacuum drying mechanism with the vacuum drying cabin, still be provided with control circuit, control circuit is to compression drying mechanism, hot air drying mechanism and vacuum drying mechanism control.

Preferably, the compression drying mechanism comprises a compressed air tank, a plurality of compressed air inlets are formed in the side wall of the pre-drying cabin, and the output end of the compressed air tank is connected with the compressed air inlets through pipelines respectively.

Preferably, the hot air drying mechanism comprises a heating box, a fan is arranged above the heating box, and the air inlet end of the fan is connected with an air outlet arranged on the side wall of the hot air drying cabin through a heat recovery exhaust pipe; an air outlet of the fan is connected into the heating box, an outlet of the heating box is connected with a hot air inlet formed in the side wall of the hot air drying cabin through a plurality of pipelines, and an air outlet is formed in the top of the hot air drying cabin.

Preferably, a temperature controller is arranged on the side wall of the hot air drying cabin and is connected with the control circuit.

Preferably, the vacuum drying mechanism comprises a vacuum pump, and an air inlet end of the vacuum pump is communicated with an inner cavity of the vacuum drying cabin through a pipeline.

Preferably, a pressure transmitter connected with a control circuit is arranged at the top of the vacuum drying cabin.

Preferably, conveyer belts are respectively arranged in the pre-drying cabin, the hot air drying cabin and the vacuum drying cabin, a plurality of driving wheels are arranged between the upper layer and the lower layer of the conveyer belts side by side, and an output shaft of the conveying motor is connected with the driving wheels through a driving belt.

Preferably, sealing doors are arranged at two side ports of the pre-drying cabin, the hot air drying cabin and the vacuum drying cabin, a sealing door motor is arranged below each of the two side sealing doors, and the sealing door motors are connected with the corresponding sealing doors through connecting rods.

Preferably, a cooling unit is further provided, a cooling cabin is arranged in the cooling unit, an electrical box is arranged on one side of the cooling cabin, and the control circuit is arranged in the electrical box.

Preferably, a conveying belt is arranged in the cooling cabin, a plurality of driving wheels are arranged between the upper layer and the lower layer of the conveying belt in parallel, and an output shaft of the conveying motor is connected with the driving wheels through a driving belt; sealing doors are respectively arranged at the two side ports of the cooling cabin, a sealing door motor is respectively arranged below the sealing doors at the two sides, and the sealing door motors are connected with the corresponding sealing doors through connecting rods.

Compared with the prior art, the utility model discloses the beneficial effect who has is:

1. in the multi-cabin medical drying cabinet, the pre-drying unit, the hot air drying unit and the vacuum drying unit are sequentially arranged, and the instruments can be sequentially subjected to compressed air drying, hot air drying and vacuum drying treatment in the pre-drying unit, the hot air drying unit and the vacuum drying unit, so that the defects of various drying modes in the prior art are overcome.

2. Still be provided with cooling unit, the apparatus can carry out natural cooling in cooling unit, has avoided scalding the harm.

3. The side wall of the hot air drying cabin is provided with a temperature controller, the temperature controller is connected with the control circuit, and the temperature of the hot air drying cabin is controlled at a preset temperature value through the control circuit.

4. The top of the vacuum drying cabin is provided with a pressure transmitter, the output end of the pressure transmitter is connected with a control circuit, and the vacuum degree in the vacuum drying cabin is controlled by the control circuit.

Drawings

Fig. 1 is a schematic structural diagram of a multi-cabin medical drying cabinet.

Wherein: 1. the device comprises a sealing door 2, a pre-drying cabin 3, a compressed air inlet 4, a driving wheel 5, a conveying belt 6, a conveying motor 7, a hot air drying cabin 8, an air outlet 9, a temperature controller 10, a hot air inlet 11, a heating film 12, a pressure transmitter 13, a vacuum drying cabin 14, a shell 15, a cooling cabin 16, an electric box 17, a vacuum pump 18, a heat recovery exhaust pipe 19, a fan 20, a heating box 21, a compressed air tank 22 and a sealing door motor.

Detailed Description

Fig. 1 is a preferred embodiment of the present invention, and the present invention will be further explained with reference to fig. 1.

As shown in fig. 1, a multi-cabin medical drying cabinet comprises a housing 14, and a pre-drying unit, a hot air drying unit, a vacuum drying unit and a cooling unit are sequentially arranged in the housing 14. The device comprises a pre-drying unit, a hot air drying unit, a vacuum drying unit and a cooling unit, wherein the two ends of the pre-drying unit, the hot air drying unit, the vacuum drying unit and the cooling unit are opened, an outlet of the pre-drying unit is in front-back butt joint with an inlet of the hot air drying unit, an outlet of the hot air drying unit is in front-back butt joint with an inlet of the vacuum drying unit, an outlet of the vacuum drying unit is in sequential butt joint with an inlet of the cooling unit, and the device is output from an outlet of the cooling unit after being cooled by the dryer after passing through an inlet of the pre-drying unit, the hot air drying unit, the vacuum drying unit and the cooling unit sequentially.

The pre-drying unit comprises a main frame, a pre-drying cabin 2 is arranged above the main frame, sealing doors 1 are arranged at the front and rear ports of the pre-drying cabin 2, a sealing door motor 22 is arranged below the sealing doors 1 on two sides respectively, the sealing door motor 22 is positioned at the bottom of the main frame of the pre-drying unit, the sealing door motor 22 is connected with the sealing doors 1 on the corresponding side through connecting rods and drives the corresponding sealing doors 1 to be opened or closed, and the sealing door motor 22 is controlled by a control circuit of the multi-cabin medical drying cabinet.

A conveyer belt 5 is arranged in the pre-drying cabin 2, the conveyer belt 5 is connected with the outlet and the inlet of the pre-drying cabin 2, and a plurality of driving wheels 4 are arranged between the upper layer and the lower layer of the conveyer belt 5 side by side. A conveying motor 6 is installed below the pre-drying cabin 2 through a supporting frame, a driving belt is further arranged, the driving belt is sleeved on the output shaft of the conveying motor 6 and the outer side of a driving wheel 4 at an outlet in the pre-drying cabin 2, and the conveying motor 6 is driven to drive a conveying belt 5 to work through the driving belt. The conveyor motor 6 is also controlled by the control circuit.

The bottom of the main frame of the pre-drying unit is also provided with a compressed air tank 21, the outlet of the compressed air tank 21 is connected to the input end of an air distribution mechanism through a pipeline, and the air distribution mechanism is positioned on one side of the conveying motor 6. The gas distribution mechanism is provided with a plurality of output ends, each output end of the gas distribution mechanism is connected with a gas outlet pipe, and the other end of each gas outlet pipe is connected with a compressed air inlet 3 arranged on the side wall of the pre-drying cabin 2.

After the appliance enters the pre-drying unit, the appliance is pre-dried in the pre-drying cabin 2 by using compressed air, water drops on the surface of the appliance are removed, and the appliance is driven by the conveying belt 5 to be output from the pre-drying cabin 2 and enter the hot air drying unit after the pre-drying is finished.

The hot air drying unit comprises a main frame, a hot air drying cabin 7 is arranged above the main frame, sealing doors 1 are arranged at the front and rear ports of the hot air drying cabin 7, a sealing door motor 22 is arranged below the sealing doors 1 on two sides respectively, the sealing door motor 22 is positioned at the bottom of the main frame of the hot air drying unit, the sealing door motor 22 is connected with the sealing doors 1 on the corresponding side through connecting rods and drives the corresponding sealing doors 1 to be opened or closed, and the sealing door motor 22 is controlled by a control circuit of the multi-cabin medical drying cabinet.

A conveyer belt 5 is arranged in the hot air drying cabin 7, the conveyer belt 5 is connected with the outlet and the inlet of the hot air drying cabin 7, and a plurality of driving wheels 4 are arranged between the upper layer and the lower layer of the conveyer belt 5 side by side. A conveying motor 6 is installed below the hot air drying cabin 7 through a supporting frame, a transmission belt is further arranged, the transmission belt is sleeved on the outer side of an output shaft of the conveying motor 6 and the outer side of a transmission wheel 4 at an outlet in the hot air drying cabin 7, the conveying motor 6 drives a conveying belt 5 to work through the transmission belt, and the conveying motor 6 is controlled by a control circuit.

The bottom of the main frame of the hot air drying unit is also provided with a heating box 20, a fan 19 is arranged above the heating box 20, the air inlet end of the fan 19 is connected with one end of a heat recovery exhaust pipe 18, and the other end of the heat recovery exhaust pipe 18 is connected with an air outlet arranged on the side wall of the hot air drying cabin 7. An air outlet of the fan 19 is connected into the heating box 20, and an outlet of the heating box 20 is connected with a hot air inlet 10 arranged on the side wall of the hot air drying cabin 7 through a plurality of pipelines. The side wall of the hot air drying cabin 7 is provided with a temperature controller 9, the temperature controller 9 is connected with a control circuit, the temperature of the hot air drying cabin 7 is controlled at a preset temperature value through the control circuit, and the top of the hot air drying cabin 7 is also provided with an air outlet 8.

After the apparatus enters the hot air drying unit, the heated hot air is used for hot air drying in the hot air drying cabin 7, and after the hot air drying is finished, the heated hot air is output from the hot air drying cabin 7 under the drive of the conveyer belt 5 and enters the vacuum drying unit.

The vacuum drying unit includes a main frame, a vacuum drying chamber 13 is disposed above the main frame, and a heating film 11 is disposed in the vacuum drying chamber 13. The front and rear ports of the vacuum drying chamber 13 are provided with sealing doors 1, the sealing door motors 22 are respectively arranged below the sealing doors 1 on the two sides, the sealing door motors 22 are positioned at the bottom of the main frame of the pre-drying unit, the sealing door motors 22 are connected with the sealing doors 1 on the corresponding sides through connecting rods and drive the corresponding sealing doors 1 to open or close, and the sealing door motors 22 are controlled by a control circuit of the multi-chamber medical drying cabinet.

A conveyer belt 5 is arranged in the vacuum drying cabin 13, the conveyer belt 5 is connected with the outlet and the inlet of the vacuum drying cabin 13, and a plurality of driving wheels 4 are arranged between the upper layer and the lower layer of the conveyer belt 5 side by side. The conveying motor 6 is installed below the vacuum drying cabin 13 through a supporting frame, a transmission belt is further arranged, the transmission belt is sleeved on the output shaft of the conveying motor 6 and the outer side of the transmission wheel 4 at the inner outlet of the vacuum drying cabin 13, the conveying motor 6 drives the conveying belt 5 to work through the transmission belt, and the conveying motor 6 is controlled by a control circuit.

The vacuum pump 17 is arranged at the bottom of the main frame of the vacuum drying unit, and the air inlet end of the vacuum pump 17 is communicated with the inner cavity of the vacuum drying cabin 13 through a pipeline, so that the vacuum-pumping treatment of the vacuum drying cabin 13 is realized. The top of the vacuum drying chamber 13 is provided with a pressure transmitter 12, the output end of the pressure transmitter 12 is connected with a control circuit, and the vacuum degree in the vacuum drying chamber 13 is controlled by the control circuit.

After the apparatus enters the vacuum drying unit, the apparatus is thoroughly dried in the vacuum drying chamber 13 through repeated vacuum pumping operation, and after the vacuum drying is finished, the apparatus is output from the vacuum drying chamber 13 and enters the cooling unit under the driving of the conveyer belt 5.

The cooling unit comprises a main frame, a cooling cabin 15 is arranged above the main frame, sealing doors 1 are arranged at the front and rear ports of the cooling cabin 15, a sealing door motor 22 is arranged below the sealing doors 1 on two sides respectively, the sealing door motor 22 is positioned at the bottom of the main frame of the pre-drying unit, the sealing door motor 22 is connected with the sealing doors 1 on the corresponding side through connecting rods and drives the corresponding sealing doors 1 to be opened or closed, and the sealing door motor 22 is controlled by a control circuit of the multi-cabin medical drying cabinet.

A conveyer belt 5 is arranged in the cooling cabin 15, the conveyer belt 5 is connected with the outlet and the inlet of the cooling cabin 15, and a plurality of driving wheels 4 are arranged between the upper layer and the lower layer of the conveyer belt 5 side by side. The conveying motor 6 is installed below the cooling cabin 15 through a supporting frame, a transmission belt is further arranged, the transmission belt is sleeved on the output shaft of the conveying motor 6 and the outer side of the transmission wheel 4 at the inner outlet of the cooling cabin 15, the conveying motor 6 drives the conveying belt 5 to work through the transmission belt, and the conveying motor 6 is controlled by a control circuit.

An electrical box 16 is provided at the bottom of the main frame of the vacuum drying unit, and the above-mentioned control circuit is provided in the electrical box 16.

The specific working process and working principle are as follows:

the device to be dried firstly enters the pre-drying unit, after the device enters the pre-drying cabin 2 of the pre-drying unit, the control circuit controls the sealing doors 1 on two sides of the pre-drying cabin 2 to be closed, the device performs pre-drying treatment in the pre-drying cabin 2 by using compressed air to remove water drops on the surface of the device, after the pre-drying is finished, the controller controls the sealing doors 1 on the outlet side to be opened, and the device is driven by the conveying belt 5 to be output from the pre-drying cabin 2 and enter the hot air drying unit.

After the appliance enters a hot air drying cabin 7 of the hot air drying unit, the control circuit controls the sealing doors 1 on two sides of the hot air drying cabin 7 to be closed, the appliance is subjected to hot air drying in the hot air drying cabin 7 by heated hot air, in the process of hot air drying, the control circuit controls the heating box 20 through the temperature controller 9 to keep the temperature in the hot air drying cabin 7 at a preset temperature value, and the appliance is driven by the conveying belt 5 to be output from the hot air drying cabin 7 and enter the vacuum drying unit after the hot air drying is finished.

After the apparatus enters a vacuum drying cabin 13 of the vacuum drying unit, the control circuit controls the sealing doors 1 on two sides of the vacuum drying cabin 13 to be closed, the apparatus is thoroughly dried in the vacuum drying cabin 13 through repeated vacuumizing operation, in the drying process, the control circuit controls the vacuum pump 17 through the pressure transmitter 12 to keep the interior of the vacuum drying cabin 13 at a preset vacuum degree, and the apparatus is output from the vacuum drying cabin 13 and enters the cooling unit under the driving of the conveying belt 5 after the vacuum drying is finished. After the instruments enter the cooling cabin 15 of the cooling unit, the control circuit controls the sealing doors 1 on two sides of the cooling cabin 15 to be closed, the instruments are naturally cooled in the cooling cabin 15 and are output after being cooled.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention. However, any simple modification, equivalent change and modification made to the above embodiments according to the technical substance of the present invention still belong to the protection scope of the technical solution of the present invention.

Claims (10)

1. The utility model provides a medical drying cabinet in many cabins which characterized in that: including the predrying unit that sets gradually, hot air drying unit and vacuum drying unit, in the predrying unit, be provided with predrying cabin (2) in hot air drying unit and the vacuum drying unit respectively, hot air drying cabin (7) and vacuum drying cabin (13), be provided with the compression drying mechanism who is connected with predrying cabin (2) in the predrying unit, be provided with the hot air drying mechanism who is connected with hot air drying cabin (7) in the hot air drying unit, still be provided with in the vacuum drying unit and connect in vacuum drying mechanism with vacuum drying cabin (13), still be provided with control circuit, control circuit is to compression drying mechanism, hot air drying mechanism and vacuum drying mechanism control.

2. A multi-compartment medical drying cabinet according to claim 1, wherein: the compression drying mechanism comprises a compression gas tank (21), a plurality of compressed air inlets (3) are formed in the side wall of the pre-drying cabin (2), and the output end of the compression gas tank (21) is connected with the compressed air inlets (3) through pipelines respectively.

3. A multi-compartment medical drying cabinet according to claim 1, wherein: the hot air drying mechanism comprises a heating box (20), a fan (19) is arranged above the heating box (20), and the air inlet end of the fan (19) is connected with an air outlet arranged on the side wall of the hot air drying cabin (7) through a heat recovery exhaust pipe (18); an air outlet of the fan (19) is connected into the heating box (20), an outlet of the heating box (20) is connected with a hot air inlet (10) formed in the side wall of the hot air drying cabin (7) through a plurality of pipelines, and an air outlet (8) is further formed in the top of the hot air drying cabin (7).

4. A multi-compartment medical drying cabinet according to claim 1 or 3, wherein: the side wall of the hot air drying cabin (7) is provided with a temperature controller (9), and the temperature controller (9) is connected with a control circuit.

5. A multi-compartment medical drying cabinet according to claim 1, wherein: the vacuum drying mechanism comprises a vacuum pump (17), and the air inlet end of the vacuum pump (17) is communicated with the inner cavity of the vacuum drying cabin (13) through a pipeline.

6. A multi-compartment medical drying cabinet according to claim 1 or 5, wherein: and a pressure transmitter (12) connected with a control circuit is arranged at the top of the vacuum drying cabin (13).

7. A multi-compartment medical drying cabinet according to claim 1, wherein: the pre-drying cabin (2), the hot air drying cabin (7) and the vacuum drying cabin (13) are respectively internally provided with a conveyer belt (5), a plurality of driving wheels (4) are arranged between the upper layer and the lower layer of the conveyer belt (5) side by side, and an output shaft of the conveying motor (6) is connected with the driving wheels (4) through a driving belt.

8. A multi-compartment medical drying cabinet according to claim 1, wherein: the pre-drying cabin (2), the hot air drying cabin (7) and the vacuum drying cabin (13) are respectively provided with a sealing door (1) at the two side ports, a sealing door motor (22) is respectively arranged below the sealing doors (1) at the two sides, and the sealing door motors (22) are connected with the corresponding sealing doors (1) through connecting rods.

9. A multi-compartment medical drying cabinet according to claim 1, wherein: the cooling device is also provided with a cooling unit, a cooling cabin (15) is arranged in the cooling unit, an electric box (16) is arranged on one side of the cooling cabin (15), and the control circuit is arranged in the electric box (16).

10. A multi-compartment medical drying cabinet according to claim 9, wherein: a conveying belt (5) is arranged in the cooling cabin (15), a plurality of driving wheels (4) are arranged between the upper layer and the lower layer of the conveying belt (5) side by side, and an output shaft of a conveying motor (6) is connected with the driving wheels (4) through a driving belt; the cooling cabin (15) is characterized in that sealing doors (1) are respectively arranged at two side ports of the cooling cabin, a sealing door motor (22) is respectively arranged below the sealing doors (1) at two sides, and the sealing door motors (22) are connected with the corresponding sealing doors (1) through connecting rods.

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