CN215373248U - Drying rack for medical drying cabinet - Google Patents

Abstract

The utility model discloses a drying rack for a medical drying cabinet, which comprises a bearing rack, wherein an air conveying assembly is arranged on the bearing rack, the air conveying assembly comprises an air conveying pipe and supporting pipes, the air conveying pipe is provided with a first channel along the axis direction, one end of the air conveying pipe is provided with a partition plate in a sealing manner, the upper end surface of the air conveying pipe is provided with a plurality of supporting pipes at intervals, the supporting pipes are provided with second channels along the axis direction, the supporting pipes penetrate through the upper end surface of the air conveying pipe, the second channels are communicated with the first channels, one end of the air conveying pipe, far away from the partition plate, is provided with an air guide box, an air guide cavity is formed in the air guide box, one end of the air conveying pipe, far away from the partition plate, penetrates through the side surface of the air guide box, the first channels are communicated with the air guide cavity, and the air guide box is connected with an air supply device of the drying cabinet. The hot air can directly enter the tubular or bottle-shaped appliance through the air conveying pipe and the supporting pipe, and the inner wall of the tubular or bottle-shaped appliance is dried in a targeted manner. And because the outlet on the supporting tube is smaller, the wind speed is higher, the drying speed is accelerated, and the drying efficiency is improved.

Description

Drying rack for medical drying cabinet

Technical Field

The utility model relates to the technical field of medical instruments, in particular to a component of a medical drying cabinet, and particularly relates to a drying rack for the medical drying cabinet.

Background

In laboratories and laboratory laboratories, medical instruments such as a large number of test tubes and beakers are required to be used every day to contain samples, and the medical instruments can be reused after being cleaned, dried and sterilized. Generally, the medical apparatus has water stains on the surface after being washed, and a drying device is required to dry the medical apparatus.

The existing medical drying cabinet is generally characterized in that hot air is introduced into the bottom and the top of the cabinet, medical appliances placed in the drying cabinet are dried, especially tubular or bottle-shaped appliances such as test tubes, humidification bottles and beakers, and the like due to the blind hole structure, in the drying process, the drying effect on the inner wall of a cavity is poor, the hot air cannot accurately act on the inner wall of the tubular or bottle-shaped appliances, so that the inner wall of the tubular or bottle-shaped cavity is not easy to dry, the drying time is long, a large amount of heat waste is caused, the drying cost is high, and the drying efficiency is low.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model provides a drying rack for a medical drying cabinet, which comprises a bearing rack, wherein an air delivery assembly is arranged on the bearing rack, the air delivery assembly comprises an air delivery pipe and supporting pipes, the air delivery pipe is provided with a first channel along the axis direction, one end of the air delivery pipe is hermetically provided with a partition plate, the upper end surface of the air delivery pipe is provided with a plurality of supporting pipes at intervals, the supporting pipes are provided with second channels along the axis direction, the supporting pipes penetrate through the upper end surface of the air delivery pipe, the second channels are communicated with the first channels, one end of the air delivery pipe, far away from the partition plate, is provided with an air guide box, an air guide cavity is formed in the air guide box, one end of the air delivery pipe, far away from the partition plate, penetrates through the side surface of the air guide box, the first channels are communicated with the air guide cavity, and the air guide box is connected with an air supply device of the drying cabinet. The hot air can directly enter the tubular or bottle-shaped appliance through the air conveying pipe and the supporting pipe, the inner wall of the tubular or bottle-shaped appliance is pertinently dried, and the outlet on the supporting pipe is small, so that the wind speed is high, the drying speed is greatly accelerated, and the drying efficiency is improved.

The utility model solves the technical problem, and adopts the following technical scheme:

the utility model provides a drying rack for medical drying cabinet, including the bearing frame, the up end of bearing frame is provided with defeated wind subassembly, defeated wind subassembly includes defeated tuber pipe and stay tube, defeated tuber pipe has seted up first passageway along the axis direction, the sealed baffle that is provided with of one end of defeated tuber pipe, the up end interval of defeated tuber pipe is provided with a plurality of stay tubes, the second passageway has been seted up along the axis direction to the stay tube, the stay tube runs through defeated tuber pipe up end, the second passageway link up with first passageway mutually, the one end that the baffle was kept away from to defeated tuber pipe is provided with air guide box, air guide box has seted up the wind-guiding chamber in the wind-guiding chamber, the one end that the baffle was kept away from to defeated tuber pipe runs through the side of air guide box, first passageway link up with the wind-guiding chamber mutually, air guide box is connected with drying cabinet's air supply arrangement.

Furthermore, the upper end face of the bearing frame is provided with a plurality of groups of air delivery assemblies which are arranged at intervals and in parallel.

Furthermore, a plurality of air holes are arranged on the circumferential wall of the supporting tube.

Furthermore, a plurality of support columns are arranged on the edge of the upper end face of the bearing frame, a fixing frame is installed on the upper end face of each support column, the fixing frame is in a mouth shape, and the size of the fixing frame is consistent with that of the bearing frame.

Furthermore, the bearing frame and the fixed frame are respectively connected with the side vertical surface of the air guide box.

Furthermore, the air guide box is provided with a side cover, an opening is formed in the side cover, and the side cover is connected with an air supply device of the drying cabinet.

Furthermore, protective layers are arranged on the periphery of the air delivery pipe, the periphery of the fixing frame and the periphery of the supporting pipe;

the lower end surface of the bearing frame is provided with a water storage tank.

As a preferred scheme, three layers or four layers of air holes are formed in the circumferential wall of the supporting tube along the height direction, two air holes are formed in each layer in a facing mode, and the included angle between every two adjacent layers of air holes is 45 degrees to 120 degrees.

In summary, due to the adoption of the technical scheme, the utility model has the beneficial effects that:

according to the drying rack for the medical drying cabinet, in the traditional design, medical appliances to be dried are directly placed on the drying rack, hot air is introduced into the drying cabinet and is used on the medical appliances by utilizing the action of hot air flow, so that the medical appliances are dried, the improvement is that a wind conveying pipe and a supporting pipe are added for drying, tubular or bottle-shaped appliances such as test tubes, humidifying bottles, beakers and the like are placed on the supporting pipe, when the drying cabinet is ventilated, the hot air can directly enter a cavity of the bottle-shaped medical appliances through the wind conveying pipe and the supporting pipe, the hot air is sprayed out of the supporting pipe, the inner wall of the medical appliances are dried in a targeted manner, and the outlet on the supporting closed pipe is small, so that the wind speed is large, the drying time can be greatly shortened, and the drying efficiency is improved.

Drawings

The utility model will now be described, by way of example, with reference to the accompanying drawings, in which:

fig. 1 is a schematic structural diagram of a drying rack for a medical drying cabinet provided by the utility model;

FIG. 2 is a schematic structural view of a portion of the wind delivery assembly provided by the present invention;

FIG. 3 is a right side view of a drying rack for a medical drying cabinet according to the present invention;

FIG. 4 is a schematic diagram of a drying rack for a medical drying cabinet installed in the drying cabinet;

FIG. 5 is a schematic structural view of the air guide box provided by the present invention.

Icon: 110-a bearing frame; 111-support column; 113-a fixing frame; 115-a water storage tank; 130-a wind delivery assembly; 131-air delivery pipe; 133-support tube; 135-a first channel; 137-partition board; 139-a second channel; 141-air holes; 143-a protective layer; 150-a wind guide box; 151-air guiding cavity; 153-side cover; 155-opening; 157-air supply device; 159-air heater; 161-air supply duct; 163-first recess; 165-second groove.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

The present invention will be described in detail with reference to fig. 1 to 5.

Example 1

Referring to fig. 1 to 5, a drying rack for a medical drying cabinet includes a bearing rack 110, an air delivery assembly 130 is disposed on the bearing rack 110, in this embodiment, a plurality of air delivery assemblies 130 are disposed on the bearing rack 110, and the plurality of air delivery assemblies 130 are spaced and arranged in parallel. The air delivery assembly 130 includes an air delivery pipe 131 and a support pipe 133. The air delivery pipe 131 is provided with a first channel 135 along the axis direction, and one end of the air delivery pipe 131 is provided with a partition plate 137 in a sealing manner. The upper end surface of the air conveying pipe 131 is provided with a plurality of supporting pipes 133 at intervals, the supporting pipes 133 are provided with second passages 139 along the axial direction, the supporting pipes 133 penetrate through the upper end surface of the air conveying pipe 131, the supporting pipes 133 are connected with the air conveying pipe 131 in a sealing manner, and the second passages 139 are communicated with the first passages 135. One end of the air delivery pipe 131, which is far away from the partition 137, is provided with an air guide box 150, the air guide box 150 is in a pipe cavity shape, one end of all the air delivery pipes 131 arranged on the bearing frame 110 is connected with the air guide box 150, namely all the air delivery pipes 131 are communicated with the air guide box 150.

Referring to fig. 3, a plurality of supporting columns 111 are disposed on the bearing frame 110, a fixing frame 113 is mounted on the supporting columns 111, the fixing frame 113 is shaped like a Chinese character 'kou', and the length and width of the fixing frame 113 are the same as those of the bearing frame 110.

As shown in fig. 5, the cross section of the wind guide box 150 is "convex", the upper end of the wind guide box 150 is provided with a first groove 163, the lower end is provided with a second groove 165, the higher end of the wind guide box 150 is arranged at the left side of the fixing frame 113, the lower end of the wind guide box 150 is embedded between the fixing frame 113 and the bearing frame 110, one fixing frame 113 is arranged in the first groove 163, and one bearing frame 110 is arranged in the second groove 165. An air guide cavity 151 is formed in the air guide box 150, one end, far away from the partition plate 137, of the air delivery pipe 131 penetrates through the left side face of the air guide box 150, and the first channel 135 is communicated with the air guide cavity 151. The air guide box 150 is connected with an air supply device 157 of the drying cabinet, the air supply device 157 comprises an air heater 159 and an air supply pipeline 161, the air supply pipeline 161 is arranged on the drying cabinet, the air heater 159 is connected with the air supply pipeline 161, when the bearing frame 110 is pushed in place in the drying cabinet, the other end of the air supply pipeline 161 is in butt joint with an air guide cavity 151 formed in the side wall of the guide box 150, and a sealing ring is further arranged on the outer side face of the air supply pipeline in butt joint with the air guide cavity 151, so that the joint of the air supply pipeline 161 and the air guide cavity 151 does not leak heat air outwards. The medical apparatus to be dried is inserted into the support tube 133 by the worker, and the drying rack provided by the embodiment is particularly suitable for drying tubular or bottled apparatuses with one open end, such as test tubes, humidifying bottles and the like. Then, the bearing frame 110 is placed on the sliding groove of the drying cabinet, and the bearing frame 110 is completely pushed into the drying cabinet, specifically as shown in fig. 4, only one layer of drying frame is schematically placed in the drying cabinet, in the actual using process, multiple layers of drying frames can be placed in the drying cabinet according to the space and the actual requirement in the cabinet, and when the bearing frame 110 is pushed in place in the drying cabinet, the port of the air guide cavity 151 of the air guide box 150 is butted with the opening of the air supply duct 161 of the drying cabinet. After the drying cabinet door is closed, the air supply device is started, hot air enters the air guide box 150 through the hot air blower 159, the air supply pipeline 161 and the air guide cavity 151, the hot air is divided in the air guide box 150 and enters different air transmission pipes 131, one end of each air transmission pipe 131, which is far away from the air guide box 150, is provided with a partition plate 137 in a sealing mode, the hot air enters the second channel 139 through the first channel 135 under the action of air pressure and is sprayed out from an outlet formed in the second channel 139 to directly act on the inner wall of a tubular or bottled medical appliance to rapidly dry the inner wall of the tubular or bottled medical appliance.

Referring to fig. 2, in order to dry the tubular or bottle-shaped medical device more quickly, a plurality of air holes 141 are formed on the circumferential wall of the supporting tube 133, in the present embodiment, four air holes 141 are uniformly spaced in the height direction of the supporting tube 133, two air holes 141 are formed in each layer, an opening angle between two adjacent air holes 141 is 90 degrees, or four air holes 141 are uniformly formed in the circumferential direction, and two adjacent air holes are formed in the circumferential direction at an interval of 45 degrees, it is needless to say that three air holes 141 are also formed in the height direction of the supporting tube 133, two air holes 141 are formed in each layer, and an opening angle between two adjacent air holes 141 is 120 degrees, so that hot air can be spirally ejected in the cavity of the tubular or bottle-shaped medical device, and the mutual resistance when the air of the different air holes 141 flows out is reduced, the air flow is accelerated. When the drying time needs to be further shortened, the number of the layers of the ventilation holes 141 and the number of the ventilation holes 141 in each layer can be increased. When the hot air flows into the second channel 139 through the first channel 135, the hot air is sprayed out from the plurality of air holes 141, so that the hot air enters the inner cavity of the tubular or bottled type device, the flow rate of the hot air is increased, and the whole inner cavity of the tubular or bottled type device is quickly dried. The hot air dries the inner wall of the tubular or bottle-shaped medical instrument, and the tube wall of the medical instrument conducts heat energy from the inner wall to the outer wall, so that the outer wall of the tubular or bottle-shaped medical instrument is dried. The hot air flows out from the mouth at the lower end of the tubular or bottle-shaped medical instrument after entering the medical instrument and then moves upwards, and when the hot air moves upwards, the outer wall of the tubular or bottle-shaped medical instrument is dried. The drying efficiency is greatly improved and the utilization rate of heat energy is improved by improving the flowing speed of hot air and directly acting the hot air on the medical apparatus.

In addition, because the wind speed of the hot air flowing out of the second channel 139 is fast, in the drying process, the tubular or bottle-shaped medical apparatus is affected by the airflow and can rock on the supporting tube 133, especially, the medical apparatus of glass products such as beakers and test tubes with small depth is smaller than the height of the supporting tube 133, the top end of the supporting tube 133 is abutted to the bottom surface of the medical apparatus, the plurality of air holes 141 are formed to divide the hot air, the wind power of the hot air is reduced, when the tubular or bottle-shaped medical apparatus is prevented from being heated, the medical apparatus is separated from the top end of the supporting tube 133 under the action of the wind force and is in a suspended state, when no air enters, the medical apparatus is collided with the top end of the supporting tube 133 under the action of the self gravity to cause damage. The plurality of air holes 141 are oppositely arranged, so that wind power generated by hot air can be offset, the shaking of the medical appliance caused by the influence of air flow is reduced, and the medical appliance is prevented from being damaged.

Preferably, the protective layer 143 is disposed on the outer circumference of the support pipe 133 and the outer circumference of the air delivery pipe 131. The supporting tube 133 is provided with a plurality of air holes 141, so that the shaking range of the medical apparatus can be reduced, the medical apparatus can sometimes collide with the supporting tube 133, the protective layer 143 is arranged on the periphery of the supporting tube 133, and the protective layer 143 can reduce the impact force when the medical apparatus collides with the supporting tube 133, so that the medical apparatus is prevented from being damaged. The depth of some medical instruments is larger than the height of the supporting tube 133, when the medical instruments are sleeved on the supporting tube 133, the supporting tube 133 can only support the medical instruments, so that the medical instruments cannot topple over, the medical instruments are in contact with the air delivery pipe 131, the gravity of the medical instruments is acted on the upper end face of the air delivery pipe 131, and in the drying process, the protective layer 143 on the periphery of the air delivery pipe 131 can ensure that the medical instruments are not damaged.

Further, a protective layer 143 (see fig. 2) is also disposed on the outer periphery of the fixing frame 113. The fixing frame 113 can make the bearing frame 110 more stable, the bearing frame 110 and the fixing frame 113 are respectively connected with the edge of the side vertical surface of the air guide box 150, the upper end of the air guide box 150 is connected with the fixing frame 113, the lower end of the air guide box 150 is connected with the bearing frame 110, and when hot air enters the air guide box 150, the air guide box 150 cannot shake due to wind power. The air guide box 150 is provided with a side cover 153, an opening 155 is arranged on the side cover 153, the side cover 153 is arranged between the fixed frame 113 and the bearing frame 110, the side cover 153 is positioned at the leftmost side of the upper end surface of the bearing frame 110, and the side cover 153 is connected with an air supply device of the drying cabinet, so that when hot air enters the air guide box 150 from the air supply device, the hot air is prevented from flowing out of a connecting gap between the side cover 153 and the air supply device.

Further, when tubulose or bottle class medical instrument were placed on stay tube 133, can have the water stain condition of drippage to next floor drying rack or dry cabinet bottom along medical instrument's wall, the terminal surface is provided with aqua storage tank 115 under the bearing frame 110, when the water stain drips, can enter into aqua storage tank 115 and collect, after drying process, the staff handles the water in the aqua storage tank 115 again, prevents dangerous the emergence.

The above-mentioned embodiments only express the specific embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present application. It should be noted that, for those skilled in the art, without departing from the technical idea of the present application, several changes and modifications can be made, which are all within the protection scope of the present application.

Claims (8)

1. The utility model provides a drying rack for medical drying cabinet which characterized in that: the wind guide device comprises a bearing frame, a wind conveying assembly is arranged on the bearing frame, the wind conveying assembly comprises a wind conveying pipe and a supporting pipe, a first channel is arranged on the wind conveying pipe along the axis direction, a partition plate is arranged at one end of the wind conveying pipe in a sealing mode, a plurality of supporting pipes are arranged at intervals on the upper end face of the wind conveying pipe, a second channel is arranged on the supporting pipe along the axis direction, the supporting pipe penetrates through the upper end face of the wind conveying pipe, the second channel is communicated with the first channel, a wind guide box is arranged at one end, away from the partition plate, of the wind conveying pipe and is in a pipe cavity shape, one ends of all the wind conveying pipes arranged on the bearing frame are communicated with the wind guide box, a wind guide cavity is formed in the wind guide box, one end, away from the partition plate, of the wind conveying pipe penetrates through the side face of the wind guide box, the first channel is communicated with the wind guide cavity, and the wind guide box is connected with a wind supply device of a drying cabinet.

2. A drying rack for medical drying cabinets according to claim 1, characterized in that: the upper end face of the bearing frame is provided with a plurality of groups of air delivery assemblies which are arranged at intervals and in parallel.

3. A drying rack for medical drying cabinets according to claim 1, characterized in that: the circumferential wall of the supporting tube is provided with a plurality of air holes.

4. A drying rack for medical drying cabinets according to claim 1, characterized in that: the edge of the upper end face of the bearing frame is provided with a plurality of supporting columns, the upper end face of each supporting column is provided with a fixing frame, each fixing frame is in a mouth shape, and the fixing frames are consistent with the bearing frame in size.

5. A drying rack for medical drying cabinets according to claim 4, characterized in that: the bearing frame and the fixed frame are respectively connected with the side vertical face of the air guide box.

6. A drying rack for medical drying cabinets according to claim 4, characterized in that: the air guide box is provided with a side cover, an opening is formed in the side cover, and the side cover is connected with an air supply device of the drying cabinet.

7. A drying rack for medical drying cabinets according to claim 4, characterized in that: protective layers are arranged on the periphery of the air delivery pipe, the periphery of the fixing frame and the periphery of the supporting pipe;

the lower end surface of the bearing frame is provided with a water storage tank.

8. A drying rack for medical drying cabinets according to claim 3, characterized in that: three or four layers of air holes are arranged on the circumferential wall of the supporting tube along the height direction, two air holes are arranged on each layer of air holes, and the included angle between two adjacent layers of air holes is 45-120 degrees.

Images