CN219207344U - Thermometer storage device capable of being sterilized - Google Patents

Abstract

The utility model discloses a sterilizable thermometer storage device, which comprises a sterilizing chamber and a storage area, wherein sterilizing liquid is stored in the sterilizing chamber, and a sterilizing opening for the sterilizing liquid to flow out is formed in the sterilizing chamber; the storage area comprises a sterilizing part and storage grids, the sterilizing part comprises a fan and a pair of roller-type sponges which are arranged side by side, the two roller-type sponges are opposite in direction, the roller-type sponges are communicated with the sterilizing chamber to adsorb sterilizing liquid, and the storage grids are arranged to be a plurality of storage electronic thermometers. According to the utility model, the electronic thermometer is irregular in appearance and various in size, so that the roller-type sponge is utilized for friction sterilization, a person only needs to move the electronic thermometer to complete sterilization, and the electronic thermometer is dried by the blower, is put into a storage grid with an unlimited size, the whole process is simple and easy to operate, and an easy-to-operate sterilization and storage structure is arranged for common electronic thermometers, so that the sterilization is ensured to be comprehensive without dead angles, the sterilization and the taking of the electronic thermometer are greatly facilitated, and the workload of medical staff can be reduced.

Description

Thermometer storage device capable of being sterilized

Technical Field

The utility model relates to the technical field of medical instruments, in particular to a sterilizable thermometer storage device.

Background

In medical places such as hospitals and clinics, the clinical thermometer is used as a stock tool for detection and is used repeatedly in a plurality of patients, so that the clinical thermometer needs to be disinfected manually frequently to reduce cross infection of viruses and bacteria.

Although sterilization storage of thermometers has been developed in the prior art, the following drawbacks remain: 1. because the use frequency of the thermometer is very high, whether the thermometer is sterilized or not is difficult to determine in actual use, and the storage device needs to be opened and closed for a plurality of times, so that whether the thermometer is sterilized again in the period is difficult to ensure; 2. the use of the electronic clinical thermometer is more widespread at present, but the electronic clinical thermometer is irregular in shape and can only be manually sterilized, so that a plurality of inconveniences are brought to the use.

Therefore, the existing sterilizable thermometer storage device has the problems that sterilization is incomplete and the electronic thermometer cannot be sterilized.

Disclosure of Invention

The utility model aims to solve the technical problems that the existing sterilizable thermometer storage device is incomplete in sterilization and cannot sterilize an electronic thermometer.

In order to solve the technical problems, the technical scheme adopted by the utility model is to provide a sterilizable thermometer storing device, which comprises:

the disinfection chamber is internally provided with a disinfectant, and is provided with a disinfection opening for the disinfectant to flow out for disinfecting hands; the method comprises the steps of,

the storage area comprises a sterilizing part and a storage grid, the sterilizing part comprises a fan and a pair of roller-type sponges which are arranged side by side, the two roller-type sponges are opposite in direction, the roller-type sponges are communicated with the sterilizing chamber to adsorb sterilizing liquid, and the storage grid is arranged to be a plurality of storage electronic thermometers.

In a preferred embodiment, the device further comprises a control system, the drum-type sponge is driven by a motor, the motor and the fan are respectively connected with the control system, and the control system controls the disinfectant to quantitatively output to the drum-type sponge according to signals and controls the motor and the fan to sequentially and regularly run.

In another preferred embodiment, the sterilizing element further comprises a spray port, which communicates with the sterilizing chamber.

In a preferred embodiment, an electric heating element is provided inside each of said drum sponges.

In another preferred embodiment, each of the storage compartments is provided with a separate outer cover, and the bottom of each of the storage compartments is provided with an elastic pad.

In another preferred embodiment, a pair of elastic blocks are arranged in the side wall of the storage grid, and the elastic blocks are abutted against the electronic thermometer.

In another preferred embodiment, the device further comprises an inserting area, an operation surface is arranged on the outer side of the inserting area, a plurality of storage grooves are formed in the operation surface to store the glass thermometers, annular sponges are arranged on the inner wall of each storage groove, and the annular sponges are communicated with the disinfection chamber to adsorb disinfectant.

Further, in the above embodiment, a plurality of through holes are formed in a part of the pipe wall of the storage tank, an outer cylinder is arranged on the periphery of the pipe wall, and the disinfectant controllably and sequentially enters the outer cylinder, passes through the through holes and is adsorbed by the annular sponge.

Or further, in the above embodiment, the device further includes a control system, a pressure sensor is disposed at an inner end of each storage tank, the pressure sensor is connected to the control system, the pressure sensor outputs a signal, and the control system controls the disinfectant to quantitatively output to the storage tank according to the signal.

In a further preferred embodiment, the operating surface and the outside of the sterilization member are each rotatably provided with a cover which opens on both sides or upwards.

According to the technical scheme, the sterilizable thermometer storing device has the advantages that: compared with the prior art, the electronic thermometer is provided with the storage area and the sterilizing piece matched with the electronic thermometer, and the electronic thermometer is irregular in appearance and various in size, so that friction sterilization is performed by utilizing the roller-type sponge, and the electronic thermometer can be sterilized by only moving a human hand, and is dried by utilizing a fan, and the electronic thermometer is placed in a storage grid with an unlimited size. Therefore, the utility model sets the easy-to-operate disinfection and storage structure aiming at the common electronic thermometer, ensures that the disinfection is complete without dead angles, greatly facilitates the disinfection and the taking of the electronic thermometer, and can greatly reduce the workload of medical staff.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the utility model and together with the description, serve to explain the principles of the utility model.

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, and it will be obvious to a person skilled in the art that other drawings can be obtained from these drawings without inventive effort.

FIG. 1 is a front view of the present utility model;

FIG. 2 is a right side view of the present utility model;

FIG. 3 is a schematic view of the structure of the storage compartment of the utility model in which the electronic thermometer is placed;

fig. 4 is a schematic view of the internal structure of the storage tank of the present utility model.

Note that: the corresponding relation between the components and the reference numerals in the figures is as follows:

the sterilizing chamber 10, the sterilizing port 11, the pipe 12, the storage area 20, the sterilizing member 21, the drum-type sponge 211, the blower 212, the shower port 213, the storage compartment 22, the outer cover 221, the elastic pad 222, the elastic block 223, the insertion area 30, the operation surface 31, the storage groove 311, the annular sponge 3111, the through hole 3112, the outer cylinder 3113, the pressure sensor 312, the indicator 313, the electronic thermometer 40, the glass thermometer 50, and the electric heating member 60.

Detailed Description

For the purposes of making the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present application based on the embodiments herein. According to the sterilizable thermometer storage device, not only is the electronic thermometer stored, but also the adaptive sterilization structure is arranged according to the appearance and size characteristics, so that the sterilization is guaranteed to be complete without dead angles, the sterilization and the taking of the thermometer are greatly facilitated, and the workload of medical staff can be greatly reduced. The utility model is described in detail below with reference to the drawings and the detailed description.

In order to overcome the problems of incomplete sterilization and inability to sterilize electronic thermometers in the prior art, referring to fig. 1 and 2, the present utility model provides a sterilizable thermometer storage device comprising a sterilization chamber 10 and a storage area 20. The sterilizing chamber 10 is internally provided with a sterilizing liquid, which is usually alcohol or hypochlorous acid, and has low corrosiveness, and a separate containing bottle can be arranged for reducing the damage to the whole storage device. The sterilizing chamber 10 is provided with a sterilizing opening 11 for discharging sterilizing liquid, and is used for sterilizing hands of a person, and the hands of the person are required to be sterilized when the thermometer is taken out, so that the bacteria of the hands of the person are prevented. The storage area 20 is used for storing an electronic thermometer 40.

Referring to fig. 2 and 3, the storage area 20 includes a sterilizing unit 21 and a storage compartment 22, the sterilizing unit 21 includes a blower 212 and a pair of drum-type sponges 211 arranged side by side, and the two drum-type sponges 211 are opposite in direction, the drum-type sponges 211 communicate with the sterilizing chamber 10 to adsorb sterilizing liquid, and the storage compartment 22 is provided in plurality to store the electronic clinical thermometer 40. Because the drum-type sponge 211 adsorbs the disinfectant, the two drum-type sponges 211 rotate reversely, the parts of the electronic thermometer 40 which need to be disinfected are inserted between the two drum-type sponges 211, so that friction disinfection can be realized, and then the disinfectant on the surface is blown dry by the blower 212 and then is put into the storage grid 22. The structure of the storage area 20 is not limited to the shape of the electronic thermometer 40, the disinfection position can be manually adjusted, the electronic thermometer 40 is automatically disinfected, then the disinfectant is dried by the blower 212, and then the disinfectant is stored in the storage grid 22, wherein the size of the storage grid 22 is larger than that of a conventional electronic thermometer 40, and most of electronic thermometers 40 in the market can be accommodated. In the illustrated embodiment, the storage compartment 22 is vertical and the electronic thermometer 40 can be inserted downwardly into the storage compartment 22.

According to the utility model, the storage area 20 is arranged for the electronic thermometer 40, and the sterilizing piece 21 matched with the electronic thermometer 40 is arranged, so that the electronic thermometer 40 is in an irregular shape and various in size, friction sterilization is performed by using the roller-type sponge 211, the sterilization can be completed by only moving the electronic thermometer 40 by a human hand, and the electronic thermometer is dried by using the fan 212, so that the electronic thermometer is put into the storage grid 22 with an unlimited size, and the whole process is simple and easy to operate. The utility model aims at the common electronic thermometer 40, is provided with the easy-to-operate sterilizing and storing structure, ensures that the sterilizing is complete and free of dead angles, greatly facilitates the sterilizing and taking of the electronic thermometer 40, and can greatly reduce the workload of medical staff.

Referring again to fig. 1 and 2, in another preferred embodiment, the apparatus of the present utility model further comprises a control system, the drum-type sponge 211 is driven by a motor, the motor and the blower 212 are respectively connected with the control system, the control system controls the sterilizing liquid to quantitatively output to the drum-type sponge 211 according to signals, and controls the motor and the blower 212 to sequentially and regularly operate. The drum-type sponge 211 is driven by a motor, and the motor rotation speed and the rotation time period can be controlled. At one side of the drum-type sponge 211 and the blower 212, infrared sensors can be respectively arranged, after a human hand is detected, the drum-type sponge 211 or the blower 212 is started, the drum-type sponge 211 works for 5s-20s first to ensure disinfection in place, and then the blower 212 is started to blow dry for 5s-10 s. The control system can improve the automation degree of the utility model and further simplify the operation.

With continued reference to fig. 2, in another preferred embodiment, the sterilization member 21 further includes a spray port 213, the spray port 213 being in communication with the sterilization chamber 10. In actual operation, considering that the disinfectant is oozed out of the drum-type sponge 211 for a long time, in order to improve the disinfection efficiency, the spraying opening 213 may be provided to directly spray the disinfectant on the surface of the electronic thermometer 40 for cleaning and disinfecting, and when the drum-type sponge 211 is occupied, the spraying opening 213 may be directly utilized to obtain the disinfectant, and then the disinfectant is manually cleaned and disinfected, so that the use pressure can be relieved when the work is busy.

With continued reference to fig. 2, in another preferred embodiment, an electrical heating element 60 is provided within each roller sponge 211. After the disinfectant is used, the effect is lost, and most of the practical application uses alcohol or hypochlorous acid, so that the annular sponge 3111 and the roller-type sponge 211 can be heated regularly, residual alcohol in the interior is evaporated, and the disinfectant in the interior is updated conveniently. The electric heating element 60 may be provided in particular in a layered or tubular form, optimally adapted to the drum-type sponge 211.

With continued reference to fig. 2, in another preferred embodiment, each compartment 22 is provided with a separate cover 221. Since the electronic thermometers 40 are stored in the storage compartments 22 and the drum-type sponge 211 is provided above, in order to protect the sterilized electronic thermometers 40, each storage compartment 22 is provided with an independent outer cover 221, and when the electronic thermometers 40 need to be taken out, the corresponding outer cover 221 is opened. The bottom of each storage compartment 22 is provided with an elastic pad 222, and in order to facilitate the taking of the thermometer, the metal detecting head of the electronic thermometer 40 is arranged downward, so that the detecting head is protected by the elastic pad 222 in order to reduce the abrasion collision of the detecting head.

Referring to fig. 3, in another preferred embodiment, a pair of elastic blocks 223 are provided in the side wall of the storage compartment 22, and the elastic blocks 223 are abutted against the inserted electronic thermometer 40. The arrangement of the elastic block 223 can reduce the collision between the electronic thermometer 40 and the storage grid 22, and the elastic block 223 has a point structure, so that the placing space of the electronic thermometer 40 is not affected, and the electronic thermometer is convenient to take by hands. In the drawing of the present embodiment, the elastic pieces 223 are provided in two pairs, which position each side face of the electronic thermometer 40. Even if the position of the electronic thermometer 40 is not accurately placed, correction can be performed by the elastic block 223. Specifically, the elastic block 223 may be made of a silica gel material or a sponge material.

Referring to fig. 1 and 4, the insertion area 30 is used for storing the glass thermometer 50, the outer side of the insertion area 30 is provided with an operation surface 31, and the operation surface 31 is provided with a plurality of storage grooves 311 for storing the glass thermometer 50. In the illustration, the operation surface 31 is arranged vertically, directly faces the operator, and can be taken without lowering the head, and in other embodiments, the operation surface 31 may be arranged obliquely or horizontally. The inner wall of each storage tank 311 is provided with an annular sponge 3111, and the annular sponge 3111 is communicated with the sterilizing chamber 10 to adsorb sterilizing liquid. Because the annular sponge 3111 adsorbs the disinfectant, when the glass thermometer 50 is put in, the outer surface of the glass thermometer 50 needs to be squeezed and rubbed by the annular sponge 3111, so that the wiping and disinfecting actions of hands can be replaced, and secondary disinfection can be performed at regular time in the storage process. According to the utility model, the insertion area 30 is arranged for the glass thermometer 50, so that not only the glass thermometer 50 and the electronic thermometer 40 are classified and stored, but also different disinfection structures are arranged according to the appearance and size characteristics, and the contact type thermometer can be stored. The glass thermometer 50 is stored in the storage groove 311, the human hand can visually see each storage groove 311 on the operation surface 31, the number of the thermometers can be visually observed, the glass thermometer 50 can be stored by inserting the human hand, the disinfection can be started when the glass thermometer 50 is inserted, and the annular sponge 3111 can replace the wiping disinfection action of the human hand.

Specifically, the glass thermometer 50 can be exposed to a section for convenient hand taking, when the glass thermometer 50 needs to be dried with the disinfectant, the glass thermometer can also be dried with the blower 212, and the blower 212 is not limited to be applied to the electronic thermometer 40.

The insertion area 30 and the storage area 20 are required to be communicated with the disinfection chamber 10, so that the insertion area 30, the disinfection chamber 10 and the storage area 20 are sequentially stored and arranged, and after the hands are disinfected through the disinfection opening 11 of the disinfection chamber 10, the insertion area 30 is opened leftwards, and the storage area 20 is opened rightwards.

In another preferred embodiment, a part of the pipe wall of the storage tank 311 is provided with a plurality of through holes 3112, and the outer circumference of the pipe wall is provided with an outer cylinder 3113, and the sterilizing liquid controllably sequentially enters the outer cylinder 3113, the through holes 3112 and is adsorbed by the annular sponge 3111. In order to allow the annular sponge 3111 to absorb a sufficient amount of sterilizing fluid, a portion of the wall of the storage tank 311 (the wall near the operation face 31) is provided with a plurality of holes, allowing the sterilizing fluid to enter the annular sponge 3111 uniformly and rapidly. Considering that the storage groove 311 is horizontally arranged in the drawing, in order to increase the adsorption speed of the sterilizing liquid, the sterilizing liquid may enter from the upper portion of the outer cylinder 3113, and the sterilizing liquid may enter the annular sponge 3111 by using both gravity and adsorption force.

With continued reference to FIG. 4, in another preferred embodiment, the annular sponge 3111 has a length that is 0.25-0.5 times the length of the storage slot 311. In order to improve the overall friction sterilization, the length of the annular sponge 3111 is appropriately extended, and in addition, the glass thermometer 50 can be limited, so that the collision of the glass thermometer 50 is reduced, and the storage safety is improved.

Referring again to fig. 1, in another preferred embodiment, the sterilization chamber 10 communicates with each of the reservoirs 311 via a line 12, with a control valve disposed between the line 12 and each of the reservoirs 311. Because the glass thermometers 50 in the storage tanks 311 are not synchronously taken, the glass thermometers 50 need to be independently disinfected and independently supplemented with disinfectant, and a control valve needs to be arranged between the lead-out pipeline 12 and each storage tank 311 to control the on-off of the disinfectant. In this embodiment, the storage slots 311 in a row share a main transverse passage, and a branch is disposed between the main transverse passage and each storage slot 311, so that the control valve should be disposed on the branch. The control valve is preferably an electronic valve, and is automatically controlled by a signal, and after the glass thermometer 50 is put in by a human hand, the control system opens the corresponding control valve to convey disinfectant.

In another preferred embodiment, the utility model further comprises a control system, wherein the inner end of each storage tank 311 is provided with a pressure sensor 312, the pressure sensor 312 is connected with the control system, the pressure sensor 312 outputs signals, and the control system controls the disinfectant to be quantitatively output to the storage tank 311 according to the signals. After the glass thermometer 50 in the storage groove 311 is put in, the pressure sensor 312 at the inner end is extruded, and the pressure sensor 312 outputs signals, so that the degree of automation is improved.

With continued reference to fig. 1, in another preferred embodiment, the present utility model further includes a control system, wherein an indicator light 313 is provided on one side of each storage slot 311, and the indicator light 313 is controllably changed in light color by the control system. The indicator light 313 may be set to two colors as needed to indicate "sterilization in progress" and "sterilization completed", and if the indicator light 313 is off, the glass thermometer 50 is not present in the storage tank 311. Specifically, a pressure sensor 312 or an infrared sensor may be provided in the storage tank 311 to determine whether the glass thermometer 50 is present in the storage tank 311.

In another preferred embodiment, the outer sides of the sterilizing elements 21 are rotatably provided with covers, respectively, which open to both sides or upwards. The outer cover is used for being separated from the external environment to prevent external bacteria from entering, and specifically, the outer cover can be transparent, so that the thermometer inside can be visually seen. A transparent cover can be arranged on the outer side of the operation surface 31 to isolate and sterilize.

It should be noted that in this document, relational terms such as "first" and "second" and the like are 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. Moreover, 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, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The foregoing is only a specific embodiment of the utility model to enable those skilled in the art to understand or practice the utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A sterilizable thermometer storing device, comprising:

the disinfection chamber is internally provided with a disinfectant, and is provided with a disinfection opening for the disinfectant to flow out for disinfecting hands; the method comprises the steps of,

the storage area comprises a sterilizing part and a storage grid, the sterilizing part comprises a fan and a pair of roller-type sponges which are arranged side by side, the two roller-type sponges are opposite in direction, the roller-type sponges are communicated with the sterilizing chamber to adsorb sterilizing liquid, and the storage grid is arranged to be a plurality of storage electronic thermometers.

2. The sterilizable thermometer holder of claim 1 further comprising a control system, wherein the drum-type sponge is driven by a motor, wherein the motor and the blower are respectively connected to the control system, wherein the control system controls the quantitative output of the sterilizing liquid to the drum-type sponge according to signals, and controls the motor and the blower to run sequentially and regularly.

3. The sterilizable thermometer holder of claim 1 wherein said sterilization member further comprises a spray port, said spray port communicating with said sterilization chamber.

4. The sterilizable thermometer storing device of claim 1, wherein an electric heating element is provided inside each of the drum-type sponges.

5. The sterilizable thermometer holder of claim 1 wherein each of said compartments is provided with a separate cover and the bottom of each of said compartments is provided with a resilient pad.

6. The sterilizable thermometer holder of claim 1 wherein a pair of resilient blocks are disposed within the side walls of the storage compartment, the resilient blocks abutting the inserted electronic thermometer.

7. The sterilizable thermometer holder of claim 1 further comprising an insertion area, wherein an operating surface is provided on an outer side of the insertion area, wherein the operating surface is provided with a plurality of storage slots for placing glass thermometers, and wherein an annular sponge is provided on an inner wall of each storage slot, wherein the annular sponge is in communication with the sterilization chamber for adsorbing a sterilizing fluid.

8. The sterilizable thermometer storing device according to claim 7, wherein a part of the tube wall of the storing groove is provided with a plurality of through holes, and an outer tube is arranged on the periphery of the tube wall, and the sterilizing liquid controllably sequentially enters the outer tube, the through holes and is adsorbed by the annular sponge.

9. The sterilizable thermometer holder of claim 7 further comprising a control system, wherein a pressure sensor is provided at an inner end of each of said reservoirs, said pressure sensor being coupled to said control system, said pressure sensor outputting a signal, said control system controlling the quantitative output of sterilizing fluid to said reservoirs in response to said signal.

10. The sterilizable thermometer storing device of claim 1, wherein the outer sides of the sterilization member are respectively rotatably provided with covers which are opened to both sides or upward.

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