CN216569915U - Base and ear temperature rifle subassembly of ear temperature rifle - Google Patents

Abstract

A base of an ear thermometer and an ear thermometer component comprising the base are disclosed, the base comprises a shell and a bracket, the shell comprises a top wall and a side wall, the top wall of the shell forms a containing groove with a notch, and the side wall of the shell is provided with a placing opening communicated with the containing groove; a holder including a fixing structure for fixing or releasing a receiving member for receiving at least one sheath for being worn on a probe by being inserted by the probe of an ear thermometer, the holder transferring the receiving member into the receiving groove by entering the receiving groove through the placing port, the sheath on the receiving member being insertable by the probe entering the receiving groove through the notch and being carried away from its corresponding receiving member in a state in which the receiving member is located in the receiving groove. When the user uses the ear thermometer component, the containing piece can be taken and placed from the side surface of the base.

Description

Base and ear temperature rifle subassembly of ear temperature rifle

Technical Field

This application relates to ear thermometer technical field, concretely relates to base of ear thermometer still relates to an ear thermometer subassembly.

Background

The base of the ear thermometer is a part which can not only contain the sheath (ear cap) but also support the ear thermometer. Currently, the sheath is usually first placed on the receiving member (such as a sheath plate), and then the receiving member can be put into or taken out of the base through the opening above the base, and the base is fixed by using a snap structure.

SUMMERY OF THE UTILITY MODEL

According to a first aspect, an embodiment provides a base for an ear thermometer comprising a housing and a support;

the shell comprises a top wall and a side wall, wherein the top wall of the shell forms an accommodating groove with a notch, and the side wall of the shell is provided with a placing opening communicated with the accommodating groove;

a holder including a fixing structure for fixing or releasing a receiving member for receiving at least one sheath for being worn on a probe by being inserted by the probe of the ear thermometer, the holder transferring the receiving member into a receiving groove by entering the receiving groove through a placing port, the sheath on the receiving member being exposed from the notch in a state where the receiving member is located in the receiving groove.

In some embodiments, the fixing structure includes a limiting portion located between the receiving member and a notch of the receiving groove in a state where the receiving member is transferred to the receiving groove by the bracket, so as to block the receiving member from being taken away from the receiving groove along with the sheath.

In some embodiments, the support further includes a support structure, the support structure has a bearing surface for bearing the receiving member, the bearing surface has at least one mounting groove, and in a state where the receiving member is placed on the bearing surface, the at least one mounting groove is used for allowing the sheaths to be embedded one by one, so as to prevent the sheaths from falling off the receiving member due to a force applied by the probe in a process of being inserted by the probe.

In some embodiments, the housing and the rack form a drawer structure.

In some embodiments, the securing structure comprises at least two clamps arranged to be able to clamp or release the structure of the receptacle; or

The fixing structure comprises a first structure which is used for being matched with a second structure arranged on the accommodating piece so as to complete the fixing of the accommodating piece; or

The fixing structure comprises at least two opposite elastic pieces, the elastic pieces are arranged to surround an accommodating space for fixing the accommodating piece, and the elastic pieces are used for being pressed by the accommodating piece entering the accommodating space to apply pressing force to the accommodating piece so as to fix the accommodating piece.

In some embodiments, the elastic member comprises at least one of a spring, a tendon, or a soft gel.

According to a second aspect, an embodiment provides a base for an ear thermometer comprising a housing and at least two opposing resilient members;

the outer shell comprises a top wall and a side wall, wherein the top wall of the outer shell forms a containing groove with a notch, and the notch is used for allowing the receiving piece to enter or leave the containing groove;

the at least two elastic pieces are distributed on the groove wall of the accommodating groove along the circumferential direction of the accommodating groove, the accommodating piece is used for accommodating at least one sheath, the sheath is used for being worn on a probe through being inserted by the probe of the ear thermometer, the at least two elastic pieces are used for being extruded by the accommodating piece to apply extrusion force to the accommodating piece, so that the accommodating piece is fixed, and the sheath on the accommodating piece is exposed from the notch in the state that the accommodating piece is located in the accommodating groove.

In some embodiments, the elastic member comprises at least one of a spring, a tendon, or a soft gel.

In some embodiments, the probe sheath further comprises a support, the support is installed in the accommodating groove, the support comprises a support structure, the support structure is provided with a bearing surface for bearing the accommodating piece, at least one mounting groove is formed in the bearing surface, and in a state that the accommodating piece is placed on the bearing surface, the at least one mounting groove is used for allowing the sheaths to be embedded one by one, so that the sheaths are prevented from falling off the accommodating piece due to force applied by the probe in a process of being inserted by the probe.

According to a third aspect, an embodiment provides a base for an ear thermometer comprising a housing and a securing structure;

the shell comprises a top wall and a side wall, the top wall of the shell forms a containing groove with a notch, the side wall of the shell is provided with a placing opening communicated with the containing groove, the placing opening is used for allowing a receiving piece to enter or leave the containing groove, the receiving piece is used for receiving at least one sheath, and the sheath is used for being worn on a probe by being inserted into the probe of the ear thermometer;

the fixing structure is used for fixing or releasing the accommodating piece entering the accommodating groove through the placing opening, and the sheath on the accommodating piece is exposed out of the notch in the state that the accommodating piece is positioned in the accommodating groove.

In some embodiments, the fixing structure includes a stopper portion located between the receiving member and a notch of the receiving groove in a state where the receiving member is located in the receiving groove to block the receiving member from being taken away from the receiving groove with the sheath.

According to a fourth aspect, an embodiment provides an ear thermometer assembly comprising an ear thermometer, a receiver and a base of any of the first to third aspects;

the ear thermometer comprises a holding part for holding and a probe for detecting temperature;

the receiver is used for receiving at least one sheath, and the sheath is used for being worn on a probe of the ear thermometer through being inserted;

the base is also used for supporting the ear thermometer.

In some embodiments, the receptacle includes at least one receiving aperture, one receiving aperture for carrying one sheath.

According to a fifth aspect, an embodiment provides a base for an ear thermometer, comprising a housing and a receiver;

the outer shell comprises a top wall and a side wall, wherein the top wall of the outer shell forms a containing groove with a notch, and the notch is used for allowing the receiving piece to enter or leave the containing groove;

the accommodating piece is used for accommodating at least one sheath, the sheath is used for being worn on the probe through being inserted by the probe of the ear thermometer, the lateral wall of the accommodating piece is provided with at least two opposite elastic pieces, after the accommodating piece enters the accommodating groove from the notch, the at least two elastic pieces are extruded by the inner lateral wall of the accommodating groove to generate extrusion force, and the accommodating piece is fixed in the accommodating groove under the action of the extrusion force.

In some embodiments, the elastic member comprises at least one of a spring, a tendon, or a soft gel.

In some embodiments, the probe sheath further comprises a support, the support is installed in the accommodating groove, the support comprises a support structure, the support structure is provided with a bearing surface for bearing the accommodating piece, at least one mounting groove is formed in the bearing surface, and in a state that the accommodating piece is placed on the bearing surface, the at least one mounting groove is used for allowing the sheaths to be embedded one by one, so that the sheaths are prevented from falling off the accommodating piece due to force applied by the probe in a process of being inserted by the probe.

According to a sixth aspect, there is provided in an embodiment an ear thermometer assembly comprising an ear thermometer and the base of the fifth aspect described above, the base further being adapted to support the ear thermometer.

In the above embodiment, on one hand, a scheme of putting the receiving part into the base or taking the receiving part out of the base is provided, and in the scheme, the receiving part can be fixed on the bracket outside the base and then conveyed into the base by the bracket, or the receiving part can be directly taken in and put out from the side of the base through the placing opening; on the other hand, for the scheme of taking and placing the receiving part from the upper part of the base, the embodiment also provides a fixing mode different from the buckling structure, and more choices are provided for fixing the receiving part.

Drawings

FIG. 1 is a schematic view of an embodiment of an ear thermometer;

FIG. 2 is a schematic view of an embodiment of a sheath;

FIG. 3 is a schematic view of a receptacle according to one embodiment;

FIG. 4 is a schematic view of a base-supported ear thermometer according to one embodiment;

FIG. 5 is an exploded view of an embodiment of an ear thermometer assembly;

FIG. 6 is a schematic view of another embodiment of a stent;

FIG. 7 is a schematic view of another embodiment of a receiver mounted on a support;

FIG. 8 is an exploded view of another embodiment of an ear thermometer assembly;

FIG. 9 is a schematic view of another embodiment of a rack disposed in the receiving slot;

FIG. 10 is a schematic view of another embodiment of a base-supported ear thermometer;

FIG. 11 is a schematic view of a base of yet another embodiment;

FIG. 12 is an exploded view of yet another embodiment of an ear thermometer assembly;

FIG. 13 is an exploded view of yet another embodiment of an ear thermometer assembly;

100. a base;

120. a housing; 122. accommodating grooves; 122a, notches; 124. a placement port; 126. an end cap; 128a, ribs; 128b, spring plate.

140. A support;

142. a bearing surface; 144. mounting grooves; 146. elastic buckle; 148. a limiting bulge;

200. a receiving member;

220. a sheath; 240. a receiving hole;

300. an ear thermometer;

320. a probe; 340. a grip portion.

Detailed Description

The present application will be described in further detail below with reference to the accompanying drawings by way of specific embodiments. Wherein like elements in different embodiments are numbered with like associated elements. In the following description, numerous details are set forth in order to provide a better understanding of the present application. However, those skilled in the art will readily recognize that some of the features may be omitted or replaced with other elements, materials, methods in different instances. In some instances, certain operations related to the present application have not been shown or described in detail in order to avoid obscuring the core of the present application from excessive description, and it is not necessary for those skilled in the art to describe these operations in detail, so that they may be fully understood from the description in the specification and the general knowledge in the art.

Furthermore, the features, operations, or characteristics described in the specification may be combined in any suitable manner to form various embodiments, and the operation steps involved in the embodiments may be interchanged or modified in order as will be apparent to those skilled in the art. Accordingly, the description and drawings are merely for clarity of description of certain embodiments and are not intended to necessarily refer to a required composition and/or order.

The numbering of the components as such, e.g., "first", "second", etc., is used herein only to distinguish the objects as described, and does not have any sequential or technical meaning. The term "connected" and "coupled" when used in this application, unless otherwise indicated, includes both direct and indirect connections (couplings).

The ear thermometer 300 as referred to in this application, as shown in fig. 1, includes a holding portion 340 and a probe 320, the holding portion 340 is held by a user, electronic components such as a circuit board, a battery and the like necessary for completing the temperature measurement function of the ear thermometer 300 are further disposed inside the holding portion 340, one end of the holding portion 340 is provided with the probe 320, the probe 320 is used for detecting the temperature of the eardrum of a human body, and the probe 320 is generally in a cone structure.

The sheath 220, also referred to as an earcap, refers to a protective sheath for covering the probe 320 or being worn on the probe 320, and is also generally in a cone structure as shown in fig. 2, the cone is hollow inside and has an opening at the bottom, and the sheath 220 is sleeved on the probe 320 through the opening, that is, the probe 320 is inserted into the sheath 220 from the opening at the bottom so as to wear the sheath 220 on the probe 320.

The receiving member 200 is a member for receiving at least one sheath 220, and a typical structure of the receiving member 200 is shown in fig. 3, in which the receiving member 200 is a plate-shaped structure, at least one receiving hole 240 is formed on the receiving member 200, a tip of the sheath 220 having a cone structure passes through the receiving hole 240, and a bottom of the sheath 220 is engaged with the receiving hole 240 to prevent the sheath 220 from falling. In the following embodiments, the storage container 200 is illustrated as an example in fig. 3.

The base 100 has a basic function of supporting the ear thermometer 300, for example, as shown in fig. 4, the ear thermometer 300 can be placed on the base 100, and when the ear thermometer 300 is placed on the base 100, the probe 320 extends into the space reserved for the base 100, so as to prevent the probe 320 from being exposed to the outside for a long time. Fig. 4 shows one way of supporting the ear thermometer 300 on the base 100. the ear thermometer 300 can be placed on the base 100 in other positions, such as upright or inclined.

Example one

Referring to fig. 5, the embodiment provides a base 100 of an ear thermometer 300, the base 100 includes a housing 120 and a fixing structure, the housing 120 includes a top wall and a side wall, and the top wall of the housing 120 forms a receiving groove 122 having a notch 122 a. Besides the notch 122a, the side wall of the housing 120 is opened with a placing opening 124 communicated with the receiving slot 122, and the placing opening 124 is used for allowing the receiving member 200 to enter or leave the receiving slot 122. That is, the user can put the container 200 in the side surface of the base 100 through the placing opening 124, and can take out the container 200 from the side surface of the base 100, which is a broad side surface and may be the front and rear surface of the base 100, the left and right surface, or any side surface with respect to the direction of the notch 122 a.

The fixing structure (not shown in fig. 5) is used for fixing or releasing the receiving member 200 entering the receiving groove 122 through the placing opening 124, when the receiving member 200 is in the receiving groove 122 and fixed by the fixing structure, the sheath 220 on the receiving member 200 can be inserted by the probe 320 entering the receiving groove 122 through the notch 122a and can be taken away from the corresponding receiving member 200, due to the existence of the fixing structure, the receiving member 200 is not easy or can not be taken away from the receiving groove 122 along with the receiving member 200, when the receiving member 200 needs to be replaced, for example, after all the sheaths 220 on the receiving member 200 are taken away, the fixing structure can release the receiving member 200, and the user can take out the receiving member 200 from the placing opening 124.

For example, the placing opening 124 may be defined to be opened at the right side of the base 100, a buckle may be disposed on at least the left side wall of the receiving groove 122, a slot corresponding to the buckle may be disposed at one side of the receiving member 200, and the receiving member 200 may be fixed in the receiving groove 122 by the cooperation of the buckle and the slot. For another example, the setting port 124 may be defined on the right side of the base 100, and opposite elastic members may be provided on the groove walls in front of and behind the receiving groove 122, so that when the receiving member 200 is set in the receiving groove 122 from the setting port 124, the receiving member 200 may be clamped by the front and rear elastic members, thereby completing the fixing of the receiving member 200.

It should be noted that the above example is only an example of the fixing structure of the present embodiment, and structures that may appear in the field at present and in the future may be used as the fixing structure of the present embodiment.

In some embodiments, the base 100 can further include an end cap 126, wherein the end cap 126 can be snapped onto the placement opening 124 to close the placement opening 124. the end cap 126 can be advantageous in reducing contamination of the sheath 220 inside the receiving slot 122 from the outside, such as dust entering the receiving slot 122 from the placement opening 124.

The above-described embodiment provides a structure in which the receiving member 200 can be accessed from the side, compared to the conventional base 100, and there are more options for the user.

Example two

The difference between the second embodiment and the first embodiment is that the base 100 further includes a bracket 140 as shown in fig. 6, as shown in fig. 7 to 10, the fixing structure is disposed on the bracket 140, after the receiving member 200 is fixed on the bracket 140 outside the housing 120, the bracket 140 transfers the receiving member 200 into the receiving groove 122 by entering the receiving groove 122 through the placing opening 124, and if the receiving member 200 is to be replaced, the bracket 140 is taken out from the placing opening 124, and then the receiving member 200 is taken out from the bracket 140. This is advantageous in that the fixing of the containers 200 is performed outside the housing 120, so that a larger operation space is possible when fixing, and the support 140 may be provided in a structure capable of accommodating at least one layer of the containers 200, for example, the containers 200 may be fixed to the support 140 in a stacked manner.

In this embodiment, the supporting structure of the bracket 140 has a supporting surface 142 for supporting the receiving member 200, the supporting surface 142 is provided with at least one mounting groove 144, and when the receiving member 200 is placed on the supporting surface 142, the at least one mounting groove 144 is used for the sheaths 220 to be inserted one by one, so as to prevent the sheaths 220 from falling off the receiving member 200 due to the force applied by the probe 320 in the process of being inserted by the probe 320. It is easy to understand that the receiving member 200 can be placed on the supporting surface 142 from top to bottom, so it is expected that if the bracket 140 with the above structure is adopted in the embodiment, the housing 120 needs to have a certain height to ensure that the receiving member 200 does not interfere with the bracket 140 during the process of entering the receiving groove 122, and in the embodiment, the bracket 140 with the above structure can prevent the sheath 220 from falling off, and the volume of the housing 120 is not increased.

The middle fixing structure of the first embodiment is also applicable to the present embodiment, and the fixing structure of the present embodiment may include a limiting portion, for example, as shown in fig. 6 to 9, the bracket 140 has a pair of elastic buckles 146 opposite to each other, a top of the elastic buckle 146 extends toward the center of the bracket 140 to form a limiting protrusion 148, and the limiting protrusion 148 serves as the limiting portion. When the accommodating part 200 is installed, the pair of elastic buckles 146 can be firstly opened, so that the accommodating part 200 can be placed on the bracket 140 from top to bottom, then the accommodating part 200 placed on the bracket 140 is clamped in the horizontal direction through the elastic buckles 146, the limiting protrusions 148 are matched with the bearing surface 142 to clamp the accommodating part 200 in the vertical direction, and therefore the accommodating part 200 cannot move in the vertical direction.

In some embodiments, as shown in fig. 6 to 10, the bracket 140 forms a drawer structure with the housing 120 so that the bracket 140 can be withdrawn from the side of the housing 120, the end cap 126 is connected to the bracket 140, and a handle is provided on the outer side of the end cap 126 to facilitate the withdrawal of the bracket 140. In addition, other structures matched with the bracket 140 can be arranged inside the shell 120 to complete the positioning and the taking and placing of the bracket 140.

EXAMPLE III

The third embodiment is different from the first and second embodiments in that, in the third embodiment, the placing opening 124 is not formed on the side wall of the housing 120, so that the receiving member 200 is placed into the receiving groove 122 or taken out of the receiving groove 122 from the notch 122a of the receiving groove 122. Compared with the existing base structure, in this embodiment, at least two opposite elastic members are disposed on the groove wall of the receiving groove 122, and the at least two elastic members are distributed on the groove wall of the receiving groove 122 along the circumferential direction of the receiving groove 122, for example, as shown in fig. 11 to 12, a plurality of longitudinal ribs 128a are disposed on the groove wall, when the receiving member 200 enters the receiving groove 122 from top to bottom, the longitudinal ribs 128a are pressed by the receiving member 200 to apply a pressing force to the receiving member 200, so as to fix the receiving member 200, and when the receiving member 200 is to be taken out, the pressing force applied to the circumferential side of the receiving member 200 is overcome. Besides the ribs 128a, the elastic pieces 128b shown in fig. 13 may be adopted, or a soft glue or other structures may be adopted. In this embodiment, the bracket 140 of the first embodiment can be disposed in the receiving groove 122, and since the receiving member 200 is also placed into the receiving groove 122 from top to bottom in this embodiment, the interference between the receiving member 200 and the bracket 140 will not occur even with the bracket 140 of the second embodiment.

Of course, besides the above-mentioned at least two elastic members, other fixing structures may also be adopted in the present embodiment, for example, two opposite clamping members may be disposed on the housing 120, each clamping member includes a clamping end, each clamping member may be connected to the housing 120 through a torsion spring, etc., and under the action of the torsion spring, the clamping end of the clamping member extends into the receiving groove 122 and has a downward pressing tendency. If the accommodating hole 200 is to be placed in the accommodating groove 122, the clamping members are rotated to make the clamping ends leave the accommodating groove 122, after the accommodating hole 200 is placed in the accommodating groove 122, the clamping members are reset to make the accommodating hole 200 clamped between the bracket 140 and the clamping ends, the accommodating member 200 can be fixed through the structure, and the accommodating member 200 can not or is not easy to move along with the accommodating hole in the direction of the notch 122a when the sheath 220 is taken away.

In other embodiments, at least two opposite elastic members may be disposed on the receiving member 200 instead of the groove wall of the receiving groove 122, for example, a ring of ribs 128a may be disposed in the circumferential direction of the receiving member 200, so that the receiving member 200 is clamped in the receiving groove 122, or at least two elastic members may be disposed on both the groove wall of the receiving groove 122 and the receiving member 200, so that the fixing of the receiving member 200 in the receiving groove 122 is completed.

Example four

The present embodiment provides an ear thermometer assembly, which comprises an ear thermometer 300, a base 100 of any one of the first to third embodiments, and a receiving member 200 correspondingly engaged with the base 100.

In the above embodiments, on one hand, a scheme of putting the receiving piece into the base or taking the receiving piece out of the base from the side surface of the base is provided, and in this scheme, the receiving piece can be prevented from being taken away from the accommodating groove along with the sheath by the limiting part; on the other hand, for the scheme of taking and placing the receiving part from the upper part of the base, the embodiment also provides a fixing mode different from the buckling structure, and more choices are provided for fixing the receiving part.

The present invention has been described in terms of specific examples, which are provided to aid understanding of the utility model and are not intended to be limiting. For a person skilled in the art to which the utility model pertains, several simple deductions, modifications or substitutions may be made according to the idea of the utility model.

Claims (17)

1. The base of the ear thermometer is characterized by comprising a shell and a bracket;

the shell comprises a top wall and a side wall, wherein the top wall of the shell forms an accommodating groove with a notch, and the side wall of the shell is provided with a placing opening communicated with the accommodating groove;

a holder including a fixing structure for fixing or releasing a receiving member for receiving at least one sheath for wearing on a probe by being inserted by the probe of an ear thermometer, the holder transferring the receiving member into a receiving groove by entering the receiving groove through a placing port, the sheath on the receiving member being exposed from the notch in a state where the receiving member is located in the receiving groove.

2. The base of claim 1, wherein the fixing structure comprises a limiting portion, and the limiting portion is located between the receiving member and a notch of the receiving groove in a state that the receiving member is moved to the receiving groove by the bracket, so as to prevent the receiving member from being taken away from the receiving groove along with the sheath.

3. The base of claim 1, wherein the support further comprises a support structure having a carrying surface for carrying the receiving member, the carrying surface having at least one mounting groove formed thereon, the at least one mounting groove being adapted to receive the sheaths one by one in a state where the receiving member is placed on the carrying surface, so as to prevent the sheaths from falling off the receiving member due to a force applied by the probe during insertion of the sheaths by the probe.

4. A base as claimed in any one of claims 1 to 3, wherein the housing and the support form a drawer structure.

5. The base of claim 1, wherein the securing structure comprises at least two clamps configured to clamp or release the receiver; or

The fixing structure comprises a first structure which is used for being matched with a second structure arranged on the accommodating piece so as to complete the fixing of the accommodating piece; or

The fixing structure comprises at least two opposite elastic pieces, the elastic pieces are arranged to surround an accommodating space for fixing the accommodating piece, and the elastic pieces are used for being pressed by the accommodating piece entering the accommodating space to apply pressing force to the accommodating piece so as to fix the accommodating piece.

6. The base of claim 5, wherein the elastic member comprises at least one of a spring, a rib, or a soft gel.

7. The base of the ear thermometer is characterized by comprising a shell and at least two opposite elastic pieces;

the outer shell comprises a top wall and a side wall, wherein the top wall of the outer shell forms a containing groove with a notch, and the notch is used for allowing the receiving piece to enter or leave the containing groove;

at least two elastic components distribute on the cell wall of holding tank along the circumference of holding tank, the receiving part is used for accomodating at least one sheath, the sheath is used for wearing on the probe through being inserted by the probe of ear thermometer, at least two elastic components are used for being exerted the extrusion force to the receiving part by the receiving part extrusion, thereby fix the receiving part is located under the state of holding tank, the sheath on the receiving part is followed expose in the notch.

8. The base of claim 7, wherein the elastic member comprises at least one of a spring, a rib, or a soft gel.

9. The base of claim 7, further comprising a bracket, wherein the bracket is installed in the receiving groove, the bracket comprises a supporting structure, the supporting structure has a bearing surface for bearing the receiving member, the bearing surface is provided with at least one mounting groove, and the at least one mounting groove is used for allowing the sheaths to be inserted one by one in a state that the receiving member is placed on the bearing surface, so as to prevent the sheaths from falling off the receiving member due to the force applied by the probe during the process of being inserted by the probe.

10. A base of an ear thermometer is characterized by comprising a shell and a fixing structure;

the shell comprises a top wall and a side wall, the top wall of the shell forms a containing groove with a notch, the side wall of the shell is provided with a placing opening communicated with the containing groove, the placing opening is used for allowing a receiving piece to enter or leave the containing groove, the receiving piece is used for receiving at least one sheath, and the sheath is used for being worn on a probe by being inserted into the probe of the ear thermometer;

the fixing structure is used for fixing or releasing the accommodating piece entering the accommodating groove through the placing opening, and the sheath on the accommodating piece is exposed out of the notch in the state that the accommodating piece is positioned in the accommodating groove.

11. The base of claim 10, wherein the fixing structure comprises a limiting portion, and the limiting portion is located between the receiving member and a notch of the receiving groove in a state that the receiving member is located in the receiving groove, so as to block the receiving member from being taken away from the receiving groove along with the sheath.

12. An ear thermometer assembly comprising an ear thermometer, a receiver and a base as claimed in any one of claims 1 to 11;

the ear thermometer comprises a holding part for holding and a probe for detecting temperature;

the receiver is used for receiving at least one sheath, and the sheath is used for being worn on a probe of the ear thermometer through being inserted;

the base is also used for supporting the ear thermometer.

13. The ear thermometer assembly of claim 12 wherein said receiver includes at least one receiving aperture, one receiving aperture for carrying a sheath.

14. The base of the ear thermometer is characterized by comprising a shell and a receiving piece;

the outer shell comprises a top wall and a side wall, wherein the top wall of the outer shell forms a containing groove with a notch, and the notch is used for allowing the receiving piece to enter or leave the containing groove;

the accommodating piece is used for accommodating at least one sheath, the sheath is used for being worn on the probe through being inserted by the probe of the ear thermometer, the lateral wall of the accommodating piece is provided with at least two opposite elastic pieces, after the accommodating piece enters the accommodating groove from the notch, the at least two elastic pieces are extruded by the inner lateral wall of the accommodating groove to generate extrusion force, and the accommodating piece is fixed in the accommodating groove under the action of the extrusion force.

15. The base of claim 14, wherein the elastic member comprises at least one of a spring, a rib, or a soft gel.

16. The base of claim 14, further comprising a bracket, wherein the bracket is installed in the receiving groove, the bracket comprises a supporting structure, the supporting structure has a bearing surface for bearing the receiving member, the bearing surface has at least one mounting groove, and the at least one mounting groove is used for allowing the sheaths to be inserted one by one in a state that the receiving member is placed on the bearing surface, so as to prevent the sheaths from falling off the receiving member due to the force applied by the probe during the insertion process of the probe.

17. An ear thermometer assembly comprising an ear thermometer and a base as claimed in any one of claims 14 to 16, said base further serving to support said ear thermometer.

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