CN220309573U - Finger sterilizing device - Google Patents

Abstract

The utility model discloses a finger disinfection device, which comprises: the device comprises a base, a first bearing part and a disinfection assembly, wherein the first bearing part is arranged on the base, a containing groove is formed in the first bearing part, the containing groove is provided with a first notch and a second notch, and the first notch is used for enabling a finger to enter and exit the containing groove; the sterilizing component comprises a sterilizing belt, wherein the sterilizing belt is close to the second notch, so that a sterilizing space is jointly limited between the sterilizing belt and the accommodating groove; and the driving assembly is arranged on the base and drives the disinfection belt to move. According to the utility model, the driving assembly and the disinfection assembly are arranged, so that the driving assembly can drive the disinfection belt to move, further, the automatic disinfection of fingers placed in the second notch by a user is realized, the manual disinfection of medical staff is avoided, the workload of the medical staff is reduced, and the working efficiency of the medical staff is improved.

Description

Finger sterilizing device

Technical Field

The utility model relates to the technical field of disinfection devices, in particular to a finger disinfection device.

Background

In the prior art, before the medical staff samples blood of the finger belly of a patient for blood sugar detection, the sterilization of the finger belly is usually performed manually by a cotton swab sterilization method, so that the workload of the medical staff is increased by long-time manual sterilization, the medical staff is tired, and the working efficiency of the medical staff is reduced.

Disclosure of Invention

The present utility model aims to solve at least one of the technical problems existing in the prior art. Therefore, one purpose of the utility model is to provide a finger disinfection device, which realizes automatic disinfection of the finger belly part, reduces the workload of medical staff and improves the working efficiency of the medical staff.

According to an embodiment of the present utility model, a finger sterilizing device includes: the device comprises a base, a first bearing part and a disinfection assembly, wherein the first bearing part is arranged on the base, a containing groove is formed in the first bearing part, the containing groove is provided with a first notch and a second notch, and the first notch is used for a finger to enter and exit the containing groove; the sterilization assembly comprises a sterilization belt, wherein the sterilization belt is close to the second notch, so that a sterilization space is defined between the sterilization belt and the accommodating groove; and the driving assembly is arranged on the base and drives the disinfection belt to move.

According to the finger disinfection device provided by the embodiment of the utility model, the driving assembly and the disinfection assembly are arranged, so that the driving assembly can drive the disinfection belt to move, further, the automatic disinfection of the fingers placed in the second notch by a user is realized, the manual disinfection of medical staff is avoided, the workload of the medical staff is reduced, and the working efficiency of the medical staff is improved.

In some embodiments of the utility model, the finger disinfection apparatus has a disinfection state in which the drive assembly drives the disinfection belt to reciprocate a first set distance.

In some embodiments of the utility model, the finger disinfection apparatus has a index state, and the drive assembly drives the disinfection belt to move a second set distance in the index state.

In some embodiments of the utility model, the disinfecting strip comprises: a disinfection belt carrier and disinfection cotton, wherein the disinfection belt carrier is connected with the driving assembly; the disinfection cotton is arranged on one end of the disinfection belt carrier, which is close to the second notch, and one or more disinfection cotton are arranged on the disinfection belt carrier.

In some embodiments of the present utility model, the driving assembly drives the sterilizing tape carrier to move along a first direction, the sterilizing cotton is arranged at intervals along the first direction when the sterilizing cotton is a plurality of sterilizing cotton, the length of each sterilizing cotton along the first direction is greater than or equal to the first set distance, and the interval distance between any two adjacent sterilizing cotton is equal to the second set distance.

In some embodiments of the utility model, the drive assembly comprises: the sterilizing belt comprises a base, a first reel, a second reel and a driving piece, wherein the first reel and the second reel are arranged on the base; the driving piece is in driving connection with the first scroll and/or the second scroll.

In some embodiments of the utility model, the drive assembly further comprises: the first guide shaft is arranged between the first scroll and the first bearing part, and the disinfection belt is stopped at one side of the first guide shaft, which is close to the first bearing part; the second guide shaft is arranged between the second scroll and the first bearing part, and the disinfection belt is stopped at one side of the second guide shaft, which is close to the first bearing part.

In some embodiments of the utility model, the finger disinfection device further comprises a second bearing part, the second bearing part is arranged on one side of the disinfection belt away from the accommodating groove, the second bearing part is arranged on the base, and one end of the second bearing part, which is close to the disinfection belt, is provided with a finger support groove.

In some embodiments of the utility model, the finger disinfection apparatus further comprises a disinfection lamp and a detection member provided in the disinfection space, the detection member turns off the disinfection lamp when detecting that the finger enters the accommodation groove, and the detection member turns on the disinfection lamp when detecting that the finger exits the accommodation groove.

In some embodiments of the utility model, the base comprises: the shell is provided with a first opening, and the first bearing part, the disinfection assembly and the driving assembly are arranged in the shell; the first cover body covers the first opening, a through hole is formed in the first cover body, and the through hole is opposite to the first notch.

In some embodiments of the utility model, the housing has a second opening opposite the first opening, the base further comprises a partition and a second cover, the partition is disposed within the housing, a first cavity is defined between the partition, the first cover and the housing, and the first support, the sterilization assembly and the drive assembly are disposed within the first cavity; the second cover body covers the second opening, and a second cavity is defined among the second cover body, the partition plate and the shell; the finger disinfection device further comprises a control board, wherein the control board is electrically or communicatively connected with the driving assembly, and the power connection part of the driving assembly and the control board are arranged in the second cavity.

In some embodiments of the utility model, the finger disinfection apparatus further comprises an energy supply member disposed within the second cavity and electrically connecting the control board and the drive assembly, the energy supply member being a plug-in interface or a battery.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model.

Drawings

The foregoing and/or additional aspects and advantages of the utility model will become apparent and may be better understood from the following description of embodiments taken in conjunction with the accompanying drawings in which:

fig. 1 is a schematic perspective view of a finger disinfection apparatus according to an embodiment of the present utility model;

fig. 2 is a schematic perspective view of a finger sterilizing device according to an embodiment of the present utility model;

FIG. 3 is a cross-sectional view of a finger disinfection apparatus according to an embodiment of the present utility model;

FIG. 4 is a schematic view of a disinfecting strip of a finger disinfecting device according to an embodiment of the present utility model;

FIG. 5 is a schematic view of the driving assembly of the finger disinfection apparatus according to the embodiment of the present utility model;

fig. 6 is a schematic perspective view of a finger disinfection apparatus according to a second embodiment of the present utility model.

Reference numerals:

100. a finger disinfection device;

10. a base; 10a, a first cavity; 10b, a second cavity;

11. a housing; 11a, a first opening; 11b, a second opening;

12. a first cover; 12a, through holes;

13. a second cover; 14. a partition plate; 15. an anti-slip member;

20. a first support part; 20a, a receiving groove; 20b, a first notch; 20c, a second notch; 20d, sterilizing the space;

30. a sterilization assembly;

31. a disinfecting belt; 311. a sterile tape carrier; 312. sterilizing cotton;

32. a sterilizing lamp; 33. a detecting member;

40. a drive assembly;

41. a first reel; 42. a second reel; 43. a driving member, 44, a first guide shaft; 45. a second guide shaft; 46. a limiting piece;

50. a second supporting part; 50a, finger brackets;

60. a control board; 61. a first control key; 62. a second control key;

70. an energy supply member.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the utility model.

A finger disinfection apparatus 100 according to an embodiment of the present utility model is described below with reference to fig. 1 to 6.

As shown in fig. 1, a finger sterilizing device 100 according to an embodiment of the present utility model includes: base 10, first supporting portion 20, disinfection subassembly 30, drive assembly 40.

The first supporting portion 20 is disposed on the base 10, the first supporting portion 20 is provided with a receiving groove 20a, the receiving groove 20a has a first notch 20b and a second notch 20c, and the first notch 20b is used for a finger to enter and exit the receiving groove 20a. The sterilizing assembly 30 includes a sterilizing tape 31, and the sterilizing tape 31 is adjacent to the second slot 20c such that a sterilizing space 20d is defined between the sterilizing tape 31 and the receiving groove 20a. A drive assembly 40 is provided on the base 10 and drives the movement of the sterilizing tape 31.

When the finger sterilizing device 100 is used for sterilizing the fingers of the user, the fingers of the user penetrate through the first notch 20b and enter the accommodating groove 20a, the finger belly of the fingers presses the sterilizing tape 31 towards the direction of the second notch 20c, the driving assembly 40 drives the sterilizing tape 31 to move, the fingers extending into the accommodating groove 20a are sterilized, when the fingers are sterilized, the user removes the fingers from the accommodating groove 20a, the driving assembly 40 drives the used sterilizing tape 31 to move out of the sterilizing space 20d, and the unused part of the sterilizing tape 31 moves to the sterilizing space 20d again to be ready for next finger sterilization.

According to the finger disinfection device 100 provided by the embodiment of the utility model, the driving assembly 40 and the disinfection assembly 30 are arranged, so that the driving assembly 40 can drive the disinfection belt 31 to move, further, the automatic disinfection of the fingers placed in the second notch 20c by a user is realized, the manual disinfection of medical staff is avoided, the workload of the medical staff is reduced, and the working efficiency of the medical staff is improved.

As shown in fig. 4, in some embodiments of the present utility model, the finger disinfection apparatus 100 has a disinfection state in which the drive assembly 40 drives the disinfection belt 31 to reciprocate a first set distance α. That is, by setting the sterilization state on the finger sterilization apparatus 100, the driving assembly 40 drives the sterilization belt 31 to reciprocate, and thus, the finger extending into the accommodating groove 20a is reciprocally wiped and sterilized, so that the sterilization belt 31 can be fully utilized, the sterilization belt 31 is prevented from being moved out of the sterilization space 20d without being fully utilized, the usage amount of the sterilization belt 31 can be saved, and meanwhile, the sterilization belt 31 can be fully contacted with the finger belly through reciprocal wiping, so that a better sterilization effect can be achieved on the finger belly.

In some embodiments, when the finger disinfection apparatus 100 is in the disinfection state, the driving belt can reciprocate for achieving friction disinfection on the finger belly, wherein the reciprocating cycle of the driving belt can be set to 2 times, 3 times, 4 times, 5 times, 7 times, 10 times, and of course, the number of reciprocating movements of the driving belt can be set to any value within 2 times to 10 times, which is not repeated here.

In some embodiments of the present utility model, as shown in fig. 4, the finger disinfection apparatus 100 has a transposed state in which the drive assembly 40 drives the disinfection belt 31 to move a second set distance γ. That is, by setting the index state on the finger sterilizing device 100, the used sterilizing tape 31 is moved out of the sterilizing space 20d, and at the same time, the unused sterilizing tape 31 is moved to the sterilizing space 20d, i.e., the position of the accommodating groove 20a, in preparation for the next sterilizing operation, thereby realizing the automation and the intellectualization of the sterilizing process and improving the working efficiency of the finger sterilizing device 100.

As shown in fig. 4, in some embodiments of the present utility model, the sterilization belt 31 includes: a disinfection belt carrier 311 and disinfection cotton 312, wherein the disinfection belt carrier 311 is connected with the driving component 40; a sterilizing cotton 312 is provided on one end of the sterilizing tape carrier 311 near the second slit 20c, and the sterilizing cotton 312 is one or more.

That is, by providing the sterilizing cotton 312 on the sterilizing tape carrier 311, the sterilizing cotton 312 is soaked with a sterilizing liquid such as alcohol, iodophor, etc., and further sterilized by the finger.

Specifically, when the sterilizing cotton 312 is one, the sterilizing cotton 312 is fully distributed on the whole sterilizing tape carrier 311 (the sterilizing tape 31 can be understood as a double-layer structure, one layer is the sterilizing tape carrier 311, the other layer is the sterilizing cotton 312), and the sterilizing cotton 312 is positioned on one side surface of the sterilizing tape 31 close to the sterilizing space 20d, the driving assembly 40 drives the sterilizing tape carrier 311 to reciprocate within a first set distance alpha so that the fingers extending into the sterilizing space 20d wipe and sterilize through the sterilizing cotton 312, after the sterilizing is completed, the driving member 43 drives the sterilizing tape carrier 311 to move a second set distance gamma so that the used area piece on the sterilizing cotton 312 is far away from the sterilizing space 20d, and the unused area on the sterilizing cotton 312 moves into the sterilizing space 20d to be ready for the next sterilizing work.

In some embodiments, the second set distance γ is greater than the first set distance α, that is, when the sterilization is completed, the driving assembly 40 drives the sterilization belt carrier 311 to move a distance greater than the length of the sterilization belt 31, so as to avoid using the same sterilized cotton 312 in two adjacent sterilization processes and avoid cross infection in two adjacent sterilization processes.

As shown in fig. 4, when the number of the sterilizing cottons 312 is plural, the plural sterilizing cottons 312 are distributed at intervals along the length direction of the sterilizing cottons 312, when the finger sterilizing device 100 is in a sterilizing state, one sterilizing cottons 312 is positioned at the position of the sterilizing space 20d, the driving assembly 40 drives the sterilizing belt 31 to move so that the sterilizing cottons 312 reciprocate within the first set distance α, and further, when the sterilizing is completed, the driving assembly 40 drives the sterilizing belt 31 to move the second set distance γ, the used sterilizing cottons 312 are moved out of the sterilizing space 20d, and the adjacent unused sterilizing cottons 312 are moved into the sterilizing space 20d to be ready for the next sterilizing work. Wherein, form the interval between two adjacent disinfection cottons 312, make adjacent two disinfection in-process use different disinfection cottons 312 through the interval, avoid causing adjacent two disinfection in-process to take place cross infection, simultaneously, set up a plurality of disinfection cottons 312 interval distribution and reduced the waste of disinfection cottons 312 on disinfection area carrier 311, and then reduced manufacturing cost, simultaneously because two adjacent disinfection cottons 312 do not contact, consequently also can further reduce cross infection's risk.

In some embodiments of the present utility model, the driving assembly 40 drives the sterilizing tape carrier 311 to move in a first direction (left-right direction as viewed in fig. 1), the sterilizing cotton 312 is disposed at intervals in the first direction when the plurality of sterilizing cotton 312 are disposed, a length of each sterilizing cotton 312 in the first direction is equal to or greater than a first set distance α, and a center distance of any adjacent two sterilizing cotton 312 is equal to a second set distance γ. That is, by forming a space between two adjacent sterilizing cottons 312, different sterilizing cottons 312 are used in two adjacent sterilizing processes, cross infection in two adjacent sterilizing processes is avoided, and meanwhile, the plurality of sterilizing cottons 312 are distributed on the sterilizing tape carrier 311 at intervals, so that waste of the sterilizing cottons 312 is reduced, and further, the production cost is reduced.

It should be noted that, the spacing distance between two adjacent sterilized cottons 312 may be set to 1.0cm, 1.2cm, 1.5cm, 1.8cm, 2.0cm, and the spacing distance between two adjacent sterilized cottons 312 may be set to any length from 1.0cm to 2.0cm, which will not be described in detail herein.

In some embodiments, the receiving groove 20a extends in a second direction (front-to-back direction as shown in fig. 1) that is perpendicular to the first direction. The accommodating groove 20a is used for accommodating a finger to be disinfected, when the finger to be disinfected is stretched into the accommodating groove 20a along the second direction, and the disinfecting belt 31 positioned at the first notch 20b reciprocates along the first direction to disinfect the belly of the finger.

As shown in fig. 5, in some embodiments of the utility model, the drive assembly 40 includes: a first reel 41, a second reel 42, and a driving member 43, the first reel 41 and the second reel 42 being provided on the base 10, one end of the sterilization belt 31 being wound on the first reel 41, the other end being wound on the second reel 42; the driving member 43 is drivingly connected to the first spool 41 and/or the second spool 42.

Through setting up driving piece 43 drive first spool 41 and second spool 42 rotation, and then drive the removal of disinfection area 31, for example, first spool 41 is used for rolling the unused part of disinfection area 31, and second spool 42 is used for rolling the used part of disinfection area 31, makes the disinfection process of finger disinfection device 100 realize automaticly, and then has improved the work efficiency of finger disinfection device 100, and wherein, driving piece 43 can set up as the motor, and driving piece 43 can also set up as other structure that can realize above-mentioned function, and no more detailed description is given here.

In some embodiments, two driving members 43 may be provided, and the two driving members 43 respectively drive the first reel 41 and the second reel 42 to rotate clockwise or counterclockwise at the same time. When the finger sterilizing apparatus 100 is in the index state, the first reel 41 and the second reel 42 simultaneously rotate clockwise or simultaneously rotate counterclockwise, so that the sterilizing tape 31 moves a second set distance γ along the first direction, the used sterilizing cotton 312 is moved out of the sterilizing space 20d, and the adjacent unused sterilizing cotton 312 is moved into the sterilizing space 20d for the next sterilizing operation; when the finger sterilizing device 100 is in a sterilizing state, the first reel 41 and the second reel 42 are simultaneously rotated clockwise to move the sterilizing tape 31 by the first set distance α, and are simultaneously rotated counterclockwise to move the sterilizing tape 31 by the first set distance α to form a sterilizing cycle.

In some embodiments, the driving member 43 may be configured as one, where one driving member 43 drives the first reel 41 to rotate clockwise or counterclockwise, and the second reel 42 is provided with a coil spring mechanism, and the coil spring mechanism keeps the second reel 42 rotating clockwise. Specifically, when the finger sterilizing apparatus 100 is in the transposed state, the first reel 41 and the second reel 42 are simultaneously rotated clockwise, so that the sterilizing tape 31 is moved by the second set distance γ along the first direction, the used sterilizing cotton 312 is moved out of the sterilizing space 20d, and the adjacent unused sterilizing cotton 312 is moved into the sterilizing space 20d for the next sterilizing operation; when the finger sterilizing device 100 is in a sterilizing state, the driving member 43 drives the first reel 41 to rotate clockwise, and the coil spring structure drives the second reel 42 to rotate clockwise to move the sterilizing tape 31 by the first set distance α, and the driving member 43 drives the first reel 41 to rotate counterclockwise again, and the first reel 41 drives the second reel 42 to rotate counterclockwise to move the sterilizing tape 31 by the first set distance α to form a sterilizing cycle. The coil spring structure can drive the first scroll 41 or the second scroll 42 to rotate clockwise, and can also drive the first scroll 41 or the second scroll 42 to rotate anticlockwise.

Of course, the driving member 43 may also drive the second reel 42 to rotate, and the first reel 41 is provided with a coil spring mechanism, which will not be repeated here. The coil spring structure may be configured as other structural members capable of achieving the above functions, which will not be described in detail herein.

It should be noted that, when the finger disinfection apparatus 100 is in the disinfection state, the disinfection cycle is performed multiple times, that is, the disinfection cycle may be performed 2 times, 3 times, 5 times, 6 times, 8 times, and 10 times when the finger disinfection apparatus 100 is in the disinfection state, and the number of the disinfection cycles may be set to any number of times within 2 times to 10 times, which is not described here again.

As shown in fig. 1, 5 and 6, in some embodiments of the present utility model, the first reel 41 and the second reel 42 are provided with a limiting member 46, and the limiting member 46 is detachably provided at one ends of the first reel 41 and the second reel 42 away from the driving member 43. That is, by providing the stoppers 46 on the first and second reels 41 and 42, the sterilizing tape 31 mounted on the first and second reels 41 and 42 is prevented from slipping off, the safety of the finger sterilizing device 100 in operation is improved, and the stoppers 46 are detachably mounted on the first and second reels 41 and 42, thereby facilitating replacement of the used sterilizing tape 31.

Specifically, the limiting member 46 may be an annular limiting sleeve, and the limiting member 46 may be other limiting structures capable of achieving the above functions, which will not be described in detail herein.

As shown in fig. 1 and 6, in some embodiments of the present utility model, the driving assembly 40 further includes: a first guide shaft 44 and a second guide shaft 45, wherein the first guide shaft 44 is arranged between the first scroll 41 and the first bearing part 20, and the sterilizing belt 31 is stopped at one side of the first guide shaft 44 close to the first bearing part 20; the second guide shaft 45 is arranged between the second reel 42 and the first support 20, and the sterilizing tape 31 is stopped against the side of the second guide shaft 45 adjacent to the first support 20.

That is, by providing the first guide shaft 44 and the second guide shaft 45, the moving direction of the sterilizing tape 31 is changed such that the side of the sterilizing tape 31 between the first guide shaft 44 and the second guide shaft 45 where the sterilizing cotton 312 is provided is disposed toward the sterilizing space 20d and is close to the second notch 20c, thereby realizing that the finger inserted into the sterilizing space 20d is sterilized at the second notch 20c by the sterilizing cotton 312.

As shown in fig. 1 and 6, in some embodiments of the present utility model, the finger disinfection apparatus 100 further includes a second supporting portion 50, where the second supporting portion 50 is disposed on a side of the disinfection belt 31 away from the accommodating groove 20a, the second supporting portion 50 is disposed on the base 10, and one end of the second supporting portion 50, which is close to the disinfection belt 31, is provided with a finger support groove 50a. That is, the second supporting portion 50 is disposed to press the finger pad extending into the sterilizing space 20d against the second supporting portion 50, and the sterilizing cotton 312 is disposed between the finger pad and the second supporting portion 50, so that the finger pad is fully contacted with the sterilizing cotton 312, i.e., the contact area between the finger pad and the sterilizing cotton 312 is increased, and the sterilizing effect of the finger pad is improved.

Wherein, the finger support groove 50a may be an arc groove structure, when the finger belly is pressed on the finger support groove 50a, the sterilizing cotton 312 between the finger belly and the second support portion 50 wraps the finger belly along the arc outline of the finger support groove 50a, so that the sterilizing force of the finger sterilizing device 100 is further improved, the two sides of the finger belly can be sterilized by the finger sterilizing device 100, and the sterilizing of the finger belly is more sufficient.

As shown in fig. 6, in some embodiments of the present utility model, the finger sterilizing device 100 further includes a sterilizing lamp 32 provided in the sterilizing space 20d and a detecting member 33, the detecting member 33 turns off the sterilizing lamp 32 when detecting that a finger enters the accommodating groove 20a, and the detecting member 33 turns on the sterilizing lamp 32 when detecting that a finger exits the accommodating groove 20a.

Through setting up sterilamp 32 in disinfection space 20d, realize carrying out the light disinfection to disinfection space 20d, avoided causing cross infection when many people use with finger disinfection device 100, simultaneously, through setting up detecting piece 33, make detecting piece 33 close sterilamp 32 when detecting the finger and get into holding tank 20a, avoided sterilamp 32 light to cause the corruption to human skin, further improved the security of finger disinfection device 100.

Specifically, when a finger extends into the disinfection space 20d, the detecting piece 33 detects that a foreign object appears in the disinfection space 20d, and then the detecting piece 33 feeds back a signal to the disinfection lamp 32, so that the disinfection lamp 32 is extinguished, and the disinfection lamp 32 is prevented from corroding the finger; when the finger leaves the disinfection space 20d, the detecting piece 33 detects that the disinfection space 20d is free of foreign matters, and then the detecting piece 33 feeds back signals to the disinfection lamp 32, so that the disinfection lamp 32 emits light, and then the disinfection space 20d is disinfected by light, so that cross infection caused by different people is avoided.

The sterilizing lamp 32 may use an ultraviolet lamp, the detecting member 33 may use a photoelectric sensor, and of course, the sterilizing lamp 32 and the detecting member 33 may also use other structural members capable of realizing the above functions, which will not be described in detail here.

As shown in fig. 2 and 3, in some embodiments of the present utility model, the base 10 includes: the housing 11 and the first cover 12, the housing 11 has a first opening 11a, and the first bearing part 20, the sterilizing component 30 and the driving component 40 are arranged in the housing 11; the first cover 12 is covered on the first opening 11a, a through hole 12a is arranged on the first cover 12, and the through hole 12a is opposite to the first notch 20 b.

That is, the first supporting part 20, the sterilizing assembly 30 and the driving assembly 40 are installed in the housing 11 by arranging the housing 11 and the first cover 12, so that the sterilizing assembly 30 is prevented from being contacted with the external environment, the external environment is prevented from polluting the sterilizing assembly 30, and meanwhile, the external environment is prevented from interfering the normal operation of the sterilizing assembly 30 and the driving assembly 40, and the protection of the finger sterilizing device 100 on the internal structure is improved. Wherein, through the through hole 12a is arranged on the first cover body 12, the finger can extend into the sterilizing space 20d through the through hole 12a, so that the first cover body 12 can protect the internal structure of the finger sterilizing device 100 and simultaneously does not interfere with the normal operation of the finger sterilizing device 100.

In some embodiments, the first cover 12 is removably mounted to the housing 11. Specifically, a plurality of clamping grooves can be formed in the first cover body 12, a plurality of clamping protrusions corresponding to the clamping grooves are formed in the shell 11, the first cover body 12 is installed on the shell 11 through the clamping protrusions, opening and closing of the first opening 11a are achieved, and of course, other matching structures capable of achieving the functions can be further constructed between the first cover body 12 and the shell 11, and the matching structures are not repeated one by one.

The first cover body 12 can be connected with the shell 11 through a connecting piece, the connecting piece can be of a hinge structure, and one side edge of the first cover body 12 is connected with the shell 11 through the hinge structure, so that the first cover body 12 can rotate relative to the shell 11 by taking the hinge as a central shaft, and further the first opening 11a is opened and closed; the connecting piece can also be provided with a bolt structure, a plurality of threaded holes which are correspondingly arranged are formed in the first cover body 12 and the shell 11, and the first cover body 12 is in threaded connection with the shell 11 through bolts; the connecting piece can be further configured to be capable of opening and closing the first opening 11a through the first cover 12, which will not be described in detail herein.

As shown in fig. 3, in some embodiments of the present utility model, the housing 11 has a second opening 11b opposite to the first opening 11a, the base 10 further includes a partition 14 and a second cover 13, the partition 14 is disposed in the housing 11, a first chamber 10a is defined between the partition 14, the first cover 12 and the housing 11, and the first supporter 20, the sterilizing module 30 and the driving module 40 are disposed in the first chamber 10 a; the second cover 13 covers the second opening 11b, and a second cavity 10b is defined among the second cover 13, the partition 14 and the shell 11; the finger disinfection apparatus 100 further includes a control board 60, the control board 60 being electrically or communicatively connected to the drive assembly 40, the powered portion of the drive assembly 40 and the control board 60 being disposed within the second chamber 10 b. That is, the partition 14 is provided to isolate the first chamber 10a from the second chamber 10b, so that the sterilizing liquid in the sterilizing unit 30 in the first chamber 10a is prevented from volatilizing into the second chamber 10b, and further, the circuit of the control board 60 is prevented from being shorted due to the excessively high humidity in the second chamber 10b, and the line safety of the finger sterilizing device 100 is improved.

The control board 60 may be understood as a PCB electric control board, and the control board 60 may be electrically connected to the sterilizing lamp 32 and the detecting member 33 described above, for controlling the sterilizing lamp 32 and the detecting member 33 to operate.

In some embodiments, the finger disinfection apparatus 100 further comprises a sound emitting member (not shown) mounted within the second chamber 10b and electrically or communicatively connected to the control board 60. Through setting up sound production piece can send the suggestion sound in the use of finger disinfection device 100, reminds user's finger disinfection device 100 operating condition and how to use finger disinfection device 100, has further reduced medical personnel's work load, has improved disinfection efficiency.

Specifically, the prompt tone emitted by the sounding member may be set to be a voice prompt tone, for example, "disinfection is completed, please withdraw a finger", "please stretch into a finger", "disinfection is in progress", etc., and different voice prompts are emitted in different states of the finger disinfection device 100; the prompting sound emitted by the sounding part can be set as prompting sound such as 'Ding', 'dong', 'Du', and the like, and the finger disinfection device 100 is in different states for prompting.

In some embodiments, the finger disinfection apparatus 100 further includes a light emitting element (not shown) disposed on the housing 11, and the light emitting element can emit light when the finger disinfection apparatus 100 is in different states, so as to prompt a user, reduce workload of medical staff, and improve working efficiency of the finger disinfection apparatus 100.

The light emitting elements may be provided in plurality, and different light emitting elements represent different working states of the finger disinfection device 100, for example, when the finger disinfection device is in a disinfection state, the light emitting elements representing the disinfection state are always on, other light emitting elements are off, or the light emitting elements representing the disinfection state are blinking, and other light emitting elements are always on or off;

the light emitting member may be further provided with one light emitting member to emit lights of different colors to indicate the working state of the finger disinfection device 100 at this time, for example, when the finger disinfection device is in a disinfection state, the light emitting member emits red light, and after the disinfection is completed, the light emitting member emits green light, and the light emitting member may be further provided to emit lights of other colors, which will not be repeated here.

As shown in fig. 1 and 2, in some embodiments of the present utility model, the finger disinfection apparatus 100 further includes a first control key 61 and a second control key 62, where the first control key 61 is electrically or communicatively connected to the control board 60 to control the switching of the power supply; the second control key 62 is electrically or communicatively connected to the control board 60 to control the rotation of the driving member 43. That is, by providing the first control key 61 to control the power switch, the finger sterilizing device 100 is in a power-off state when not in use, thereby reducing the energy consumption and preventing damage to the finger sterilizing device 100 due to erroneous touch, and improving the safety performance of the finger sterilizing device 100. Wherein, through setting up second control key 62 control finger disinfection device 100 and disinfecting, for the manual sterilization's of prior art mode, reduced medical personnel's work load, improved work efficiency.

Specifically, the first control key 61 may be set as a pressing key, and when the finger disinfection apparatus 100 is in the off state, the first control key 61 is pressed for a long time to realize the start-up of the finger disinfection apparatus 100; when the finger disinfection device 100 is in the on state, the first control key 61 is pressed for a long time to realize the shutdown of the finger disinfection device 100, the start-up and shutdown caused by the false touch is avoided by pressing the first control key 61 for a long time in the on-off process, so that the safety of the finger disinfection device 100 is improved, wherein the time for pressing the first control key 61 for a long time can be set to 2 seconds, 3 seconds, 4 seconds and 5 seconds, and the time for pressing the first control key 61 for a long time can also be set to any time within 2 seconds to 5 seconds, which is not repeated here.

The first control key 61 may also be set as a dial control key, when the first control key 61 is pushed to the side where the sign is turned on, the finger disinfection device 100 is turned on, and when a control key is pushed to the side where the sign is turned off, the finger disinfection device 100 is turned off, and of course, the first control key 61 may also be set as a control key with other structures, which will not be described in detail herein.

As shown in fig. 3, in some embodiments of the present utility model, the finger disinfection apparatus 100 further comprises an energy supply member 70, wherein the energy supply member 70 is disposed in the second cavity 10b and electrically connects the control board 60 and the driving assembly 40, and the energy supply member 70 is an electrical interface or a battery. That is, the entire finger sterilizing device 100 is supplied with power by providing the power supply means 70.

Wherein, the energy supply part 70 can be set as a storage battery, and the storage battery is arranged in the second cavity 10b and is electrically connected with the control board 60 and the driving component 40, thereby improving the convenience of the finger disinfection device 100 and performing disinfection at any time; the energy supply part 70 can also be set as an electric interface, and the electric interface is set to enable the finger disinfection device 100 to be externally connected with a power supply, so that the working time of the finger disinfection device 100 is prolonged; the energy supply part 70 may also be provided with a storage battery and an electrical interface at the same time, so that the finger disinfection device 100 can be used in different situations, that is, can work through the built-in storage battery when no external power source exists, and can be connected with the external power source when the external power source exists, and meanwhile, the storage battery is charged, so that the working time of the finger disinfection device 100 is prolonged.

As shown in fig. 6, in some embodiments of the present utility model, the finger disinfection apparatus 100 further includes a slip preventing member 15, and the slip preventing member 15 is installed at the bottom of the housing 11. By arranging the anti-slip piece 15, the friction force between the finger disinfection device 100 and a placement plane such as a bottom surface or a tabletop is increased, the finger disinfection device 100 is prevented from sliding in the use process, the disinfection effect is further affected, and the stability of the finger disinfection device 100 in the use process is improved.

Specifically, the anti-slip member 15 may be a protective pad made of ethylene-vinyl acetate copolymer, and of course, the anti-slip member 15 may also be made of other anti-slip materials capable of achieving the above functions, which will not be described in detail herein.

In some embodiments, the finger disinfection apparatus 100 performs an automatic disinfection operation by the detecting member 33. Specifically, when the detecting member 33 detects that the finger enters the accommodation groove 20a, the detecting member 33 transmits a signal to the control board 60, the sterilizing lamp 32 is turned off, and the finger sterilizing device 100 is controlled to sterilize the finger in a sterilized state, and when the detecting member 33 detects that the accommodation groove 20a does not have the finger, the detecting member 33 transmits a signal to the control board 60, and the sterilizing lamp 32 emits light to sterilize the sterilizing space 20d, and simultaneously controls the finger sterilizing device 100 to enter a transposed state, and the sterilizing cotton 312 is replaced.

In some embodiments, the finger disinfection apparatus 100 performs an automatic disinfection operation through the second control 62. Specifically, when the detecting member 33 detects that the finger enters the accommodation groove 20a, the sterilizing lamp 32 is turned off, and the medical staff controls the finger sterilizing device 100 to enter the sterilizing state through the second control key 62; when the detecting member 33 detects that the accommodating groove 20a has no finger, the sterilizing lamp 32 emits light to sterilize the sterilizing space 20d, and the medical staff controls the finger sterilizing device 100 to enter the index state through the second control key 62.

Other constructions and operations of the finger disinfection apparatus 100 according to the embodiments of the present utility model are known to those of ordinary skill in the art and will not be described in detail herein.

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present utility model.

In the description of the utility model, a "first feature" or "second feature" may include one or more of such features.

In the description of the present utility model, "plurality" means two or more.

In the description of the utility model, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, and may also include the first and second features not being in direct contact but being in contact with each other by another feature therebetween.

In the description of the utility model, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicates that the first feature is higher in level than the second feature.

In the description of the present specification, reference to the terms "one embodiment," "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present utility model have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the spirit and principles of the utility model, the scope of which is defined by the claims and their equivalents.

Claims (12)

1. A finger disinfection apparatus, comprising:

a base;

the first bearing part is arranged on the base, the first bearing part is provided with a containing groove, the containing groove is provided with a first notch and a second notch, and the first notch is used for a finger to enter and exit the containing groove;

a sterilization assembly including a sterilization belt adjacent the second slot such that a sterilization space is defined between the sterilization belt and the receiving slot;

and the driving assembly is arranged on the base and drives the disinfection belt to move.

2. The finger disinfection apparatus of claim 1, wherein said finger disinfection apparatus has a disinfection state, said drive assembly driving said disinfection belt to reciprocate a first set distance in said disinfection state.

3. A finger disinfection apparatus as claimed in claim 2, wherein said finger disinfection apparatus has a transposed state, said drive assembly driving said disinfection belt a second set distance in said transposed state.

4. A finger disinfection apparatus as claimed in claim 3, wherein said disinfection belt comprises:

a sterile belt carrier connected to the drive assembly;

and the disinfection cotton is arranged at one end of the disinfection belt carrier close to the second notch, and one or more disinfection cotton are arranged.

5. The finger disinfection apparatus of claim 4, wherein said drive assembly drives said disinfection belt carrier to move in a first direction, said disinfection cottons being spaced apart in said first direction when in plurality, each of said disinfection cottons having a length in said first direction equal to or greater than said first set distance, and any adjacent two of said disinfection cottons having a center-to-center distance equal to said second set distance.

6. The finger disinfection apparatus of claim 1, wherein said drive assembly comprises:

the first reel and the second reel are arranged on the base, one end of the disinfection belt is wound on the first reel, and the other end of the disinfection belt is wound on the second reel;

and the driving piece is in driving connection with the first scroll and/or the second scroll.

7. The finger disinfection apparatus of claim 6, wherein said drive assembly further comprises:

the first guide shaft is arranged between the first scroll and the first bearing part, and the disinfection belt is stopped against one side of the first guide shaft, which is close to the first bearing part;

the second guide shaft is arranged between the second scroll and the first bearing part, and the disinfection belt is stopped at one side of the second guide shaft, which is close to the first bearing part.

8. The finger disinfection apparatus of claim 1, further comprising a second support portion provided on a side of the disinfection belt remote from the receiving groove, the second support portion being provided on the base, one end of the second support portion adjacent to the disinfection belt being provided with a finger-rest groove.

9. The finger disinfection apparatus of claim 1, further comprising a disinfection light and a detection element disposed within said disinfection space, said detection element turning off said disinfection light upon detecting said finger entering said receiving slot, said detection element turning on said disinfection light upon detecting said finger exiting said receiving slot.

10. The finger disinfection apparatus of claim 1, wherein said base comprises:

the shell is provided with a first opening, and the first bearing part, the disinfection assembly and the driving assembly are arranged in the shell;

the first cover body covers the first opening, a through hole is formed in the first cover body, and the through hole is opposite to the first notch.

11. The finger disinfection apparatus of claim 10, wherein said housing has a second opening opposite said first opening, said base further comprising a baffle and a second cover, said baffle disposed within said housing, said baffle, said first cover and said housing together defining a first cavity therebetween, said first support, said disinfection assembly and said drive assembly disposed within said first cavity; the second cover body covers the second opening, and a second cavity is defined among the second cover body, the partition plate and the shell;

the finger disinfection device further comprises a control board, wherein the control board is electrically or communicatively connected with the driving assembly, and the power connection part of the driving assembly and the control board are arranged in the second cavity.

12. The finger disinfection apparatus of claim 11, further comprising an energy supply member disposed within said second cavity and electrically connecting said control board and said drive assembly, said energy supply member being an electrical interface or a battery.