CN217611430U - Induction sharps barrel - Google Patents

Abstract

The utility model belongs to the technical field of the medical instrument technique and specifically relates to a response edge tool bucket is related to when alleviating the sharp-pointed medical utensil of input operating personnel's hand needs to contact the edge tool bucket, needs manual switching edge tool bucket, operates inconvenient and have the technical problem of cross infection risk. The method comprises the following steps: the inductive bucket comprises an inductive bucket body, an inductive bucket cover, a driving component, an infrared inductive switch, a first proximity switch and a second proximity switch; the top of the induction barrel body is provided with a first throwing port, and the barrel cover of the induction barrel is provided with a second throwing port which can rotate to be communicated with the first throwing port; the edge of the top of the induction barrel main body is provided with a sliding groove, the lower portion of a barrel cover of the induction barrel is provided with a sliding rod, the sliding rod extends into the sliding groove, the sliding rod can slide along a moving path provided by the sliding groove, and the first proximity switch and the second proximity switch are respectively arranged at two ends of the sliding groove. The induction sharps barrel provided by the scheme does not need to be opened and closed manually, is convenient to operate and does not have cross infection risks.

Description

Induction sharps barrel

Technical Field

The utility model belongs to the technical field of the medical instrument technique and specifically relates to a response edge tool bucket is related to.

Background

In daily medical care work, after doctors or nurses carry out medical care operations on patients, some disposable sharp medical appliances are often abandoned, such as needles of disposable articles like syringes and infusion sets, medical small glass products, various blades, scalp needle suture needles and other sharp appliances, and the sharp appliances are intensively placed in a sharp appliance barrel for treatment after being used, so that the sharp medical appliances are prevented from being accidentally scratched by medical care personnel or other personnel.

However, the traditional sharps barrel is simple in structure, needs to be manually opened and closed, is inconvenient to use, when an operator holds sharp medical appliances needing to be placed in the sharps box in hand, the sharp medical appliances need to be concentrated on one hand, the other hand is used for operating the opening of the sharps barrel cover, the sharp medical appliances are prone to accidentally injure the operator, and the sharp medical appliances can be opened and closed only by touching the sharps barrel by the hand of the operator, so that the operation is inconvenient and the risk of cross infection exists.

SUMMERY OF THE UTILITY MODEL

The utility model provides an response edge tool bucket to operating personnel's hand needs to contact the edge tool bucket when alleviating the sharp-pointed medical utensil of input, needs manual switching edge tool bucket, operates inconvenient and have the technical problem of cross infection risk.

In order to alleviate above-mentioned technical problem, the utility model provides a technical scheme lies in:

in a first aspect, the utility model provides an induction sharps container, include: the inductive bucket comprises an inductive bucket body, an inductive bucket cover, a driving component, an infrared inductive switch, a first proximity switch and a second proximity switch;

the top of the induction barrel body is provided with a first throwing port, and the barrel cover of the induction barrel is provided with a second throwing port which can rotate to be communicated with the first throwing port;

the edge of the top of the induction barrel main body is provided with a sliding chute, the lower part of the induction barrel cover is provided with a sliding rod, the sliding rod extends into the sliding chute and can slide along a moving path provided by the sliding chute, and the first proximity switch and the second proximity switch are respectively arranged at two ends of the sliding chute;

the first proximity switch sends a first signal when the induction barrel cover rotates along a first direction until the first putting port and the second putting port are aligned;

the second proximity switch sends a second signal when the induction barrel cover rotates along a second direction until the first throwing port completely deviates from the second throwing port;

the first direction is opposite the second direction;

the infrared induction switch is arranged at the top of the induction barrel main body and is electrically connected with the driving component, and the infrared induction switch is triggered after detecting that a human body approaches and sends a start-stop signal to the driving component after being triggered;

the driving component is arranged in the induction barrel main body and is in transmission connection with the induction barrel cover;

the driving component is started when receiving a starting signal of the infrared induction switch and is stopped after receiving a first signal, and at the moment, the cover of the induction barrel is opened;

and the number of the first and second groups,

the driving component is started after receiving the stop signal of the infrared induction switch and stopped after receiving the second signal, and at the moment, the cover of the induction barrel is closed.

In an alternative embodiment of the method of the present invention,

a first clamping groove and a second clamping groove are respectively formed in the groove walls on the two sides of the sliding groove;

the sliding rod is provided with a bulge, and the bulge can be limited in the first clamping groove or the second clamping groove.

In an alternative embodiment of the method of the present invention,

the driving component comprises a connecting rod, the connecting rod penetrates through the top of the induction barrel body to be connected with the induction barrel cover, and the connecting rod can rotate around the axis of the connecting rod.

In an alternative embodiment of the method of the present invention,

the drive member further comprises a drive motor, a first gear and a second gear;

the output shaft of the driving motor is transversely arranged;

the first gear is connected to an output shaft of the driving motor and is set as a bevel gear;

the axis of the second gear is vertically arranged, and the gear surface is meshed with the first gear and is connected with the connecting rod.

In an alternative embodiment of the method of the present invention,

the induction sharps barrel further comprises a one-way throwing part;

the unidirectional throwing part is arranged below the first throwing port and is in an inverted conical turn structure, and a discharge port is arranged at the lower part of the unidirectional throwing part;

the unidirectional throwing part comprises a plurality of elastic sheets formed by enclosing along the vertical direction;

the circle port is closed when the object is not thrown in the first throwing port, and the circle port is opened under the action of the extrusion force when the object is thrown in the first throwing port.

In an alternative embodiment of the method of the present invention,

the induction barrel cover is provided with a needle pulling clamping groove, and the needle pulling clamping groove is used for enabling the needle head to be separated from the needle cylinder.

In an alternative embodiment of the method of the present invention,

the induction sharps barrel further comprises a battery bin;

the battery compartment is fixed in the outer wall of the induction barrel main body, and the outer wall of the battery compartment is provided with a charging interface.

In an alternative embodiment of the method of the present invention,

the induction sharps barrel further comprises a buzzer;

the buzzing portion is arranged on the outer wall of the induction barrel main body, and is triggered when the electric quantity of the battery exceeds a threshold value.

In an alternative embodiment of the method of the present invention,

the induction sharps barrel further comprises a handheld drive rod;

the handheld driving rod is fixed on the induction barrel cover.

In an alternative embodiment of the method of the present invention,

the induction sharps barrel further comprises a disinfecting part and a hanging part;

the sterilizing part is arranged inside the induction barrel main body;

the hanging part is fixed on the outer wall of the induction barrel body close to the top and is in a hook shape.

The utility model discloses beneficial effect analysis of well induction sharp weapon bucket is as follows:

the infrared inductive switch detects heat change, the infrared inductive switch transmits an opening signal to the driving component, the driving component starts to work, the inductive barrel cover starts to rotate, the sliding rod slides in the sliding groove towards the direction close to the first proximity switch, namely slides along the first direction until the sliding rod abuts against the first proximity switch, the first proximity switch sends out and transmits a first signal to the driving component, the driving component stops working, the inductive barrel cover stops rotating, the inductive barrel cover is opened, and at the moment, the positions of the first throwing port and the second throwing port are aligned, so that the medical sharp instrument can be thrown in; after the medical sharp instrument is put in, make infrared inductive switch detect the heat change once more, infrared inductive switch transmission signal to drive component, drive component begins work, response bucket bung rotates to opposite direction, the slide bar slides to the direction that is close second proximity switch in the spout, the second direction promptly, until leaning on the second proximity switch, second proximity switch sends and transmits the second signal to drive component, drive component stop work, response bucket bung stall, the second is put in mouthful skew first mouth of putting in completely, response bucket bung closes, operating personnel's hand need contact sharp instrument bucket when having alleviated the sharp medical instrument of putting in, need manual switching sharp instrument bucket, the inconvenient technical problem who just has the cross infection risk of operation.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention or the related art, the drawings required to be used in the description of the embodiments or the related art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of an induction sharps container according to an embodiment of the present invention;

fig. 2 is a schematic structural view of an induction barrel body and an induction barrel cover according to an embodiment of the present invention;

FIG. 3 is a schematic view of the drive mechanism and the sterilization section of the induction sharps barrel according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a slide bar, a protrusion and a connecting rod in an induction sharps container according to an embodiment of the present invention;

fig. 5 is a schematic structural view of a sliding rod, a protrusion, a sliding groove and a first clamping groove in an induction sharps container according to an embodiment of the present invention;

FIG. 6 is a schematic view of an induction sharps container with a hanging portion according to an embodiment of the present invention;

fig. 7 is a schematic structural view of a unidirectional release part in an induction sharps container provided by the embodiment of the present invention.

Icon:

100-an induction barrel main body; 110-a first drop port; 120-a chute; 121-a first card slot; 122-a second card slot; 123-a first proximity switch; 124-a second proximity switch; 200-induction barrel cover; 210-a second drop port; 220-a slide bar; 221-bumps; 230-pulling the needle and clamping the groove; 300-a drive member; 310-a drive motor; 320-a connecting rod; 330-a first gear; 340-a second gear; 400-infrared inductive switch; 500-a unidirectional delivery part; 600-a battery compartment; 610-a charging interface; 700-a buzzer; 800-hand-held drive rod; 900-a disinfection part; 1000-suspension.

Detailed Description

At present, when medical staff puts used medical sharps into a sharps barrel, one hand holds the medical sharps, the other hand needs to contact the sharps barrel to open and close the sharps barrel, the operation is inconvenient, and the risk of cross infection exists.

In view of this, the utility model provides an induction sharps container, include: the induction barrel comprises an induction barrel main body 100, an induction barrel cover 200, a driving member 300, an infrared induction switch 400, a first proximity switch 123 and a second proximity switch 124; the top of the induction barrel body 100 is provided with a first putting port 110, and the induction barrel cover 200 is provided with a second putting port 210 which can rotate to be communicated with the first putting port 110; the top edge of the induction barrel main body 100 is provided with a sliding chute 120, the lower part of the induction barrel cover 200 is provided with a sliding rod 220, the sliding rod 220 extends into the sliding chute 120, the sliding rod 220 can slide along a moving path provided by the sliding chute 120, and the first proximity switch 123 and the second proximity switch 124 are respectively arranged at two ends of the sliding chute 120; the first proximity switch 123 sends a first signal when the induction barrel cover 200 rotates in the first direction until the first input port 110 and the second input port 210 are aligned; the second proximity switch 124 sends a second signal when the induction barrel cover 200 rotates in the second direction until the first input port 110 is completely deviated from the second input port 210; the first direction is opposite to the second direction; the infrared induction switch 400 is arranged at the top of the induction barrel main body 100 and is electrically connected with the driving member 300, the infrared induction switch 400 is triggered after detecting that a human body approaches, and sends a start-stop signal to the driving member 300 after being triggered; the driving member 300 is disposed in the induction tub body 100 and is in transmission connection with the induction tub cover 200; the driving member 300 is started when receiving a start signal of the infrared induction switch 400, and is stopped after the driving member 300 receives a first signal, and at this time, the induction tub cover 200 is opened; and, the driving member 300 is started after receiving the stop signal of the infrared induction switch 400, and is stopped after receiving the second signal, at which time the induction tub cover 200 is closed.

The infrared induction switch 400 detects the heat change, the infrared induction switch 400 transmits an opening signal to the driving member 300, the driving member 300 starts to work, the induction barrel cover 200 starts to rotate, the sliding rod 220 slides in the sliding groove 120 towards the direction close to the first proximity switch 123, namely slides along the first direction until the sliding rod abuts against the first proximity switch 123, the first proximity switch 123 sends out and transmits a first signal to the driving member 300, the driving member 300 stops working, the induction barrel cover 200 stops rotating, the induction barrel cover 200 is opened, and at the moment, the positions of the first putting port 110 and the second putting port 210 are aligned, so that the medical sharp tool can be put in; after the medical sharp instrument is put in, the infrared sensing switch 400 detects the heat change again, the infrared sensing switch 400 transmits a signal to the driving member 300, the driving member 300 starts to work, the sensing barrel cover 200 rotates in the opposite direction, the sliding rod 220 slides in the sliding groove 120 in the direction close to the second proximity switch 124, namely in the second direction until the sliding rod abuts against the second proximity switch 124, the second proximity switch 124 sends out a second signal and transmits the second signal to the driving member 300, the driving member 300 stops working, the sensing barrel cover 200 stops rotating, at the moment, the second putting port 210 completely deviates from the first putting port 110, the sensing barrel cover 200 is closed, and the technical problems that when a sharp medical instrument is put in, the hands of an operator need to contact with the sharp instrument barrel, the sharp instrument barrel needs to be manually opened and closed, the operation is inconvenient, and the cross infection risk exists are solved.

Regarding the shape and structure of the induction tub body 100 and the induction tub cover 200, in detail:

as shown in fig. 1, 2, 4 and 5, the induction drum main body 100 is provided with a first input port 110, a chute 120, a first card slot 121, a second card slot 122, a first proximity switch 123 and a second proximity switch 124. The induction barrel cover 200 is provided with a second input port 210, a sliding rod 220 and a protrusion 221. The induction barrel cover 200 is rotatably mounted on the induction barrel main body 100, the induction barrel cover 200 can rotate relative to the induction barrel main body 100, the sliding rod 220 is located in the sliding groove 120 formed in the inner wall of the induction barrel main body 100 near the top, when the induction barrel cover 200 starts to rotate, the sliding rod 220 starts to move in the sliding groove 120 along the path provided by the sliding groove 120 until the protrusion 221 on the sliding rod 220 enters the first clamping groove 121 or the second clamping groove 122, so that the sliding rod 220 can accurately abut against the first proximity switch 123 or the second proximity switch 124, the first clamping groove 121 and the second clamping groove 122 play a role in limiting, when the sliding rod 220 abuts against the first proximity switch 123 or the second proximity switch 124, the first proximity switch 123 or the second proximity switch 124 can send a corresponding signal, namely a first signal or a second signal, and the first signal and the second signal are signals for stopping the rotation of the induction barrel cover 200.

Regarding the shape and structure of the infrared induction switch 400 and the driving member 300, in detail:

as shown in fig. 3, the driving member 300 includes a connecting rod 320, a driving motor 310, a first gear 330, and a second gear 340. Drive member 300 transmission is connected inside induction barrel main part 100, induction barrel bung 200 is connected with induction barrel main part 100 through connecting rod 320, infrared inductive switch 400 is located the top of induction barrel main part 100, infrared inductive switch 400 can detect infrared inductive switch 400's peripheral heat change and triggered, the treater that has the transport signal in the infrared inductive switch 400, infrared inductive switch 400 after being triggered sends through the treater to driving motor 310 and stops the signal, when infrared inductive switch 400 sends the signal to driving motor 310, driving motor 310 begins work, the output shaft of driving motor 310 that the transverse direction set up rotates, drive first gear 330 and rotate, and then drive the rotation of the vertical second gear 340 of axis, thereby drive connecting rod 320 and rotate, finally drive induction barrel bung 200 and rotate.

Specifically, the first gear 330 may be provided as a bevel gear; the protrusion 221 may be configured as a semicircular protrusion 221, and correspondingly, the first card slot 121 and the second card slot 122 may be configured as semicircular slots.

In an alternative of this embodiment, preferably, when the medical sharp instrument needs to be put into the induction sharp instrument barrel, a human body approaches the infrared induction switch 400, the infrared induction switch 400 senses heat of the human body, the processor sends a start signal to the driving motor 310, the driving motor 310 is started, the output shaft of the driving motor 310 drives the first gear 330 and the second gear 340 to rotate, and further drives the connecting rod 320 to rotate, so that the induction barrel cover 200 starts to rotate in the first direction, the sliding rod 220 slides in the sliding groove 120 until the protrusion 221 enters the first clamping groove 121, at this time, the induction barrel cover rotates to a position where the first putting-in port 110 and the second putting-in port 210 are aligned and communicated, meanwhile, the sliding rod 220 abuts against the first proximity switch 123 located at one end of the sliding groove 120, the first proximity switch 123 sends a first signal to the processor, the processor controls the driving motor 310 to stop working, the induction barrel cover 200 stops rotating, and the medical staff can put the medical sharp instrument into the barrel through the second putting-in port 210 and through the first putting-in port 110; after the medical sharp instrument is put in, a human body approaches the infrared inductive switch 400, the infrared inductive switch 400 senses heat again, the processor sends a signal to the driving motor 310, the driving motor 310 is started, an output shaft of the driving motor 310 drives the first gear 330 and the second gear 340 to rotate, and then the connecting rod 320 is driven to rotate, so that the induction barrel cover 200 starts to rotate in a second direction opposite to the first direction, the sliding rod 220 slides in the sliding groove 120 until the protrusion 221 enters the second clamping groove 122, the induction barrel cover rotates to a position where the first putting-in opening 110 and the second putting-in opening 210 completely deviate from each other, meanwhile, the sliding rod 220 abuts against the second proximity switch 124 located at the other end of the sliding groove 120, the second proximity switch 124 sends a second signal to the processor, the processor controls the driving motor 310 to stop working, the induction barrel cover 200 stops rotating, the process of putting in the medical sharp instrument is achieved, medical staff does not contact with the induction sharp instrument barrel, the risk of cross infection is reduced, and the medical staff are more convenient.

Regarding the shape and structure of unidirectional release portion 500, in detail:

as shown in fig. 7, the unidirectional dispensing part 500 is located on the lower plate surface of the first dispensing opening 110, the unidirectional dispensing part 500 is provided with a plurality of elastic sheets formed by enclosing along the vertical direction, the plurality of elastic sheets form an inverted cone-shaped turn structure, the end part of the plurality of elastic sheets close to the first dispensing opening 110 forms an opening shape, the other end part of the plurality of elastic sheets far away from the first dispensing opening 110 forms a turn structure, when a medical sharp instrument object needs to be dispensed, the medical sharp instrument object passes through the second dispensing opening 210 and passes through the first dispensing opening 110 to be placed in the turn position, the medical sharp instrument object generates extrusion force when being placed in the turn opening, at this time, the turn opening is opened, and the medical sharp instrument object can enter the induction sharp instrument barrel through the turn opening; after the medical sharp tool is put in by an operator, when no object is put in, the turn opening can be automatically closed, the peculiar smell can be effectively separated by the arrangement of the one-way putting part 500, and the pollution of the volatilizable medical object to the environment is reduced.

In addition, a medical garbage bag can be sleeved below the turn opening, so that the medical garbage bag is convenient to store medical garbage.

Regarding the shape and structure of the pincher removal groove 230, in detail:

as shown in fig. 2, the needle pulling groove 230 is located on the cover 200 of the induction barrel on one side of the second input port 210, and the needle pulling groove 230 may be a drop-shaped groove for separating the needle of the syringe from the syringe.

In an alternative scheme of this embodiment, preferably, when a used syringe needs to be put into a barrel, a medical worker approaches the infrared inductive switch 400, the infrared inductive switch 400 sends a turn-on signal to the driving motor 310, the driving motor 310 is started, the induction barrel cover 200 rotates to a position where the first putting port 110 and the second putting port 210 are aligned, the medical worker holds a syringe of the syringe, the syringe vertically extends downwards into the needle pulling clamping groove 230, the needle is clamped by the barrel wall, the medical worker holds the syringe and applies a force opposite to the direction of the syringe needle, so that the syringe needle is separated from the syringe, the syringe needle falls into the barrel through the needle pulling clamping groove 230, the syringe can be put into the barrel through the second putting port 210 and the first putting port 110, the putting process is convenient and fast, and the risk that the syringe needle scratches the medical worker is reduced.

Regarding the shape and structure of the battery case 600 and the buzzer 700, in detail:

as shown in fig. 1, the battery compartment 600 is disposed on the outer wall of the induction barrel main body 100, a rechargeable battery is disposed in the battery compartment 600, the battery compartment 600 has a charging interface 610 for charging the battery, and the battery in the battery compartment 600 can supply power to the first proximity switch 123, the second proximity switch 124, the infrared induction switch 400 and the processor.

Buzzing portion 700 is located the outer wall of response bucket main part 100, and when the electric quantity that the treater detected the battery in battery compartment 600 was less than preset numerical value, the suggestion of buzzing can be carried out, and medical personnel can in time charge to the battery.

Regarding the shape and structure of the hand-held drive lever 800, in detail:

as shown in fig. 1, the hand-held driving rod 800 is positioned on the induction barrel cover 200, and the hand-held driving rod 800 is rotated by holding with a hand and by an axis of the induction barrel cover 200, so as to drive the induction barrel cover 200 to rotate by the first gear 330 and the second gear 340, so as to open the induction barrel cover 200. When the battery is dead, the induction barrel cover 200 can be opened temporarily in this way. Specifically, the handheld driving rod 800 may be configured as a cylinder, and an anti-slip bump may be disposed on an outer wall of the handheld driving rod 800 to increase friction force and facilitate opening of the cover 200 of the induction barrel.

Regarding the shape and structure of the sterilizing part 900, in detail:

as shown in fig. 3, the sterilizing part 900 is located inside the induction drum main body 100, and may be disposed on a side wall of the induction drum main body 100, for sterilizing the inside of the induction drum main body 100, specifically, the sterilizing part 900 may be disposed as an ultraviolet sterilizing lamp.

Regarding the shape and structure of the hanging portion 1000, in detail:

as shown in fig. 6, the hanging part 1000 is disposed on the outer wall of the induction barrel main body 100 near the induction barrel cover 200, and may be configured as a hook shape, so that the induction sharps barrel can be hung to a medical cart or a hospital bed through the hanging part 1000.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (10)

1. An induction sharps bucket, comprising: the inductive bucket comprises an inductive bucket body (100), an inductive bucket cover (200), a driving member (300), an infrared inductive switch (400), a first proximity switch (123) and a second proximity switch (124);

a first putting-in port (110) is formed in the top of the induction barrel body (100), and a second putting-in port (210) which can rotate to be communicated with the first putting-in port (110) is formed in the induction barrel cover (200);

the top edge of the induction barrel main body (100) is provided with a sliding groove (120), the lower part of the induction barrel cover (200) is provided with a sliding rod (220), the sliding rod (220) extends into the sliding groove (120), the sliding rod (220) can slide along a moving path provided by the sliding groove (120), and the first proximity switch (123) and the second proximity switch (124) are respectively arranged at two ends of the sliding groove (120);

the first proximity switch (123) sends a first signal when the induction barrel cover (200) rotates along a first direction until the first input port (110) and the second input port (210) are aligned;

the second proximity switch (124) sends a second signal when the induction barrel cover (200) rotates along a second direction until the first input port (110) is completely deviated from the second input port (210);

the first direction is opposite the second direction;

the infrared induction switch (400) is arranged at the top of the induction barrel main body (100) and is electrically connected with the driving member (300), the infrared induction switch (400) is triggered after detecting that a human body approaches, and sends a start-stop signal to the driving member (300) after being triggered;

the driving component (300) is arranged in the induction barrel main body (100) and is in transmission connection with the induction barrel cover (200);

the driving component (300) is started when receiving a starting signal of the infrared induction switch (400), and is stopped when the driving component (300) receives a first signal, and at the moment, the induction barrel cover (200) is opened;

and the number of the first and second groups,

the driving member (300) is started after receiving the stop signal of the infrared sensing switch (400) and stopped after receiving the second signal, and at the moment, the sensing barrel cover (200) is closed.

2. The inductive sharps bucket of claim 1,

a first clamping groove (121) and a second clamping groove (122) are respectively arranged on the groove walls on the two sides of the sliding groove (120);

the sliding rod (220) is provided with a protrusion (221), and the protrusion (221) can be limited in the first clamping groove (121) or the second clamping groove (122).

3. The inductive sharps bucket of claim 1,

the driving member (300) comprises a connecting rod (320), the connecting rod (320) penetrates through the top of the induction barrel main body (100) to be connected with the induction barrel cover (200), and the connecting rod (320) can rotate around the axis of the connecting rod.

4. The inductive sharps bucket of claim 3,

the drive member further comprises a drive motor (310), a first gear (330) and a second gear (340);

the output shaft of the driving motor (310) is transversely arranged;

the first gear (330) is connected to an output shaft of the driving motor (310) and the first gear (330) is provided as a bevel gear;

the axis of the second gear (340) is vertically arranged, and the gear surface is meshed with the first gear (330) and is connected with the connecting rod (320).

5. The inductive sharps bucket of claim 3, further comprising a unidirectional dispensing portion (500);

the unidirectional throwing part (500) is arranged below the first throwing port (110) and is of an inverted conical turn structure, and a discharge port is arranged at the lower part of the unidirectional throwing part (500);

the unidirectional release part (500) comprises a plurality of elastic sheets formed in a surrounding mode along the vertical direction;

the turnning mouth is closed when no object is thrown into the first throwing port (110), and the turnning mouth is opened under the action of the extrusion force when the object is thrown into the first throwing port (110).

6. The inductive sharps bucket of claim 1,

the induction barrel cover (200) is provided with a needle pulling clamping groove (230), and the needle pulling clamping groove (230) is used for enabling the needle head to be separated from the needle cylinder.

7. The inductive sharps bucket of claim 1 further comprising a battery compartment (600);

battery compartment (600) are fixed in induction barrel main part (100) outer wall, battery compartment (600) outer wall is provided with interface (610) that charges.

8. The induction sharps bucket of claim 7 further comprising a buzzer (700);

the buzzing portion (700) is arranged on the outer wall of the induction barrel main body (100), and the buzzing portion (700) is triggered when the electric quantity of the battery exceeds a threshold value.

9. The inductive sharps bucket of claim 1, further comprising a hand-held drive rod (800);

the handheld driving rod (800) is fixed on the induction barrel cover (200).

10. The inductive sharps bucket of claim 1 further comprising a sanitizing portion (900) and a hanging portion (1000);

the sterilizing part (900) is arranged inside the induction barrel main body (100);

the hanging part (1000) is fixed on the outer wall of the induction barrel main body (100) close to the top and is in a hook shape.

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