CN218899397U - Stable wireless charging endoscope defogging heater - Google Patents

Abstract

The utility model discloses a stable wireless charging endoscope defogging heater which comprises a defogging heating machine core and a wireless charging base, wherein the defogging heating machine core is provided with a supporting component, an inductive switch and a heating component, the wireless charging base comprises a base body, a wireless charging module arranged on the base body and an anti-slip end cover arranged below the base body, an anti-slip silica gel gasket is embedded at the bottom of the anti-slip end cover, a countersunk head groove is formed in the concave of the base body, the wireless charging base is placed on a tabletop through the anti-slip end cover, and when the defogging heating machine core is placed in the countersunk head groove of the wireless charging base, the wireless charging module supplies power to the inductive switch and the heating component. The wireless charging seat is used for supplying power to the defogging heating machine core on the one hand, and the other party plays a role in bearing a counterweight on the defogging heating machine core, so that the stability of the defogging heating machine core in working is guaranteed, and each part of the endoscope is heated more uniformly.

Description

Stable wireless charging endoscope defogging heater

Technical Field

The utility model relates to the technical field of wires, in particular to a stable wireless charging endoscope defogging heater.

Background

An endoscope is a medical tool for observing ulcers or tumors in the stomach, and is usually required to be heated and defogged before being stretched into the body, so that the problem that the temperature difference between the endoscope and the human body temperature causes the mirror surface of the endoscope to be atomized, which is unfavorable for observing the pathological conditions in the body is avoided, and the traditional endoscope heating defogging device is inconvenient for a user to operate and use due to unreasonable structural design, and has the phenomena of unstable or uneven heating of the endoscope, and the like, so that the endoscope heating defogging device is required to be improved.

Disclosure of Invention

Aiming at the defects in the prior art, the utility model aims to provide a stable wireless charging endoscope defogging heater.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows: the utility model provides a wireless endoscope defogging heater that charges of stable form, it includes defogging heating core and wireless base that charges, defogging heating core is equipped with braced assembly, inductive switch and heating element, wireless base that charges includes the pedestal, locate the wireless module of charging of pedestal and install in the anti-skidding end cover of pedestal below, the bottom of anti-skidding end cover is inlayed and is equipped with anti-skidding silica gel packing ring, the indent shaping of pedestal has the countersunk head trench, wireless base that charges is placed in the desktop via anti-skidding end cover, when the countersunk head trench of wireless base that charges is put into to the defogging heating core, wireless module that charges supplies power to inductive switch and heating element, inductive switch monitors after the endoscope inserts braced assembly, inductive switch sends the signal in order to trigger the heating element of defogging heating core and heat the endoscope.

In a further technical scheme, the bottom of the seat body is provided with a limiting groove, the upper part of the anti-slip end cover is provided with a limiting convex ring, the limiting convex ring of the anti-slip end cover is clamped into the limiting groove of the seat body, and the anti-slip end cover is locked below the seat body through a screw.

In a further technical scheme, the pedestal includes the counter weight seat and closes the conductive cover of lid on the counter weight seat, and conductive cover shaping has countersunk head trench, the counter weight seat is used for the wireless module that charges of holding and provides counter weight support effort to defogging heating core.

In a further technical scheme, wireless module that charges includes battery, charge control circuit and coupling and charges the piece, battery and charge control circuit all built-in the pedestal, the coupling charges the piece and locates in the countersunk slot position, battery and coupling charge the piece all electric connection in charge control circuit.

In a further technical scheme, the support assembly comprises a light-transmitting tube, a guide joint arranged at one end of the light-transmitting tube and used for guiding the endoscope to be inserted into the light-transmitting tube, and a limiting plug arranged at the other end of the light-transmitting tube and used for limiting the endoscope into the light-transmitting tube.

In a further technical scheme, the inductive switch comprises two opposite-shot inductors which are respectively arranged at two sides of the supporting component and are matched with each other for use, and after the endoscope is inserted into the supporting component, opposite-shot light sensing signals of the two opposite-shot inductors are blocked by the endoscope to trigger the heating component to be conducted.

In a further technical scheme, the heating assembly comprises a heating lamp arranged on one side of the supporting assembly and a reflecting assembly arranged on the other side of the supporting assembly, light rays emitted by the heating lamp directly irradiate the endoscope in the supporting assembly, and the reflecting assembly reflects the light rays emitted by the heating lamp and indirectly irradiates the endoscope in the supporting assembly.

By adopting the structure, compared with the prior art, the utility model has the following advantages:

the wireless charging seat is arranged to supply power to the defogging heating machine core, and the defogging heating machine core is provided with the bearing counterweight to ensure the stability of the defogging heating machine core during operation, and the anti-slip end cover is used for increasing the bottom friction force of the wireless charging base to ensure that the defogging heating machine core cannot slip or shake, so that each part of the endoscope is heated more uniformly; wherein, defogging heating core is through in inductive switch monitoring endoscope inserts supporting component, and after inductive switch monitored endoscope inserted supporting component, inductive switch sent the signal in order to trigger heating component and heat defogging to the endoscope.

Drawings

The utility model will be further described with reference to the drawings and examples.

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is an exploded schematic view of the structure of the present utility model;

fig. 3 is a schematic structural view of a defogging heating cartridge.

Detailed Description

The following are only preferred embodiments of the present utility model, and are not intended to limit the scope of the present utility model.

As shown in fig. 1 to 3, in order to achieve the above object, the technical solution adopted by the present utility model is: the utility model provides a stable wireless endoscope defogging heater that charges, it includes defogging heating core 1 and wireless base 2 that charges, defogging heating core 1 is equipped with supporting component 10, inductive switch and heating component 12, wireless base 2 that charges includes the pedestal, locate the wireless module of charging of pedestal and install in the anti-skidding end cover 22 of pedestal below, the bottom of anti-skidding end cover 22 inlays and is equipped with anti-skidding silica gel packing ring, the indent shaping of pedestal has countersunk head trench 210, wireless base 2 that charges is placed in the desktop via anti-skidding end cover 22, when defogging heating core 1 is placed in countersunk head trench 210 of wireless base 2 that charges, wireless module of charging supplies power to inductive switch and heating component 12, inductive switch detects that endoscope 01 inserts supporting component 10 back, inductive switch sends the signal in order to trigger the heating component 12 of defogging heating core 1 and heat the defogging to endoscope 01. According to the utility model, the wireless charging seat 2 is arranged to supply power to the defogging heating machine core 1 on one hand, and plays a role of bearing a counterweight to the defogging heating machine core 1 on the other hand, so that the stability of the defogging heating machine core 1 in working is ensured, the anti-slip end cover 22 is used for increasing the bottom friction force of the wireless charging base 2, and the defogging heating machine core 1 is ensured not to slip or shake, so that each part of the endoscope is heated more uniformly.

Specifically, the bottom of the seat body is provided with a limit groove, the upper part of the anti-slip end cover 22 is provided with a limit convex ring 220, the limit convex ring 220 of the anti-slip end cover 22 is clamped into the limit groove of the seat body, and the anti-slip end cover 22 is locked below the seat body through a screw.

Specifically, the base body includes a counterweight base 20 and a conductive cover 21 covered on the counterweight base 20, the conductive cover 21 is formed with the countersunk slot 210, and the counterweight base 20 is used for accommodating a wireless charging module and providing counterweight supporting force for the defogging heating mechanism 1.

Specifically, the wireless charging module comprises a storage battery, a charging control circuit and a coupling charging piece, wherein the storage battery and the charging control circuit are both arranged in the base, the coupling charging piece is arranged in the countersunk slot 210, and the storage battery and the coupling charging piece are both electrically connected to the charging control circuit.

Specifically, the support assembly 10 includes a light-transmitting tube 100, a guide connector 101 disposed at one end of the light-transmitting tube 100 for guiding the insertion of the endoscope 01 into the light-transmitting tube 100, and a stopper 102 disposed at the other end of the light-transmitting tube 100 for stopping the endoscope 01 in the light-transmitting tube 100. The limiting plug 102 is detachably assembled to the light-transmitting tube 100, and a user can detach the limiting plug 102 to input sterilizing steam or sterilizing liquid into the inner cavity of the light-transmitting tube 100, so that the endoscope 01 is sterilized.

Specifically, the induction switch includes two correlation inductors 11 respectively disposed at two sides of the support assembly 10 and used in cooperation with each other, and after the endoscope 01 is inserted into the support assembly 10, the correlation light sensing signals of the two correlation inductors 11 are blocked by the endoscope 01 to trigger the heating assembly 12 to be turned on. Compared with the structure of the single in-place induction switch, the device can avoid the situation that a user operates by mistake or the impurity substance enters the support assembly 10 to touch by mistake, and ensures the stability of the device.

Specifically, the heating assembly 12 includes a heating lamp 120 disposed on one side of the support assembly 10 and a reflecting assembly 121 disposed on the other side of the support assembly 10, the heating lamp 120 emits light to directly irradiate the endoscope 01 in the support assembly 10, and the reflecting assembly 121 reflects the light emitted by the heating lamp 120 and indirectly irradiates the endoscope 01 in the support assembly 10. The reflecting component 4 is preferably a reflecting concave lens.

The foregoing is merely exemplary of the present utility model, and those skilled in the art should not be considered as limiting the utility model, since modifications may be made in the specific embodiments and application scope of the utility model in light of the teachings of the present utility model.

Claims (7)

1. A stable wireless endoscope defogging heater that charges which characterized in that: including defogging heating core (1) and wireless base (2) that charges, defogging heating core (1) are equipped with supporting component (10), inductive switch and heating component (12), wireless base (2) that charges include the pedestal, locate the wireless module that charges of pedestal and install in anti-skidding end cover (22) of pedestal below, anti-skidding end cover (22) bottom inlays and is equipped with anti-skidding silica gel packing ring, the indent shaping of pedestal has countersunk head trench (210), wireless base (2) place in the desktop through anti-skidding end cover (22), when countersunk head trench (210) of wireless base (2) are put into in defogging heating core (1), wireless charging module supplies power to inductive switch and heating component (12), inductive switch monitors endoscope (01) and inserts supporting component (10) after, inductive switch sends the signal in order to trigger heating component (12) of defogging heating core (1) and carry out the defogging to endoscope (01).

2. The stabilized wireless charging endoscope defogging heater of claim 1, wherein: the bottom of the seat body is provided with a limit groove, a limit convex ring (220) is formed on the upper portion of the anti-slip end cover (22), the limit convex ring (220) of the anti-slip end cover (22) is clamped into the limit groove of the seat body, and the anti-slip end cover (22) is locked below the seat body through a screw.

3. The stabilized wireless charging endoscope defogging heater of claim 1, wherein: the seat body comprises a counterweight seat (20) and a conductive cover (21) covered on the counterweight seat (20), the conductive cover (21) is formed with the countersunk head groove (210), and the counterweight seat (20) is used for accommodating a wireless charging module and providing counterweight supporting acting force for the defogging heating machine core (1).

4. The stabilized wireless charging endoscope defogging heater of claim 1, wherein: the wireless charging module comprises a storage battery, a charging control circuit and a coupling charging piece, wherein the storage battery and the charging control circuit are both arranged in the base, the coupling charging piece is arranged in the countersunk slot (210), and the storage battery and the coupling charging piece are both electrically connected to the charging control circuit.

5. The stabilized wireless charging endoscope defogging heater of claim 1, wherein: the support assembly (10) comprises a light-transmitting tube (100), a guide connector (101) arranged at one end of the light-transmitting tube (100) and used for guiding the endoscope (01) to be inserted into the light-transmitting tube (100), and a limiting plug (102) arranged at the other end of the light-transmitting tube (100) and used for limiting the endoscope (01) into the light-transmitting tube (100).

6. The stabilized wireless charging endoscope defogging heater of claim 1, wherein: the induction switch comprises two opposite-irradiation inductors (11) which are respectively arranged at two sides of the supporting component (10) and are matched with each other, and after the endoscope (01) is inserted into the supporting component (10), opposite-irradiation light sensing signals of the two opposite-irradiation inductors (11) are blocked by the endoscope (01) to trigger the heating component (12) to be conducted.

7. The stabilized wireless charging endoscope defogging heater of claim 1, wherein: the heating assembly (12) comprises a heating lamp (120) arranged on one side of the supporting assembly (10) and a reflecting assembly (121) arranged on the other side of the supporting assembly (10), the heating lamp (120) emits light to directly irradiate the endoscope (01) in the supporting assembly (10), and the reflecting assembly (121) reflects the light emitted by the heating lamp (120) and indirectly irradiates the endoscope (01) in the supporting assembly (10).

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