CN211583047U - Endoscope camera handle - Google Patents

Abstract

The embodiment of the application provides an endoscope camera handle, which comprises a main body, an imaging mechanism, a shielding mechanism, an insulating mechanism and a control mechanism, wherein the main body is used for being connected with an endoscope so as to fix and move the endoscope; the imaging mechanism is arranged in the main body and is used for being electrically connected with peripheral equipment; the shielding mechanism is arranged in the main body, is connected with the imaging mechanism and is used for preventing the imaging mechanism from being interfered; the insulation mechanism is arranged in the main body, is connected with the shielding mechanism and is used for preventing static electricity and avoiding damage caused by leakage current; control mechanism set up in the main part, with imaging mechanism connects, is used for control imaging mechanism work, shielding mechanism and insulating mechanism's setting can prevent static and interference to avoid the leakage current to cause the injury to the human body, improve stability and security.

Description

Endoscope camera handle

Technical Field

The application relates to the technical field of machinery, in particular to an endoscope camera handle.

Background

At present, the endoscope camera handle is mostly combined with a built-in camera circuit board by adopting a metal shell to realize holding and shooting functions, but high-voltage leakage current is easily caused due to unreasonable internal arrangement, the endoscope camera handle is not in accordance with the standards of medical products, the endoscope camera handle is easily interfered by static electricity and electric fast transient pulse groups, and the endoscope camera handle is not safe, stable and reliable enough.

SUMMERY OF THE UTILITY MODEL

An object of the embodiment of the application is to provide an endoscope camera handle, is applied to medical field for the realization prevents to receive static and interference, avoids the leakage current to cause the injury to the human body.

The embodiment of the application provides an endoscope camera handle, includes: a main body for connecting with an endoscope to fix and move the endoscope; the imaging mechanism is arranged in the main body and is used for being electrically connected with peripheral equipment; the shielding mechanism is arranged in the main body, is connected with the imaging mechanism and is used for preventing the imaging mechanism from being interfered; the insulating mechanism is arranged in the main body, is connected with the shielding mechanism and is used for preventing static electricity and avoiding damage caused by leakage current; and the control mechanism is arranged on the main body, is connected with the imaging mechanism and is used for controlling the imaging mechanism to work.

In the above implementation, the endoscope camera handle includes a main body, an imaging mechanism, a shielding mechanism, an insulating mechanism and a control mechanism, the main body can be connected with the endoscope so as to fix and move the endoscope, the imaging mechanism is disposed in the main body and electrically connected with peripheral equipment, the shielding mechanism is disposed in the main body and connected with the imaging mechanism so as to prevent the imaging mechanism from being subjected to static electricity and interference, and the insulating mechanism is disposed in the main body and connected with the shielding mechanism. Can realize preventing static and avoid the electric leakage to cause the injury to the human body, control mechanism sets up in the main part to be connected with imaging mechanism, thereby the staff can control imaging mechanism work, and then can control peripheral equipment work.

Further, one end of the main body is provided with a front cover, and the front cover is used for being connected with an endoscope; the other end of the main body is provided with a first opening, and the imaging mechanism penetrates through the first opening to be connected with the peripheral equipment.

In the implementation process, one end of the main body is provided with the front cover, the front cover can be connected with the endoscope to fix and move the endoscope to complete image recording, the other end of the main body is provided with the first opening, and the imaging mechanism can penetrate through the first opening to be connected with peripheral equipment.

Further, the imaging mechanism includes a camera circuit board assembly and a transmission part; the camera circuit board assembly is arranged in the shielding mechanism and is connected with the transmission part; the transmission part is used for being connected with the peripheral equipment so as to electrically connect the camera circuit board assembly with the peripheral equipment.

In the implementation process, the imaging mechanism comprises a camera circuit board assembly and a transmission part, the camera circuit board assembly is arranged in the shielding mechanism, so that static electricity and interference can be prevented, normal work can be realized, the transmission part is connected between the camera circuit board assembly and peripheral equipment, and signal transmission between the camera circuit board assembly and the peripheral equipment can be completed.

Further, the shielding mechanism comprises a shielding seat, a shielding shell and a shielding cover; the shielding seat is connected with the imaging mechanism and used for fixing the imaging mechanism; the shielding shell is connected with the shielding seat and is sleeved outside the imaging mechanism; the shield cover is connected with the shield case.

In the above implementation process, the shielding mechanism includes the shielding base, the shielding shell and the shielding cover, the shielding base is connected with the imaging mechanism, so that the imaging mechanism is fixed, the shielding shell is connected with the shielding base, the shielding shell is sleeved outside the imaging mechanism, the effect of preventing static electricity and interference is achieved, and the shielding cover is connected with the shielding shell.

Furthermore, a first through hole is formed in the middle of the shielding base, and the optical filter of the imaging mechanism is arranged in the first through hole.

In the implementation process, the first through hole is formed in the middle of the shielding seat, and the optical filter of the imaging mechanism is fixed in the first through hole, so that the shielding mechanism cannot obstruct normal operation of the imaging mechanism.

Furthermore, one end of the shielding shell, which is connected with the shielding cover, is provided with a first groove, and the control mechanism penetrates through the first groove and is connected with the imaging mechanism.

In the implementation process, the first groove is formed in the shell wall at one end, connected with the shielding cover, of the shielding shell, and the control mechanism can be connected with the imaging mechanism through the first groove, so that the shielding shell cannot block the control mechanism from controlling the imaging mechanism to work.

Furthermore, a second groove and a third groove are formed in the shielding cover, the imaging mechanism penetrates through the second groove to be connected with the peripheral equipment, and the control mechanism penetrates through the third groove to be connected with the imaging mechanism.

In the implementation process, the second groove and the third groove are formed in the shielding cover, the imaging mechanism can penetrate through the second groove to be connected with peripheral equipment, the control mechanism can penetrate through the third groove to be connected with the imaging mechanism, and the shielding cover cannot obstruct normal interaction of the inner structure of the handle due to the arrangement of the second groove and the third groove.

Furthermore, one end of the insulating mechanism is sleeved on the fixing seat in the main body, a second opening is formed in the other end of the insulating mechanism, and the imaging mechanism penetrates through the second opening to be connected with the peripheral equipment.

In the implementation process, one end of the insulating mechanism is sleeved on the fixing seat inside the main body, so that the insulating mechanism is fixed inside the main body, the other end of the insulating mechanism is provided with the second opening, and the imaging mechanism can penetrate through the second opening to be connected with peripheral equipment.

Furthermore, the insulation mechanism is a plastic insulation sleeve, and the plastic insulation sleeve is sleeved outside the shielding mechanism.

In the implementation process, the insulation mechanism can be a plastic insulation sleeve and is sleeved outside the shielding mechanism, so that the effects of preventing static electricity and avoiding damage to equipment caused by creepage can be achieved.

Further, the endoscope camera handle further comprises a waterproof mechanism, wherein the waterproof mechanism is arranged inside the main body and is sleeved on the imaging mechanism.

In the implementation process, the endoscope camera handle further comprises a waterproof mechanism, the waterproof mechanism is arranged inside the main body and is tightly sleeved on the imaging mechanism, so that external water flow can be prevented from entering the inside of the handle, and damage is caused to an electronic circuit inside the handle.

Additional features and advantages of the disclosure will be set forth in the description which follows, or in part may be learned by the practice of the above-described techniques of the disclosure, or may be learned by practice of the disclosure.

In order to make the aforementioned objects, features and advantages of the present application more comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments of the present application will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and that those skilled in the art can also obtain other related drawings based on the drawings without inventive efforts.

FIG. 1 is a general schematic view of an endoscope camera handle provided by an embodiment of the present application;

FIG. 2 is a partial cross-sectional view in the direction A-A of the endoscope camera handle shown in FIG. 1 according to an embodiment of the present application;

fig. 3 is a schematic structural diagram of a shielding mechanism according to an embodiment of the present application;

fig. 4 is a schematic structural diagram of an insulation mechanism according to an embodiment of the present application.

Icon: 10-endoscope camera handle; 100-a body; 110-a front cover; 111-a second via; 120-a first opening; 130-a fixed seat; 131-a third via; 140-a fifth via; 200-an imaging mechanism; 210-a camera circuit board assembly; 220-a transmission section; 230-an optical filter; 300-a shielding mechanism; 310-a shield seat; 311-a first via; 312-boss; 313-a fourth groove; 314-a positioning section; 320-a shield case; 321-a first groove; 322-fifth groove; 330-a shield cover; 331-a second groove; 332-a third groove; 400-an insulating mechanism; 410-a second opening; 420-a fourth via; 500-a control mechanism; 600-waterproof mechanism.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. The components of the embodiments of the present application, generally described and illustrated in the figures herein, can be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present application, presented in the accompanying drawings, is not intended to limit the scope of the claimed application, but is merely representative of selected embodiments of the application. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present application without making any creative effort, shall fall within the protection scope of the present application.

In this application, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", "lateral", "longitudinal", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings. These terms are used primarily to better describe the present application and its embodiments, and are not used to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation.

Moreover, some of the above terms may be used to indicate other meanings besides the orientation or positional relationship, for example, the term "on" may also be used to indicate some kind of attachment or connection relationship in some cases. The specific meaning of these terms in this application will be understood by those of ordinary skill in the art as appropriate.

Furthermore, the terms "mounted," "disposed," "provided," "connected," and "connected" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; can be a mechanical connection, or a point connection; either directly or indirectly through intervening media, or may be an internal communication between two devices, elements or components. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

Furthermore, the terms "first," "second," and the like, are used primarily to distinguish one device, element, or component from another (the specific nature and configuration may be the same or different), and are not used to indicate or imply the relative importance or number of the indicated devices, elements, or components. "plurality" means two or more unless otherwise specified.

Referring to fig. 1, fig. 1 is an overall schematic view of a handle of an endoscope camera provided in an embodiment of the present application. The endoscope camera handle is applied to the examination of the state of an illness in a hospital, and is used for moving an endoscope to enable the endoscope to enter a human body to record images and transmit the images to peripheral equipment to be analyzed and processed by medical staff.

Illustratively, when needs adopt the endoscope to observe the internal state of an illness of patient, medical personnel can be connected endoscope camera handle right side and peripheral hardware, and the left side is connected with the endoscope and fixes the endoscope, then medical personnel can hold endoscope camera handle with hand and slowly move the endoscope and get into human inside to send the image of endoscope record to peripheral hardware and supply medical personnel to carry out the analysis, medical personnel can pass through the work of the button control endoscope camera handle on the endoscope camera handle in real time.

Referring to fig. 2, fig. 2 is a partial sectional view of the handle of the endoscope camera head shown in fig. 1 in the direction of a-a according to the embodiment of the present application.

Illustratively, the endoscope camera handle 10 includes a main body 100 for coupling with an endoscope to fix and move the endoscope; an imaging mechanism 200 provided in the main body 100 for electrical connection with peripheral devices; a shielding mechanism 300 provided in the main body 100, connected to the imaging mechanism 200, for preventing the imaging mechanism 200 from being interfered; an insulating mechanism 400 disposed in the main body 100 and connected to the shielding mechanism 300 for preventing static electricity and preventing damage due to leakage current; and a control mechanism 500 disposed on the main body 100, connected to the imaging mechanism 200, and configured to control the imaging mechanism 200 to operate.

Illustratively, when needing to use the endoscope to examine the internal state of an illness of patient, medical personnel can connect imaging mechanism 200 and peripheral equipment, and fix the endoscope connection on main part 100, then medical personnel can remove the endoscope through main part 100 of handheld endoscope camera handle 10, in order to send the endoscope into the patient slowly, the internal condition of patient can be taken notes to the endoscope, imaging mechanism 200 can obtain the image information in the endoscope, and send image information to peripheral equipment and supply medical personnel to analyze, furthermore, medical personnel can control imaging mechanism 200's work through control mechanism 500, shielding mechanism 300 can prevent static, avoid imaging mechanism 200 to receive the interference, insulating mechanism 400 can prevent static, and avoid the leakage current to cause the injury to the human body when the electric leakage appears in the circuit.

Illustratively, one end of the main body 100 is provided with a front cover 110, and the front cover 110 is used for connecting with an endoscope; the other end of the main body 100 is provided with a first opening 120, and the imaging mechanism 200 is connected to the peripheral device through the first opening 120.

Illustratively, the endoscope is fixed to the main body 100 by being coupled to the front cover 110, and the imaging mechanism 200 is passed through the first opening 120 to be coupled to an external device, so that image information recorded by the endoscope can be finally transmitted to the external device to enable a medical staff to understand the condition in the patient and analyze the condition.

Illustratively, the imaging mechanism 200 includes a camera circuit board assembly 210 and a transmission part 220; the camera circuit board assembly 210 is disposed in the shielding mechanism 300 and connected to the transmission part 220; the transmission section 220 is used for connecting with a peripheral device to electrically connect the camera board assembly 210 with the peripheral device.

For example, the camera circuit board assembly 210 may acquire image information recorded by the endoscope and transmit the image information to the peripheral device through the transmission unit 220 for analysis by the medical staff.

Referring to fig. 3, fig. 3 is a schematic structural diagram of a shielding mechanism according to an embodiment of the present application.

Illustratively, the shielding mechanism 300 includes a shielding holder 310, a shielding case 320, and a shielding cover 330; the shield holder 310 is connected to the imaging mechanism 200, and is used to fix the imaging mechanism 200; the shielding shell 320 is connected with the shielding base 310 and sleeved outside the imaging mechanism 200; the shield cover 330 is connected to the shield case 320.

Illustratively, the imaging mechanism 200 is fixed on the shielding seat 310, and the shielding shell 320 is sleeved outside the imaging mechanism 200, so as to protect the imaging mechanism 200 from the interference of the electrostatic and electric fast transient pulse group to a certain extent, and enable the imaging mechanism 200 to work more stably and normally.

Illustratively, the shielding holder 310 is provided with a first through hole 311 in the middle, and the optical filter 230 of the imaging mechanism 200 is provided in the first through hole 311.

Illustratively, the image information recorded by the endoscope is transmitted to the imaging mechanism 200 after being processed by the optical filter 230 provided in the first through hole 311 in the form of an optical signal, and then the imaging mechanism 200 transmits the received image information to the peripheral device.

Illustratively, one end of the shield case 320 connected to the shield cover 330 is provided with a first groove 321, and the control mechanism 500 is connected to the imaging mechanism 200 through the first groove 321.

Illustratively, the control mechanism 500 may be coupled to the imaging mechanism 200 through the first recess 321 such that the placement of the shielding mechanism 300 does not interfere with the coupling between the control mechanism 500 and the imaging mechanism 200.

Illustratively, the shielding cover 330 is provided with a second recess 331 and a third recess 332, the imaging mechanism 200 is connected to the peripheral device through the second recess 331, and the control mechanism 500 is connected to the imaging mechanism 200 through the third recess 332.

Illustratively, the two grooves on the shielding cover 330 are arranged so as to form a shielding space without affecting the connection relationship between the imaging mechanism 200 and other structures, so that each structure can normally perform its function.

For example, the shape of the shield holder 310 and the shield cover 330 may be circular, and the shape of the shield case 320 may be cylindrical.

For example, the shield holder 310, the shield case 320, and the shield cover 330 may be made of a metal material.

Illustratively, the surface of the shield socket 310 connected to the shield shell 320 may be provided with a boss 312, and the size and shape of the boss 312 are the same as the inside of the shield shell 320, so that the boss 312 may be tightly inserted into the shield shell 320, thereby enabling the shield socket 310 and the shield shell 320 to be tightly connected and fixed together.

Illustratively, a fourth groove 313 is formed in the middle of the boss 312 of the shield holder 310, the first through hole 311 is communicated with the fourth groove 313, and the camera circuit board assembly 210 of the imaging mechanism 200 can be inserted into the fourth groove 313.

For example, one surface of the shielding holder 310 connected to the shielding shell 320 may be provided with a positioning portion 314, one end of the shielding shell 320 connected to the shielding holder 310 is provided with a fifth groove 322, and the positioning portion 314 is connected to the fifth groove 322, so that the shielding holder 310 and the shielding shell 320 cannot rotate relatively after being connected, and the connection is more stable.

Referring to fig. 4, fig. 4 is a schematic structural diagram of an insulation mechanism according to an embodiment of the present disclosure.

Illustratively, one end of the insulating mechanism 400 is sleeved on the fixing seat 130 inside the main body 100, the other end of the insulating mechanism 400 is provided with a second opening 410, and the imaging mechanism 200 passes through the second opening 410 to be connected with the peripheral equipment.

Illustratively, the fixing seat 130 is disposed inside the main body 100, the insulating mechanism 400 is inserted into the fixing seat 130, so that the insulating mechanism 400 is fixed inside the main body 100, and the second opening 410 disposed on the insulating mechanism 400 can ensure that the insulating mechanism 400 can achieve the effects of static electricity prevention and high voltage prevention, and at the same time, the imaging mechanism 200 can normally achieve the function without being obstructed by the insulating mechanism 400.

Illustratively, the middle part of the front cover 110 of the main body 100 is provided with a second through hole 111, the middle part of the fixing base 130 is provided with a third through hole 131, and the image information in the endoscope passes through the second through hole 111 and the third through hole 131 in the form of optical signals, and is processed by the optical filter 230 and then sent to the camera circuit board assembly 210.

Illustratively, the insulation mechanism 400 is a plastic insulation sleeve that is sleeved outside the shielding mechanism 300.

For example, the insulation mechanism 400 may be a plastic insulation sleeve sleeved outside the shielding mechanism 300, so as to achieve the effects of preventing static electricity and creepage.

Illustratively, the shape of the insulating mechanism 400 may be cylindrical.

Illustratively, the insulating mechanism 400 is provided with a fourth through hole 420, and the control mechanism 500 can be connected with the imaging mechanism 200 through the fourth through hole 420 to achieve the effect of controlling the operation of the imaging mechanism 200.

In one embodiment, the endoscope camera handle 10 further includes a waterproof mechanism 600, and the waterproof mechanism 600 is disposed inside the main body 100 and is sleeved on the imaging mechanism 200.

Illustratively, the waterproof mechanism 600 can prevent water outside the endoscope camera handle 10 from entering the inside and causing damage to the internal circuit structure.

For example, the waterproof mechanism 600 may be disposed at the first opening 120 of the main body 100, closely attached to the inner wall of the first opening 120, and closely sleeved on the transmission part 220 of the imaging mechanism 200, so as to effectively prevent water from entering the inside.

For example, the waterproof mechanism 600 may be a silica gel plug, and the adsorption capacity of the silica gel can make the silica gel plug more tightly attached to the inner wall of the main body 100 and the transmission part 220, so as to improve the waterproof performance.

Exemplarily, the waterproof mechanism 600 may be an elastic material, the external size of the waterproof mechanism 600 may be slightly larger than the inner wall of the first opening 120, and the inner diameter size may be slightly smaller than the transmission portion 220, after installation, the waterproof mechanism 600 may generate a pressing force on the inner wall of the main body 100 and the transmission portion 220 under the action of its own elasticity, so as to improve the close degree of fitting, and further improve the waterproof performance.

Illustratively, the waterproofing mechanism 600 may be any structure having an adsorption capacity or elasticity that can achieve a waterproofing function.

Illustratively, the main body 100 is provided with a fifth through hole 140, and the control mechanism 500 is connected and fixed in the fifth through hole 140 to realize connection and control with the imaging mechanism 200 arranged inside the main body 100.

Illustratively, the control mechanism 500 is provided with keys, and the medical staff can press the corresponding keys to realize the corresponding functions of the endoscope camera head handle 10.

Specifically, when the medical staff needs to examine the internal condition of the patient by using the endoscope to determine the medical condition of the patient, the medical staff may connect the transmission part 220 of the imaging mechanism 200 in the endoscope camera handle 10 with the peripheral equipment, and install the endoscope on the front cover 110 of the main body 100, and then the medical staff may hold the main body 100 of the endoscope camera handle 10 by hand to slowly feed the endoscope into the patient, the endoscope records the internal condition of the patient in real time, and the recorded image information passes through the second through hole 111 of the front cover 110 and the third through hole 131 of the fixing base 130 in the form of optical signal, and is sent to the image pickup circuit board assembly 210 of the imaging mechanism 200 after being filtered by the optical filter 230, the image pickup circuit board assembly 210 sends the received image information to the peripheral equipment through the transmission part 220 in the form of electrical signal and presents an image, medical care personnel can observe the condition in the body of the patient in real time through the peripheral equipment, and judge the illness state of the patient according to the condition; in the process, medical staff can realize the corresponding function of the endoscope camera handle 10 through the keys of the control mechanism 500 on the main body 100 according to actual needs, the shielding mechanism 300 surrounds and protects the camera circuit board assembly 210, the camera circuit board assembly 210 can be prevented from being interfered by static electricity and electric fast transient pulse groups when the camera circuit board assembly 210 works, so that the camera circuit board assembly 210 can normally work, the insulating mechanism 400 surrounds the shielding mechanism 300, the interference of the static electricity can be effectively prevented, and the harm to patients and medical staff when the circuit generates leakage current due to the occurrence of the leakage current can be prevented.

In all embodiments of the present application, the terms "large" and "small" are relatively speaking, and the terms "upper" and "lower" are relatively speaking, so that descriptions of these relative terms are not repeated herein.

It should be appreciated that reference throughout this specification to "in this embodiment," "in an embodiment of the present application," or "as an alternative implementation" means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one embodiment of the present application. Thus, the appearances of the phrases "in this embodiment," "in the examples of the present application," or "as an alternative embodiment" in various places throughout this specification are not necessarily all referring to the same embodiment. Furthermore, the particular features, structures, or characteristics may be combined in any suitable manner in one or more embodiments. Those skilled in the art should also appreciate that the embodiments described in this specification are all alternative embodiments and that the acts and modules involved are not necessarily required for this application.

In various embodiments of the present application, it should be understood that the size of the serial number of each process described above does not mean that the execution sequence is necessarily sequential, and the execution sequence of each process should be determined by its function and inherent logic, and should not constitute any limitation on the implementation process of the embodiments of the present application.

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present application, and shall be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (10)

1. An endoscope camera handle, comprising:

a main body for connecting with an endoscope to fix and move the endoscope;

the imaging mechanism is arranged in the main body and is used for being electrically connected with peripheral equipment;

the shielding mechanism is arranged in the main body, is connected with the imaging mechanism and is used for preventing the imaging mechanism from being interfered;

the insulating mechanism is arranged in the main body, is connected with the shielding mechanism and is used for preventing static electricity and avoiding damage caused by leakage current;

and the control mechanism is arranged on the main body, is connected with the imaging mechanism and is used for controlling the imaging mechanism to work.

2. The endoscope camera handle of claim 1, wherein one end of the body is provided with a front cover for connection with an endoscope;

the other end of the main body is provided with a first opening, and the imaging mechanism penetrates through the first opening to be connected with the peripheral equipment.

3. The endoscopic camera handle according to claim 1, wherein the imaging mechanism comprises a camera circuit board assembly and a transmission section;

the camera circuit board assembly is arranged in the shielding mechanism and is connected with the transmission part;

the transmission part is used for being connected with the peripheral equipment so as to electrically connect the camera circuit board assembly with the peripheral equipment.

4. The endoscopic camera handle according to claim 1, wherein the shielding mechanism comprises a shielding holder, a shielding shell and a shielding cover;

the shielding seat is connected with the imaging mechanism and used for fixing the imaging mechanism;

the shielding shell is connected with the shielding seat and is sleeved outside the imaging mechanism;

the shield cover is connected with the shield case.

5. The endoscope camera handle of claim 4, wherein a first through hole is disposed in a middle portion of the shielding seat, and the optical filter of the imaging mechanism is disposed in the first through hole.

6. The endoscope camera handle of claim 4, wherein the end of the shield shell connected to the shield cover is provided with a first groove, and the control mechanism is connected to the imaging mechanism through the first groove.

7. The endoscope camera handle of claim 4, wherein the shield cover is provided with a second recess through which the imaging mechanism is connected to the peripheral device and a third recess through which the control mechanism is connected to the imaging mechanism.

8. The endoscope camera handle of claim 1, wherein one end of the insulating mechanism is sleeved on the fixing seat inside the main body, a second opening is arranged at the other end of the insulating mechanism, and the imaging mechanism penetrates through the second opening to be connected with the peripheral equipment.

9. The endoscope camera handle of claim 1, wherein the insulating mechanism is a plastic insulating sleeve that is sleeved outside the shielding mechanism.

10. The endoscope camera handle of claim 1, further comprising a waterproof mechanism disposed inside the main body and sleeved on the imaging mechanism.

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