CN213690258U - Oral cavity film shooting system - Google Patents

Abstract

An oral photography system, comprising: the oral cavity camera is used for completing CT scanning and/or panoramic and/or skull photographing work; the intraoral camera shooting machine is used for finishing intraoral shooting work; the controller is respectively in communication connection with the oral cavity camera and the intraoral camera so as to control the start and stop actions of the ray generation mechanism of the oral cavity camera and the intraoral camera; and the control switch is communicated with the controller to control the ray generating mechanisms of the oral cavity camera and the intraoral camera and the ray generating mechanisms of the intraoral camera and the intraoral camera not to work simultaneously. The control switch and the controller which are connected through the communication can ensure that the oral camera and the intraoral camera cannot be used simultaneously, thereby providing the oral shooting equipment with at least one of CT, panoramic and skull photography and four functions of intraoral camera, and solving the problem of high construction and use cost of the oral shooting equipment in the prior art.

Description

Oral cavity film shooting system

Technical Field

The utility model relates to the technical field of medical equipment, mainly relate to an oral cavity film shooting system.

Background

According to the basic requirements of oral diagnosis on X-ray examination, the dental diseases should be photographed by an oral tablet, orthodontics should be photographed by a panoramic tablet and a skull side tablet, and the implantation should be photographed by CT. The oral cavity maxillofacial cone beam CT, CBCT for short, provided in the market at present can integrate three functions of CT, panoramic film and skull photography. However, a separate intraoral camera is required to complete the intraoral work. The mouth photographing apparatus is limited by GBZ130 regulations: the X-ray production facility must have a separate shielded room. Therefore, users who own both CBCT and intraoral cameras usually need to establish at least two shielding rooms to meet the national standard requirements, which increases the cost of users in terms of capital construction, procurement and equipment use. In order to reduce the cost of equipment used in clinics with both CBCT and intraoral cameras, there is a need in the art for an intraoral camera that simultaneously integrates at least one of CT, panoramic, cephalographic, and intraoral camera functions.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model aims at providing an oral cavity photography system to solve and lack among the prior art simultaneously the set CT, at least one in the panorama, the head photography, and take the oral cavity of four kinds of functions of oral cavity and shoot equipment, lead to the problem that current oral cavity is shot equipment and is built and use cost is high. The application provides an oral cavity filming system, includes:

the oral cavity camera is used for completing CT scanning and/or panoramic and/or skull photographing work;

the intraoral camera shooting machine is used for finishing intraoral shooting work;

a second controller for controlling activation or deactivation of a radiation generating mechanism and/or an action mechanism of either the intraoral camera or the intraoral camera;

the control switch is in communication connection with the second controller so as to send a control signal to the second controller and control a ray generation mechanism of one of the oral cavity camera and the intraoral camera to be in an enabled state;

a first controller for controlling activation or deactivation of a radiation generating mechanism and/or an action mechanism of the other of the intraoral camera and the intraoral camera; the first controller is in communication connection with the second controller, and the second controller sends a control signal to the first controller to control the other ray generation mechanism of the oral cavity camera and the oral cavity photographic camera to be in a disabled state.

Optionally, the second controller is for controlling the oral camera to enable or disable its radiation generating mechanism;

the first controller is used for controlling the ray generation mechanism of the intraoral camera to be enabled or disabled.

Optionally, the second controller is used for controlling the oral cavity camera to enable or disable the ray generation mechanism and the action mechanism thereof;

the first controller is used for controlling the ray generation mechanism and the action mechanism of the intraoral camera to be enabled or disabled.

Optionally, the action mechanism of the oral camera comprises: a scanner and/or a skull arm and/or a jaw support arm and/or a lifting column; and/or the presence of a gas in the gas,

the actuating mechanism of the intraoral film shooting machine comprises: the X-ray machine head is arranged on the rotating arm; the swivel arm has an unfolded state and a folded state.

The skull arm is provided with a skull disk in transmission connection with the skull arm, and the skull disk is used for scanning skull images.

The jaw supporting arm is used for fixing the head of a patient when CT scanning and a panoramic picture are shot, so that the patient is prevented from moving in the scanning process;

the scanner is arranged on the cantilever and used for shooting CT scanning and panoramic pictures.

Optionally, the intraoral camera is mounted on an inner wall sidewall of a shielded room or on the intraoral camera or on a mounting, the intraoral camera comprising: a rotating arm driven to freely rotate at a position, and an X-ray machine head arranged on the rotating arm.

Optionally, the control switch comprises: single pole double throw switches and/or electrically controlled switches.

The electric control switch is a relay switch.

The control switch comprises a movable contact, a first contact and a second contact; the movable contact has a first position in communication with the first contact and a second position in communication with the second contact;

in the first position, the control switch controls the ray generating mechanism of the oral cavity camera to be in an enabled state through the second controller, and the second controller controls the ray generating mechanism of the intraoral camera to be in a disabled state through the first controller;

in the second position, the control switch controls the ray generation mechanism of the oral cavity camera to be in a disabled state through the second controller, and the second controller controls the ray generation mechanism of the intraoral camera to be in an enabled state through the first controller;

the movable contact also has a third position in which neither the first contact nor the second contact is in communication.

Optionally, the oral photography system further comprises: a detection mechanism for detecting whether the ray generation mechanism and/or the action mechanism of the oral cavity camera and the intraoral camera are/is in an activated state at the same time.

Optionally, the detection mechanism comprises: the ray induction sensor is arranged on a ray generating mechanism of the intraoral camera; and/or the presence of a gas in the gas,

the detection mechanism further includes: and the ray induction sensor is arranged on the ray generating mechanism of the oral cavity camera.

Optionally, the detection mechanism comprises: the first trigger switch is arranged opposite to the rotating arm; when the rotating arm is converted from the folded state to the unfolded state, triggering the first trigger switch; and/or the presence of a gas in the gas,

the detection mechanism further includes: and the position sensor is arranged corresponding to the scanner and/or the skull arm and/or the jaw supporting arm and/or the lifting upright. The position sensor is an infrared sensor and/or a photoelectric sensor and/or a laser sensor.

Optionally, the oral photography system further comprises: a third controller in communication with the detection mechanism;

when the detection mechanism detects that the ray generating mechanism and/or the action mechanism of the oral cavity camera and the intraoral camera are/is in an enabled state at the same time, the third controller controls the oral cavity camera and the intraoral camera to be in a disabled state.

The technical scheme of the utility model, have following advantage:

1. the utility model provides an oral cavity film shooting system, include: the oral cavity camera is used for completing CT scanning and/or panoramic and/or skull photographing work; the intraoral camera shooting machine is used for finishing intraoral shooting work; a second controller for controlling activation or deactivation of a radiation generating mechanism and/or an action mechanism of either the intraoral camera or the intraoral camera; the control switch is in communication connection with the second controller so as to send a control signal to the second controller and control a ray generation mechanism of one of the oral cavity camera and the intraoral camera to be in an enabled state; a first controller for controlling activation or deactivation of a radiation generating mechanism and/or an action mechanism of the other of the intraoral camera and the intraoral camera; the first controller is in communication connection with the second controller, and the second controller sends a control signal to the first controller to control the other ray generation mechanism of the oral cavity camera and the oral cavity photographic camera to be in a disabled state.

According to the national regulation, the oral camera and the intraoral camera cannot work simultaneously, so that the corresponding safety protection standard is met. When the intraoral scanning function of the intraoral camera is used, the scanning function of the intraoral camera cannot be started; similarly, when the oral camera works in CT scanning, panoramic photography and skull photography, the intraoral camera does not allow the intraoral scanning function to start working. When the intra-oral camera and the oral camera work simultaneously, the problem of overproof radiation value is caused, and radiation safety accidents are caused. In the prior art, an oral camera and an intraoral camera are respectively arranged in two independent shielding rooms, so that the problem of overproof radiation value is prevented. However, the prior art requires two screens and separate mouth camera and intraoral camera to meet the national requirements, which increases the cost of users in terms of capital construction, procurement and equipment use.

In the present invention, after the control switch is triggered to operate, the control switch sends a signal to the second controller, and the second controller is used to control the ray generation mechanism and/or the operation mechanism of one of the oral cavity camera and the intraoral camera to be enabled or disabled; the second controller controls the activation or deactivation of either the oral camera or the intraoral camera under its control. In addition, the second controller is also in communication connection with the first controller, the first controller is used for controlling the radiation generating mechanism and/or the action mechanism of the other one of the oral cavity camera and the intraoral camera to be enabled or disabled, and the second controller sends an opposite control signal to the first controller, so that the radiation generating mechanism and/or the action mechanism of the other one of the oral cavity camera and the intraoral camera is controlled to be enabled or disabled through the first controller. The first controller and the second controller which are connected through the communication can prevent the ray generating mechanism and/or the acting mechanism of the oral cavity camera and the intraoral camera from being in an activated state at the same time. The oral camera and the intraoral camera are in the starting state at the same time, so that the radiation value of the oral camera system can not exceed the standard.

2. The utility model provides an oral cavity photography system, a second controller, which is used for controlling the ray generation mechanism of the oral cavity camera to be enabled or disabled; a first controller for controlling the intraoral camera's ray generation mechanism to be enabled or disabled.

The second controller controls the ray generating mechanism of the oral cavity camera to be enabled or disabled, and the first controller controls the ray generating mechanism of the intraoral camera to be enabled or disabled. The second controller is in communication connection with the control switch, and receives a control signal sent by the control switch through the second controller so as to control the ray generation mechanism of the oral cavity camera to be enabled or disabled; in addition, the second controller is in communication connection with the first controller, and the first controller controls the ray generating mechanism of the intraoral camera to be incapable of being in an enabled state simultaneously with the ray generating mechanism of the intraoral camera. The first controller and the second controller respectively control the ray generating mechanisms of the intraoral camera and the intraoral camera to be incapable of working simultaneously, so that the radiation value of the intraoral camera system is effectively prevented from exceeding the standard.

3. In the oral cavity photographing system provided by the utility model, the second controller is used for controlling the ray generation mechanism and the action mechanism of the oral cavity camera to be enabled or disabled; the first controller is used for controlling the ray generation mechanism and the action mechanism of the intraoral camera to be enabled or disabled. The first controller and the second controller can simultaneously disable the radiation generating mechanism and the actuating mechanism. The first controller and the second controller not only ensure that the ray generating mechanism cannot work, but also ensure that the actuating mechanism cannot work, so that the equipment cannot adjust the position, and further effectively ensure that the oral camera and the intraoral camera cannot work simultaneously.

4. The utility model provides an oral cavity photographic system, intraoral photographic machine install on the interior wall lateral wall between the shielding or on the oral cavity camera or the mounting bracket, intraoral photographic machine includes: a rotating arm driven to freely rotate at a position, and an X-ray machine head arranged on the rotating arm.

The installation mode of the intraoral film shooting machine is various, and the intraoral film shooting machine can be adapted to different environments, so that the use convenience of a user is improved. When the intraoral camera is installed on the oral camera, the installation complexity of the oral shooting equipment can be effectively reduced without erecting an installation frame or installing a support on a wall, so that the installation convenience of the oral shooting equipment is improved.

5. The utility model provides an oral cavity film shooting system, still include: a detection mechanism for detecting whether the ray generation mechanism and/or the action mechanism of the oral cavity camera and the intraoral camera are/is in an activated state at the same time.

The detection mechanism can detect whether the ray generating mechanisms and/or the action mechanisms of the oral camera and the intraoral camera are in the starting state at the same time, so that the ray generating mechanisms of the oral camera and the intraoral camera can be timely detected in the simultaneous working state, the oral camera and the intraoral camera can be timely closed in a manual or automatic mode, and the radiation value of an oral shooting system can not exceed the standard.

6. The utility model provides an oral cavity film shooting system still includes: a third controller in communication with the detection mechanism; when the detection mechanism detects that the ray generating mechanism and/or the action mechanism of the oral cavity camera and the intraoral camera are/is in an enabled state at the same time, the third controller controls the oral cavity camera and the intraoral camera to be in a disabled state.

The third controller is in communication connection with the detection mechanism, and when the detection mechanism detects whether the ray generation mechanism and/or the action mechanism of the oral cavity camera and the intraoral camera are/is in the enabled state at the same time, the third controller can control the oral cavity camera and the intraoral camera to be in the disabled state, so that the problem that the radiation value exceeds the standard is avoided.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described 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 front view of the oral cavity photographing system provided by the present invention;

fig. 2 is a top view of the oral cavity photographing system provided by the present invention;

fig. 3 is a schematic structural view of the oral cavity camera provided by the present invention;

fig. 4 is a schematic view of the arrangement positions of the intraoral camera and the intraoral camera provided by the present invention;

fig. 5 is a schematic diagram of the positions of the moving contact, the first contact and the second contact of the oral cavity photographing system provided by the present invention;

description of reference numerals:

1-an oral camera; 2-intraoral film shooting machine; 3-the cranium arm; 4-a scanner; 5-jaw supporting arm; 6-lifting upright posts; 7-a rotating arm; 8-X-ray machine head; 9-moving contact; 10-cranial disc; 11-between shields; 12-a cantilever; 13-a first contact; 14-second contact.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Furthermore, the technical features mentioned in the different embodiments of the invention described below can be combined with each other as long as they do not conflict with each other.

Example 1

An oral photography system, as shown in fig. 1 to 4, comprising:

the oral cavity camera 1 is used for finishing CT scanning, panoramic pictures and skull photographing work; the oral camera 1 includes: a skull arm 3, a scanner 4, a jaw supporting arm 5 and a lifting upright post 6. The skull arm 3 is provided with a skull disk 10 in transmission connection with the skull arm, and the skull disk 10 is used for scanning skull images. The jaw supporting arm 5 is used for fixing the head of a patient when CT scanning and panoramic pictures are shot, and the patient is prevented from moving in the scanning process; in the embodiment, a skull disk 10 in transmission connection with the skull arm 3 is arranged on the skull arm 3, and the skull disk 10 is used for scanning skull images; the jaw supporting arm 5 is used for fixing the head of a patient when CT scanning and a panoramic picture are shot, and the patient is prevented from moving in the scanning process; the scanner 4 is arranged on the cantilever 12 and is used for shooting CT scanning and panoramic pictures; in this embodiment, the motion mechanism of the oral camera 1 includes: a scanner 4, a skull arm 3, a jaw supporting arm 5 and a lifting upright post 6;

the intraoral camera 2 is used for finishing the intraoral shooting work; in the present embodiment, the above-described intraoral camera 2 is mounted on an inner wall side wall of the shield room 11, and includes: a rotary arm 7 which is driven to freely rotate at a position, and an X-ray head 8 which is arranged on the rotary arm 7; in the present embodiment, the motion mechanism of the intraoral camera 2 includes: a rotating arm 7 and an X-ray machine head 8;

a second controller for controlling the oral camera 1 to enable or disable a radiation generating mechanism thereof;

the control switch is in communication connection with the second controller to send a control signal to the second controller to control the ray generating mechanism of the oral cavity camera 1 to be in an enabled or disabled state; the electric control switch is a relay switch. The control switch is shown in fig. 5, and comprises a movable contact 9, a first contact 13 and a second contact 14; the movable contact 9 has a first position in communication with the first contact 13 and a second position in communication with the second contact 14; in the first position, the control switch controls the radiation generating mechanism of the oral cavity camera 1 to be in an enabled state through the second controller, and the second controller controls the radiation generating mechanism of the intraoral camera 2 to be in a disabled state through the first controller; in the second position, the control switch controls the radiation generating mechanism of the oral cavity camera 1 to be in a disabled state through the second controller, and the second controller controls the radiation generating mechanism of the intraoral camera 2 to be in an enabled state through the first controller; in addition, the movable contact 9 has a third position where it is not in communication with both the first contact 13 and the second contact 14;

a first controller for controlling the intraoral camera 2 to enable or disable its radiation generating mechanism; the first controller is in communication connection with the second controller, and the second controller sends a control signal to the first controller to control a ray generation mechanism of the intraoral camera 2 to be in an enabled or disabled state;

a detection mechanism for detecting whether the ray generating mechanisms of the oral cavity camera 1 and the intraoral camera 2 are in an activated state at the same time. The detection mechanism includes: a radiation sensitive sensor arranged on the radiation generating mechanism of the intraoral camera 2, and a radiation sensitive sensor arranged on the radiation generating mechanism of the intraoral camera 1.

And the third controller is in communication connection with the detection mechanism, and when the detection mechanism detects that the ray generating mechanisms of the oral cavity camera 1 and the intraoral camera 2 are in an enabled state at the same time, the third controller controls the oral cavity camera 1 and the intraoral camera 2 to be in a disabled state.

Of course, the application of the present invention is not limited to the components of the motion mechanism of the oral camera 1 and the intraoral camera 2, and in other embodiments, the motion mechanism of the oral camera 1 includes: a skull arm 3, a jaw supporting arm 5 and a lifting upright post 6; the motion mechanism of the intraoral camera 2 comprises: the arm 7 is rotated.

Of course, the utility model is not limited to the function of the oral cavity camera 1, and in other embodiments, the oral cavity camera 1 is used to perform any one or two of the three functions of CT scanning, panoramic film and skull photography.

Of course, the utility model discloses the application does not make specific restriction to control switch's structure, in other embodiments, control switch still can be the single-pole double-throw switch of manually operation control.

Of course, the present invention is not limited to the structure of the third controller, and in other embodiments, the third controller may also be a control module integrated on the first controller or the second controller.

Example 2

The present embodiment is different from embodiment 1 in that an oral radiography system includes:

the oral cavity camera 1 is used for finishing CT scanning, panoramic pictures and skull photographing work; the oral camera 1 includes: a skull arm 3, a scanner 4, a jaw supporting arm 5 and a lifting upright post 6. The skull arm 3 is provided with a skull disk 10 in transmission connection with the skull arm, and the skull disk 10 is used for scanning skull images. The jaw supporting arm 5 is used for fixing the head of a patient when CT scanning and panoramic pictures are shot, and the patient is prevented from moving in the scanning process; in the embodiment, a skull disk 10 in transmission connection with the skull arm 3 is arranged on the skull arm 3, and the skull disk 10 is used for scanning skull images; the jaw supporting arm 5 is used for fixing the head of a patient when CT scanning and a panoramic picture are shot, and the patient is prevented from moving in the scanning process; the scanner 4 is arranged on the cantilever 12 and is used for shooting CT scanning and panoramic pictures; in this embodiment, the motion mechanism of the oral camera 1 includes: a scanner 4, a skull arm 3, a jaw supporting arm 5 and a lifting upright post 6;

the intraoral camera 2 is used for finishing the intraoral shooting work; in this embodiment, the intraoral camera 2 is mounted in a shield room 11 and located on the intraoral camera 1, and the intraoral camera 2 includes: a rotary arm 7 which is driven to freely rotate at a position, and an X-ray head 8 which is arranged on the rotary arm 7;

a second controller for controlling the radiation generating mechanism and the action mechanism of the oral camera 1 to be enabled or disabled;

the control switch is in communication connection with the second controller to send a control signal to the second controller to control the ray generating mechanism of the oral cavity camera 1 to be in an enabled or disabled state;

a first controller for controlling the ray generation mechanism and the action mechanism of the intraoral camera 2 to be enabled or disabled; the first controller is in communication connection with the second controller, and the second controller sends a control signal to the first controller to control a ray generation mechanism of the intraoral camera 2 to be in an enabled or disabled state.

A detection mechanism for detecting whether the ray generation mechanism and the action mechanism of the oral cavity camera 1 and the intraoral camera 2 are in an activated state at the same time. The detection mechanism includes: a ray induction sensor arranged on a ray generation mechanism of the intraoral camera 2, a ray induction sensor arranged on a ray generation mechanism of the oral cavity camera 1, a first trigger switch and a position sensor. The first trigger switch is arranged opposite to the rotating arm 7; when the rotating arm 7 is switched from the folded state to the unfolded state, the first trigger switch is triggered; the detection mechanism includes: and the position sensors are arranged corresponding to the scanner 4, the skull arm 3, the jaw supporting arm 5 and the lifting upright post 6. The position sensor is an infrared sensor.

When the detection mechanism detects that the radiation generating mechanism and/or the action mechanism of both the oral camera 1 and the intraoral camera 2 are simultaneously in an enabled state, the third controller controls the oral camera 1 and the intraoral camera 2 to be in a disabled state.

Of course, the utility model discloses the application does not do specific restriction to position sensor's setting position and structure, and in other embodiments, position sensor corresponds the setting on scanner 4, and is photoelectric sensor or laser sensor.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications can be made without departing from the scope of the invention.

Claims (10)

1. An oral filming system, comprising:

an oral camera (1) for performing CT scanning and/or panoramic and/or cephalographic work;

the intraoral shooting machine (2) is used for finishing intraoral shooting work;

a second controller for controlling the activation or deactivation of the radiation generating mechanism and/or the action mechanism of one of the oral camera (1) and the intraoral camera (2);

the control switch is in communication connection with the second controller to send a control signal to the second controller so as to control the ray generating mechanism of one of the oral cavity camera (1) and the intraoral camera (2) to be in an enabling state;

a first controller for controlling the radiation generating mechanism and/or the action mechanism of the other of the oral camera (1) and the intraoral camera (2) to be enabled or disabled; the first controller is in communication connection with the second controller, and the second controller sends a control signal to the first controller to control the other ray generation mechanism of the oral cavity camera (1) and the intraoral camera (2) to be in a disabled state.

2. The oral filming system of claim 1,

the second controller is used for controlling the oral cavity camera (1) to enable or disable a ray generating mechanism;

the first controller is used for controlling the ray generation mechanism of the intraoral camera (2) to be enabled or disabled.

3. The oral filming system of claim 1,

the second controller is used for controlling the ray generation mechanism and the action mechanism of the oral cavity camera (1) to be enabled or disabled;

the first controller is used for controlling the ray generation mechanism and the action mechanism of the intraoral shooting machine (2) to be enabled or disabled.

4. The oral filming system of any one of claims 1 to 3,

the action mechanism of the oral cavity camera (1) comprises: a scanner (4) and/or a skull arm (3) and/or a jaw support arm (5) and/or a lifting upright (6); and/or the presence of a gas in the gas,

the action mechanism of the intraoral film shooting machine (2) comprises: a rotating arm (7) and/or an X-ray machine head (8) arranged on the rotating arm (7); the swivel arm (7) has an unfolded state and a folded state.

5. The oral filming system of claim 1,

the intraoral camera (2) is mounted on the inner wall side wall of a shielding room (11) or on the oral camera (1) or on a mounting rack, the intraoral camera (2) comprising: a rotating arm (7) which is driven to freely rotate, and an X-ray head (8) arranged on the rotating arm (7).

6. The oral filming system of claim 1 wherein said control switch comprises: single pole double throw switches and/or electrically controlled switches.

7. The oral filming system of claim 4 further comprising: a detection mechanism for detecting whether the ray generating mechanism and/or the action mechanism of the oral cavity camera (1) and the intraoral camera (2) are/is in an activated state at the same time.

8. The oral filming system of claim 7 wherein said detection mechanism comprises: the ray induction sensor is arranged on a ray generating mechanism of the intraoral shooting machine (2); and/or the presence of a gas in the gas,

the detection mechanism further includes: and the ray induction sensor is arranged on the ray generating mechanism of the oral cavity camera (1).

9. The oral filming system of claim 7 wherein said detection mechanism comprises: the first trigger switch is arranged opposite to the rotating arm (7); when the rotating arm (7) is converted from the folded state to the unfolded state, the first trigger switch is triggered; and/or the presence of a gas in the gas,

the detection mechanism further includes: and the position sensor is arranged corresponding to the scanner (4) and/or the skull arm (3) and/or the jaw supporting arm (5) and/or the lifting upright post (6).

10. The oral filming system of claim 7 further comprising: a third controller in communication with the detection mechanism;

when the detection mechanism detects that the ray generating mechanism and/or the action mechanism of the oral cavity camera (1) and the intraoral camera (2) are/is in an enabled state at the same time, the third controller controls the oral cavity camera (1) and the intraoral camera (2) to be in a disabled state.

Images