CN219439094U - Scanner base and scanner system - Google Patents

Abstract

The present disclosure relates to the field of intraoral scanning devices, and provides a scanner base and a scanner system. Wherein the scanner base is equipped with the charging groove on the shell, be equipped with interconnect's mainboard and wireless module in the shell, wireless module is used for receiving the data information that the scanner host computer sent and transmits data information to data processing equipment on the mainboard, be equipped with external interface on the mainboard, make the mainboard can be connected through the connecting wire with the scanner host computer, so that the mainboard is scanner host computer power supply and receive the data information in the scanner host computer through the data line, when the scanner host computer passes through connecting wire and external interface connection, use auxiliary stand and charging groove detachable connection, in order to place the scanner host computer, finally make the scanner base can use wired connection or wireless connection's mode to receive the data of scanner host computer under different operating modes, and during wired connection, the auxiliary stand makes the scanner host computer stable place on the scanner base, user experience has been promoted.

Description

Scanner base and scanner system

Technical Field

The present disclosure relates to the field of intraoral scanning devices, and more particularly, to a scanner base and a scanner system.

Background

Intraoral scanners require that the scanned data be transmitted to a data processing device, such as a computer or tablet, during intraoral scanning of the patient's mouth to visually display the patient's mouth. The wireless intraoral scanner is favored by users because of convenient use, but the data of the wireless intraoral scanner is only transmitted through a wireless network and is easy to be interfered by external environment to enable the data transmission to be unstable, when any one of a wireless module of a scanner base for transmitting the data to a scanner host or a wireless module of the scanner host breaks down, the intraoral scanner cannot be normally used, and because the size of the scanner host is smaller so as to be convenient for the users to hold, the battery capacity of the scanner host is limited, and when the scanner host is used for a long time which is needed to be connected for a plurality of patients, the cruising ability of the scanner host is difficult to meet the requirements, and the use experience of the users is influenced.

Disclosure of Invention

To solve or at least partially solve the above technical problems, the present disclosure provides a scanner base and a scanner system.

The disclosure provides a scanner base, which comprises a shell, an auxiliary bracket, a main board and a wireless module, wherein the main board and the wireless module are arranged in the shell;

The shell is provided with a charging slot which is connected with the main board and used for accommodating the scanner host, the wireless module is connected with the main board, the wireless module is used for receiving data information sent by the scanner host and transmitting the data information to the data processing equipment, the main board is provided with an external interface, the external interface can be connected with the scanner host through a connecting wire, so that the main board supplies power for the scanner host, the data information of the scanner host is transmitted to the main board through the connecting wire, and the auxiliary support is detachably connected with the charging slot and used for placing the scanner host;

when the scanner host is connected with the external interface through a connecting wire, the auxiliary bracket is arranged in the charging slot so as to place the scanner host;

when the scanner host is connected with the main board through a wireless module or a charging slot, the auxiliary support is separated from the charging slot, so that the scanner host can be installed in the charging slot.

Optionally, the auxiliary stand includes grafting portion and bears the weight of the portion, the one end of grafting portion is equipped with bear the weight of the portion for place the scanner host computer, the other end is used for with the charging groove is connected.

Optionally, along the bottom of loading part orientation the direction on top of loading part, the top of loading part orientation is kept away from the direction slope setting of shell, the bottom of loading part orientation is kept away from the direction bending of grafting portion forms limit structure, the scanner host computer is placed in when on the loading part, the bottom of scanner host computer with limit structure butt is in order to restrict the scanner host computer is followed the top of loading part orientation the direction of the bottom of loading part removes.

Optionally, the charging tank includes guide board and holding tank, the surface of shell is sunken to form the holding tank, guide board set up in the notch department of holding tank, guide board orientation is kept away from the direction of the tank bottom of holding tank extends, the carrier part orientation be equipped with the joint groove on the one side of charging tank, the auxiliary stand with when the charging tank is connected, the grafting portion is located in the holding tank, guide board keep away from the one end of shell with the joint groove is connected.

Optionally, the guide board is towards still be equipped with the location arch on the one side of auxiliary stand, the inside of joint groove is equipped with the setting element the guide board is towards in the direction of auxiliary stand, the location arch with the setting element sets up relatively, the auxiliary stand with when charging slot is connected, the location arch with the setting element is connected.

Optionally, the shell is further provided with a fan and an air outlet, the air outlet is formed in the side face of the shell, the fan facing the air outlet is arranged in the shell, and the fan is used for driving air in the shell to be discharged from the air outlet.

Optionally, the air outlet set up in the shell with on the parallel side of shell length direction, the shell with still be equipped with the air intake on the parallel another side of shell length direction, along the length direction of shell, the air intake is located the side of shell is close to the one end of mainboard, the air outlet is located the side of shell is kept away from the one end of mainboard.

Optionally, the air inlet and the air outlet are further provided with electrostatic protection devices.

Optionally, an antenna is further disposed inside the housing, one end of the antenna is connected to the wireless module, and the other end of the antenna is attached to an inner wall of the housing.

Optionally, the shell is close to the surface of outer interface one side is sunken to form the constant head tank, the outer interface set up in the tank bottom of constant head tank, the inner wall of constant head tank is equipped with the protection arch, the protection arch towards the inside direction extension of constant head tank.

The scanner base provided by the disclosure is provided with a shell, an auxiliary bracket, a main board and a wireless module, wherein the main board and the wireless module are arranged in the shell; the charging slot is arranged on the shell and used for accommodating the scanner host, the wireless module is connected with the main board, the wireless module is used for receiving data information sent by the scanner host and transmitting the data information to the data processing equipment, the external interface is arranged on the main board and can be connected with the scanner host through a connecting wire, so that the main board supplies power for the scanner host and the data information of the scanner host is transmitted to the main board through the connecting wire, the auxiliary support is used for being connected with the charging slot when the scanner host is connected with the external interface so as to place the scanner host, the scanner base can finally receive scanning data of the scanner host through the wireless module and charge a battery of the scanner host through the charging slot, and the scanner host can transmit the data information to the main board through the connecting wire and directly supply power to the scanner host through the connecting wire so as to exert the relay effect of data transmission. Meanwhile, the auxiliary support can be stably placed on the scanner base when the scanner host is plugged with a connecting wire, so that the scanner host can be selectively connected with data of the receiving scanner host in a wired or wireless mode under different working conditions, and the use experience of a user is improved.

So this application not only can realize the wireless mode connection of scanner host computer, and the volume of the scanner host computer of wireless mode is less in order to make things convenient for the user to hold simultaneously to can realize the wired mode of scanner host computer in order to meet an urgent need when wireless mode goes wrong, can satisfy the user demand under different actual conditions, and can satisfy the occasion that requires duration.

The present disclosure also provides a scanner system comprising a scanner host and a scanner base as described above.

The scanner system provided by the disclosure comprises a scanner host and the scanner base, and the scanner system can normally work under different working conditions through the conversion between the wireless connection state and the wired connection state between the scanner host and the scanner base, so that the adaptability of the scanner system to different use environments is improved.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the disclosure and together with the description, serve to explain the principles of the disclosure.

In order to more clearly illustrate the embodiments of the present disclosure or the solutions in the prior art, the drawings that are required for the description of the embodiments or the prior art will be briefly described below, and it will be obvious to those skilled in the art that other drawings can be obtained from these drawings without inventive effort.

FIG. 1 is an exploded view of a scanner base according to an embodiment of the present disclosure;

FIG. 2 is a schematic structural view of an auxiliary bracket according to an embodiment of the present disclosure;

FIG. 3 is a top view of a lower housing and motherboard after installation in accordance with an embodiment of the present disclosure;

FIG. 4 is a front view of the backside of a scanner base according to an embodiment of the present disclosure;

FIG. 5 is a side view of a scanner base mounting accessory bracket according to an embodiment of the present disclosure;

FIG. 6 is a front cross-sectional view of a scanner base according to an embodiment of the present disclosure;

FIG. 7 is a schematic diagram of a scanner host according to an embodiment of the disclosure when installed in the charging slot;

fig. 8 is a schematic structural diagram of the scanner base according to the embodiment of the present disclosure when the scanner host is placed after the auxiliary stand is mounted.

Wherein, 1, the shell; 11. an upper housing; 111. an indication window; 12. a lower housing; 121. an air inlet; 122. an air outlet; 123. a positioning groove; 124. a protection protrusion; 13. a charging tank; 131. a guide plate; 132. a receiving groove; 133. a charging assembly; 14. an indicator light structure; 2. a main board; 21. an external interface; 3. a wireless module; 31. an antenna; 4. an auxiliary bracket; 41. a plug-in part; 42. a carrying part; 421. a positioning piece; 422. a clamping groove; 5. a fan; 51. an electrostatic protection device; 6. a scanner host; 61. and (5) connecting wires.

Detailed Description

In order that the above objects, features and advantages of the present disclosure may be more clearly understood, a further description of aspects of the present disclosure will be provided below. It should be noted that, without conflict, the embodiments of the present disclosure and features in the embodiments may be combined with each other.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present disclosure, but the present disclosure may be practiced otherwise than as described herein; it will be apparent that the embodiments in the specification are only some, but not all, embodiments of the disclosure.

Referring to fig. 1 through 8, embodiments of the present disclosure provide a scanner system including a scanner host and a scanner base. The scanner host can be applied to the fields of industrial scanning, professional scanning, oral scanning and the like.

The scanner base comprises a shell 1, an auxiliary bracket 4, a main board 2 and a wireless module 3, wherein the main board 2 and the wireless module 3 are arranged in the shell 1; the shell 1 is provided with a charging slot 13 which is connected with the main board 2 and used for accommodating the scanner host 6, the wireless module 3 is connected with the main board 2, the wireless module 3 is used for receiving data information sent by the scanner host 6 and transmitting the data information to the data processing equipment, the main board 2 is provided with an external interface 21, the external interface 21 can be connected with the scanner host 6 through a connecting wire 61, so that the main board 2 supplies power for the scanner host 6 and the data information of the scanner host 6 is transmitted to the main board 2 through the connecting wire 61, and the auxiliary support 4 is detachably connected with the charging slot 13 and used for placing the scanner host 6.

Wherein the scanner host is an oral scanner host with a wired mode and a wireless mode. When the scanner host 6 is connected to the external interface 21 through the connection line 61, the scanner host 6 and the scanner base are in a wired connection state (wired mode), and the auxiliary stand 4 is mounted on the charging slot 13 to place the scanner host 6; when the scanner host 6 is connected to the main board 2 through the wireless module 3 or the charging slot 13, the scanner host 6 and the scanner base are in a wireless connection state (wireless mode), and the auxiliary support 4 is separated from the charging slot 13, so that the scanner host 6 can be installed in the charging slot 13.

Specifically, the casing 1 may be selected to have a rectangular structure, or the casing 1 may be selected to have a column with an elliptical cross section parallel to the ground; the shell 1 can be selected to comprise an upper shell 11 and a lower shell 12, the lower shell 12 can be selected to be of a hollow structure, one surface of the lower shell 12 far away from the ground is provided with an opening, the upper shell 11 can be selected to be a rectangular panel, and the upper shell 11 is covered on the lower shell 12 to form the shell 1; the main board 2 can be selected to be connected to the bottom surface of the interior of the shell 1 through bolts, or the installation groove can be formed in the bottom surface of the interior of the shell 1, the main board 2 is inserted into the installation groove, and the main board 2 is connected with the groove bottom of the installation groove through glue so as to form the main board 2 in the interior of the shell 1; the wireless module 3 may be selectively connected to the inner wall of the housing 1 by bolts, but it is also possible to selectively connect the wireless module 3 to the main board 2 by bolts.

The charging groove 13 is arranged on one surface of the shell 1 far away from the ground, the charging groove 13 can be selected to be formed by recessing the outer surface of one side of the shell 1 far away from the ground, or the charging groove 13 can be selected to be formed by annular protrusions on one side of the shell 1 far away from the ground, the inner space of each annular protrusion and the surface of the shell 1 form the charging groove 13, or the charging groove 13 is not limited to be formed by concavely forming a groove on the outer surface of one side of the shell 1 far away from the ground, a baffle is arranged at the notch of the groove, and the baffle and the groove jointly form the charging groove 13; the charging groove 13 may be a rectangular groove, or may alternatively be a circular groove bottom, as long as the effect of matching the charging groove 13 with the shape of the scanner host 6 is achieved.

The external interface 21 may be selected as a type-c interface, the connection line may be selected as a data line with a type-c interface at an end, and one end of the connection line is inserted into the external interface 21 and the other end is inserted into the main board of the scanner host 6, so that the scanner host 6 may transmit data to the main board 2 through the connection line and the external interface 21, and may supply power to the scanner host 6 through the external interface 21, or may select the external interface 21 as a USB interface, and the connection line is a data line with a USB interface at an end, so that the scanner host 6 may be connected to the main board 2 through the external interface 21; the data processing device can be selected to be a computer, or can be a tablet computer, and can be used for transmitting data information on the main board 2 to the computer through a data line, or can be used for selecting the computer to be connected with the wireless module 3 in a matching way, and the data on the main board 2 is transmitted to the computer through a wireless transmission mode.

The wireless module 3 may be selected to be a circuit board with a WIFI module, a socket is arranged on the main board 2, the circuit board with a WIFI module is connected with the socket of the main board 2, a bolt is used to connect the circuit board with a WIFI module with the main board 2, a sponge cushion block is selectively arranged between the circuit board with a WIFI module and the inner wall of the shell 1, one end of the sponge cushion block is adhered to the inner wall of the shell 1, and the other end of the sponge cushion block is abutted to the circuit board with a WIFI module, so that the circuit board with a WIFI module is pressed by the sponge cushion block, and the relative position between the circuit board with a WIFI module and the main board 2 is kept stable; of course, the wireless module 3 may be a circuit board with a bluetooth module, the main board 2 is provided with an interface connected with the wireless module 3, and the wireless module 3 can be connected with the main board 2 by riveting after being inserted into the interface, so that the relative position between the wireless module 3 and the main board 2 is kept stable.

The auxiliary bracket 4 may optionally include a column and a rectangular panel, where one end of the column is provided with the rectangular panel, and the column is perpendicular to the rectangular panel, and the column is inserted into the charging slot 13, and the rectangular panel is used to carry and place the scanner host 6; the rectangular panel is far away from one side of the column body, two vertical plates can be arranged in parallel, the scanner host 6 is placed between the two vertical plates, two side edges of the rectangular panel, which are parallel to the length direction of the rectangular panel, can be bent towards the direction far away from the column body, the rectangular panel is an arc-shaped plate, the scanner host 6 is placed in the arc-shaped concave surface of the arc-shaped rectangular panel, or the rectangular panel can be obliquely arranged relative to the column body, when the auxiliary support 4 is connected with the charging slot 13, the distance between one side edge, which is parallel to the width direction of the rectangular panel, of the rectangular panel and the shell 1 is greater than the distance between the other side edge and the shell 1, one end, which is smaller than the other end, of the rectangular panel and the shell 1 is the bottom end of the rectangular panel, the vertical plate is arranged at the bottom end of the rectangular panel, and the vertical plate is perpendicular to the length direction of the rectangular panel, so that the scanner host 6 is abutted to the surface of the vertical plate under the action of gravity of the scanner host 6 when the scanner host 6 is placed on the rectangular panel, and the scanner host 6 is stably placed on the obliquely-arranged rectangular panel.

The battery compartment of the scanner host 6 for placing the battery can be selectively arranged at the tail part of the scanner host 6, the battery is inserted into the battery compartment and connected with the main board of the scanner host 6, so that the battery is supplied with power by the main board of the battery scanner host 6, the tail part of the scanner host 6 is inserted into the charging slot 13 to realize the charging operation of the battery, when the scanner host 6 is connected with the scanner base by using a connecting wire, the battery of the scanner host 6 can be selectively taken out, one end of the connecting wire is connected with the external interface 21, the other end of the connecting wire is inserted into the battery compartment and connected with the main board of the scanner host 6, the scanner base can directly supply power to the battery compartment of the scanner host 6, and the main board of the scanner host 6 can transmit data into the scanner base by the connecting wire.

When the scanner host 6 is in a wireless connection use state, the scanner host 6 is inserted into the charging slot 13 to charge a battery of the scanner host 6, the scanner host 6 is held by a hand to scan the oral cavity internal environment of a patient when the scanner host 6 is needed, the scanner host 6 performs scanning operation, data information obtained by the scanner host 6 is sent to the wireless module 3 through a wireless network at the same time of scanning operation, the wireless module 3 receives the data information sent by the scanner host 6 and transmits the data information to the main board 2, when the scanner host 6 needs to be used for a long time or the wireless connection of the scanner host 6 and the scanner host fails, the middle battery of the scanner host 6 is taken out from a battery bin, one end of a connecting wire is inserted into an external interface 21 of the scanner host 6, the other end of the connecting wire is inserted into the battery bin to be connected with the main board of the scanner host 6, so that the scanner host 6 can be powered by the main board of the scanner host 6 at the moment, and the scanned data can be transmitted to the main board 2 of the scanner host 6 through the connecting wire when the scanner host 6 works, and the scanner host 6 is in a wired connection use state; when the scanner host 6 with the connecting wire inserted therein completes the work, one end of the auxiliary bracket 4 may be inserted into the charging slot 13, and the scanner host 6 may be placed on the carrying portion of the other end of the auxiliary bracket 4.

The scanner base comprises a shell 1, an auxiliary bracket 4, a main board 2 and a wireless module 3, wherein the main board 2 and the wireless module 3 are arranged in the shell 1; the shell 1 is provided with a charging slot 13 which is connected with the main board 2 and is used for accommodating the scanner host 6, the wireless module 3 is connected with the main board 2, the wireless module 3 is used for receiving data information sent by the scanner host 6 and transmitting the data information to the data processing equipment, the main board 2 is provided with an external interface 21, the external interface 21 can be connected with the scanner host 6 through a connecting wire 61, so that the main board 2 supplies power to the scanner host 6 and the data information of the scanner host 6 is transmitted to the main board 2 through the connecting wire 61, and the auxiliary bracket 4 is detachably connected with the charging slot 13 and is used for placing the scanner host 6; wherein, when the scanner host 6 is connected with the external interface 21 through the connecting wire 61, the auxiliary bracket 4 is installed on the charging slot 13 to place the scanner host 6; when the scanner host 6 is connected with the main board 2 through the wireless module 3 or the charging slot 13, the auxiliary support 4 is separated from the charging slot 13, so that the scanner host 6 can be installed in the charging slot 13, and finally, the scanner base can receive scanning data of the scanner host 6 through the wireless module 3, charge a battery of the scanner host 6 through the charging slot 13, the scanner host 6 can transmit data information to the main board 2 through a connecting wire, the scanner base can directly supply power to the scanner host 6 through the connecting wire, and meanwhile, the auxiliary support 4 can enable the scanner host 6 to be stably placed on the scanner base when the connecting wire is inserted, so that wireless and wired two data transmission modes of the scanner host 6 under different working conditions are realized, and the use experience of a user is improved.

Referring to fig. 1, 2, 5, 7 and 8, in some embodiments, the auxiliary stand 4 includes a socket portion 41 and a bearing portion 42, where one end of the socket portion 41 is provided with the bearing portion 42 for placing the scanner host 6, and the other end is used for connecting with the charging slot 13.

Specifically, the plugging portion 41 may be selected to be of a rectangular structure or a cylindrical structure, so long as the effect that the plugging portion 41 can be inserted into the charging slot 13 to enable the auxiliary support 4 to be stably connected with the scanner base is achieved, the bearing portion 42 may be selected to be a rectangular planar panel, vertical plates are respectively arranged at two opposite side edges of the panel, when the scanner host 6 is placed on the bearing portion 42, the scanner host 6 is located between the two vertical plates, the scanner host 6 is stably placed on the bearing portion 42, the bearing portion 42 may be selected to be an arc-shaped panel, and the distance between the arc-shaped panel and the scanner base is gradually reduced in the direction of the two side edges parallel to the length direction of the arc-shaped panel towards the center of the arc-shaped panel, so that an accommodating cavity is formed at one side of the arc-shaped panel away from the scanner base, and the scanner host 6 is placed inside the accommodating cavity, thereby enabling the scanner host 6 to be stably placed on the bearing portion 42.

Through setting up auxiliary stand 4 and including grafting portion 41 and carrier portion 42, the one end of grafting portion 41 is equipped with carrier portion 42 for place scanner host computer 6, and the other end is used for being connected with charging tank 13, makes grafting portion 41 insert in the charging tank 13 of scanner base finally, makes auxiliary stand 4 be connected with the scanner base, and uses carrier portion 42 to place scanner host computer 6, makes the scanner host computer 6 of wired connection state can place on the scanner base through auxiliary stand 4.

Referring to fig. 1, 2, 5, 7, and 8, in some embodiments, along a direction in which a bottom end of the carrier portion 42 faces a top end of the carrier portion 42, the top end of the carrier portion 42 is disposed obliquely in a direction away from the housing 1, the bottom end of the carrier portion 42 is bent in a direction away from the plug portion 41 to form a limit structure, and when the scanner host 6 is placed on the carrier portion 42, a bottom of the scanner host 6 abuts against the limit structure to limit the movement of the scanner host 6 in a direction in which the top end of the carrier portion 42 faces the bottom of the carrier portion 42.

Specifically, one end of the bearing part 42, which is close to the external interface 21 of the main board 2, may be selected as the top end of the bearing part 42 in the length direction of the bearing part 42, and one end of the bearing part 42, which is far away from the external interface 21, may be selected as the bottom end of the bearing part, an included angle of 15 ° is formed between the bearing part 42 and the horizontal plane after the bearing part 42 is inclined, or an included angle of 25 ° is formed between the bearing part 42 and the horizontal plane after the bearing part 42 is inclined, so that the distance between the top end of the bearing part 42 and the scanner base is greater than the distance between the bottom end of the bearing part 42 and the scanner base; the limiting structure may be a rectangular vertical plate, or may be a protrusion along the edge of the bottom end of the bearing portion 42, so long as the effect that the limiting structure abuts against the bottom of the scanner host 6 when the scanner host 6 is placed on the bearing portion 42 is achieved.

Through the direction along the bottom of carrier 42 towards the top of carrier 42, the top of carrier 42 is set up in the slope of direction of keeping away from shell 1, the bottom of carrier 42 is crooked towards the direction of keeping away from grafting portion 41 and is formed limit structure, when making scanner host computer 6 place on carrier 42, the bottom and the limit structure butt of scanner host computer 6, in order to restrict the top of scanner host computer 6 along carrier 42 and remove towards the direction of the bottom of carrier 42, when finally making scanner host computer 6 place on carrier 42, the slope of carrier 42 sets up and makes scanner host computer 6 slide towards the bottom of carrier 42 under the effect of self gravity when placing on carrier 42, because the bottom of carrier 42 is equipped with limit structure, make scanner host computer 6 and limit structure closely butt under the effect of self gravity, thereby keep the stability of the relative position between scanner host computer 6 and the carrier 42.

Referring to fig. 1 to 8, the charging slot 13 includes a guide plate 131 and a receiving slot 132, the outer surface of the upper housing 11 is recessed to form the receiving slot 132, the guide plate 131 is disposed at a slot opening of the receiving slot 132, the guide plate 131 extends toward a direction away from a slot bottom of the receiving slot 132, a clamping slot 422 is disposed on a face of the bearing portion 42 toward the charging slot 13, and when the auxiliary stand 4 is connected with the charging slot 13, the inserting portion 41 is disposed in the receiving slot 132, and one end of the guide plate 131 away from the housing 1 is connected with the clamping slot 422.

Specifically, the accommodating groove 132 may be a rectangular groove, or the groove bottom of the accommodating groove 132 may be a circular shape, or the accommodating groove 132 may be formed on the outer surface of the upper housing 11, the accommodating groove 132 extends toward the inside of the housing 1, and the charging assembly 133 may be selectively disposed at the groove bottom of the accommodating groove 132, and the charging assembly 133 is connected with the motherboard 2, so that when the scanner host 6 is placed in the accommodating groove 132, the battery of the scanner host 6 is connected with the charging assembly 133; the charging assembly 133 may be a patch panel with pogpin (pogpin is a spring type probe formed by riveting three basic components of a needle shaft, a spring and a needle tube through a precision instrument, and has a precision spring structure inside, which is a precision connector applied to electronic products such as a mobile phone, and is widely applied to semiconductor devices to play a role in connection), one end of the patch panel is connected with the main board 2, the other end of the patch panel is provided with pogpin pins, the pogpin pins are located on the bottom of the accommodating groove 132, when the scanner host 6 is inserted into the accommodating groove 132, the pogpin pins are connected with a battery of the scanner host 6, so that the main board 2 supplies power to the scanner host 6 through the pogpin pins, or the charging assembly 133 may be a magnetic contact charging head, which is arranged on the bottom of the accommodating groove 132 and is connected with the main board 2, so that after the scanner host 6 is inserted into the accommodating groove 132, the battery of the scanner host 6 is connected with the magnetic contact charging head to perform charging operation.

The guide plate 131 may be selected to be perpendicular to the upper case 11, or may be selected to be inclined in a direction along the groove bottom of the accommodating groove 132 toward the notch of the accommodating groove 132, the guide plate 131 may be selected to be recessed in a surface of the carrying portion 42 facing the charging groove 13 to form a rectangular groove as the engaging groove 422, the engaging groove 422 may be disposed opposite to the guide plate 131 in a direction of the scanner base facing the carrying portion 42, or may be selected to be disposed with a rectangular projection on the surface of the carrying portion 42 facing the charging groove 13, and a gap may be provided between the projection and the insertion portion 41 in a longitudinal direction of the carrying portion 42 to form the engaging groove 422, and a width of the engaging groove 422 may be selected to be larger than a thickness of the guide plate 131, so that the guide plate 131 may be inserted into the engaging groove 422. An indication window 111 can be further formed on the upper housing 11, an indication lamp structure 14 is arranged on the charging assembly 133, a light emitting component in the indication lamp structure 14 is located in the indication window 111, and when the scanner host 6 is connected with the charging assembly 133, the indication lamp structure 14 emits light so that a user can determine that the scanner host 6 is being charged.

The light-guiding column made of transparent materials can be selectively arranged on the light-emitting component of the indicator light structure 14, and the light-guiding column penetrates through the indicator window 111 and is exposed outside the housing 1, so that light emitted by the indicator light structure 14 is transmitted in the light-guiding column, the light-guiding column emits light, and a user can conveniently observe whether the light-guiding column located outside the indicator window 111 emits light or not to judge whether the scanner base is being charged or not.

The above-mentioned engaging groove 422 may be selected to be a rectangular protrusion provided on one surface of the carrying portion 42 near the charging groove 13, the rectangular protrusion being connected to one side surface of the plugging portion 41 near the guide plate 131, a vertical plate being provided on the rectangular protrusion, the vertical plate being provided opposite to the plugging portion 41 in the longitudinal direction of the carrying portion 42, such that the space surrounded by the vertical plate, the side surface of the plugging portion 41 and the rectangular protrusion forms the engaging groove 422, or a baffle may be provided on one side surface of the carrying portion 42 near the charging groove 13, the baffle being provided opposite to the plugging portion 41 in the longitudinal direction of the carrying portion 42, such that the baffle, the side surface of the plugging portion 41 and the surface of the carrying portion 42 enclose the engaging groove 422.

Through setting up charging tank 13 and including guide board 131 and holding tank 132, the surface of shell 1 is sunken to form holding tank 132, set up guide board 131 in the notch department of holding tank 132, extend guide board 131 towards the direction of keeping away from the tank bottom of holding tank 132, be equipped with joint groove 422 on the one side of bearing portion 42 towards charging tank 13, when making auxiliary stand 4 be connected with charging tank 13, grafting portion 41 is located holding tank 132, guide board 131 keeps away from the one end of shell 1 and is connected with joint groove 422, finally make grafting portion 41 be located the relative scanner base of restriction grafting portion 41 in holding tank 132 and remove in the horizontal direction, because grafting portion 41 can have the clearance between holding tank 132, guide board 131 can restrict the relative charging tank 13 of auxiliary stand 4 and swing in the horizontal direction, stability when auxiliary stand 4 and charging tank 13 are connected has been promoted.

Referring to fig. 1, 2, 5, 7 and 8, in some embodiments, a positioning protrusion is further disposed on a surface of the guide plate 131 facing the auxiliary support 4, a positioning member 421 is disposed inside the clamping slot 422, and the positioning protrusion is disposed opposite to the positioning member 421 in a direction of the guide plate 131 facing the auxiliary support 4, and when the auxiliary support 4 is connected to the charging slot 13, the positioning protrusion is connected to the positioning member 421.

Specifically, a spherical protrusion may be selectively disposed on the guide plate 131 to serve as a positioning protrusion, or a cylindrical protrusion may be selectively disposed on the guide plate 131 to serve as a positioning protrusion, after the guide plate 131 is inserted into the clamping groove 422, a through hole is disposed on a surface of the clamping groove 422 facing the positioning protrusion of the guide plate 131 to serve as a positioning member 421, the through hole communicates with the clamping groove 422 and the bearing portion 42 to be away from one side of the plugging portion 41, after the guide plate 131 is inserted into the clamping groove 422, the positioning protrusion is inserted into the through hole, so that the plugging portion 41 is limited to rotate in a horizontal direction by the positioning protrusion, and thus the relative position of the auxiliary bracket 4 and the scanner base is kept stable; of course, the positioning piece 421 may be a sleeve disposed on an inner wall of the side of the clamping groove 422 facing the positioning protrusion, and when the end of the guide plate 131 far away from the housing 1 is inserted into the clamping groove 422, the positioning protrusion on the guide plate 131 is inserted into the sleeve on the inner wall of the clamping groove 422, and the positioning piece 421 is connected with the positioning protrusion.

Still be equipped with the location arch on the one side through setting up guide board 131 towards auxiliary stand 4, the inside of joint groove 422 is equipped with setting element 421, in the direction of guide board 131 towards auxiliary stand 4, the location arch sets up relatively with setting element 421, when auxiliary stand 4 is connected with charging tank 13, the location arch is connected with setting element 421, when finally making auxiliary stand 4 be connected with charging tank 13, the location arch is connected with setting element 421, thereby make the location arch restrict the relative scanner base of auxiliary stand 4 and rotate in the horizontal direction, stability when auxiliary stand 4 is installed on the scanner base has been promoted, thereby promote the stability when scanner host computer 6 is placed on auxiliary stand 4.

Referring to fig. 1, fig. 3, fig. 5, fig. 6, fig. 7 and fig. 8, in some embodiments, the casing 1 is further provided with a fan 5 and an air outlet 122, the side surface of the casing 1 is provided with the air outlet 122, the inside of the casing 1 is provided with the fan 5 facing the air outlet 122, the fan 5 is used for driving air inside the casing 1 to be discharged from the air outlet 122, specifically, when the casing 1 is of a rectangular structure, the side surface of the casing 1 perpendicular to the ground is provided with the air outlet 122, or when the casing 1 is of a cylindrical body with an oval cross section, the arc surface of the casing 1 is provided with the air outlet 122, the side surface of the casing 1 can be selected to be provided with a rectangular through hole as the air outlet 122, or the side surface of the casing 1 can be selected to be provided with a circular through hole as the air outlet 122, the fan 5 can be selected to be connected with the inner wall of the casing 1 through bolts, or the fan 5 can be selected to be connected with the inner wall of the casing 1 through rivets, the blowing direction of the fan 5 faces the air outlet 122, and the blowing direction of the fan 5 can drive air inside the casing 1 to be discharged from the air outlet 122 through the air outlet 122.

The fan 5 and the air outlet 122 are further arranged on the side face of the shell 1, the air outlet 122 is arranged on the side face of the shell 1, the fan 5 facing the air outlet 122 is arranged inside the shell 1, the fan 5 is used for driving air inside the shell 1 to be discharged from the air outlet 122, finally, heat generated by the main board 2 and the wireless module 3 inside the shell 1 during operation can be reduced in temperature through air flow generated after the fan 5 is started, air heated by the main board 2 and the wireless module 3 during operation in the shell 1 is discharged from the inside of the shell 1, the situation that the internal temperature of the shell 1 is too high and the sound box main board 2 and the wireless module 3 normally operate is avoided, and the stability of the scanner base during operation is improved.

Referring to fig. 1, 3, 5 and 6, the air outlet 122 is disposed on a side surface parallel to the length direction of the housing 1, the other side surface parallel to the length direction of the housing 1 is further provided with an air inlet 121, along the length direction of the housing 1, the air inlet 121 is located at one end of the side surface of the housing 1 close to the motherboard, the air outlet 122 is located at one end of the side surface of the housing 1 far away from the motherboard, specifically, when the housing 1 is in a rectangular structure, the two side surfaces parallel to the length direction of the housing 1 are respectively provided with the air inlet 121 and the air outlet 122, or, when the side surface of the housing 1 is in an arc surface, the arc surface is considered to be a side surface parallel to the length direction of the housing 1, and the two arc surfaces parallel to the length direction of the housing 1 are respectively provided with the air inlet 121 and the air outlet 122; the main board 2 may be optionally disposed at the end of the housing 1 in the length direction of the housing 1, so that the external interface 21 is conveniently connected to the housing 1 to be exposed to the outside of the housing 1, the end of the housing 1 provided with the main board 2 is the tail of the scanner base, and the fan 5 may be optionally disposed at the air outlet 122.

The air outlet 122 is arranged on one side surface parallel to the length direction of the shell 1 and the other side surface parallel to the length direction of the shell 1, the air inlet 121 is further arranged on the other side surface parallel to the length direction of the shell 1, the air inlet 121 is positioned at one end, close to the main board, of the side surface of the shell 1, the air outlet 122 is positioned at one end, far away from the main board, of the side surface of the shell 1, when the fan 5 is finally started, air with lower external temperature of the shell 1 enters the inside of the shell 1 through the air inlet 121, passes through the main board 2 and the wireless module 3, then moves to the fan 5 along the length direction of the shell 1, is discharged through the air outlet 122, and the air with lower temperature can firstly cool the main board 2 and the wireless module 3, then flows through most of the space inside the shell 1, is discharged through the air outlet 122, and the flowing efficiency of the air inside the shell 1 is improved, thereby the heat dissipation effect of the air flow driven by the fan 5 is improved, and the main board 2 and the wireless module 3 keep working normally.

Referring to fig. 1 and 3, in some embodiments, the air inlet 121 and the air outlet 122 are further provided with an electrostatic protection device 51, and specifically, the electrostatic protection device 51 may be selected to be a metal mesh, or of course, the electrostatic protection device 51 may be selected to be a metal grille, a metal mesh or a metal format may be selectively installed inside the casing 1 by bolts, a window is provided on the bottom surface of the casing 1, so that a part of the metal mesh or the metal grille is grounded through the window, and the air outlet 122 is covered by the metal mesh or the metal grille, and when the fan 5 is started, dust with static electricity outside the casing 1 is led into the ground through the metal mesh or the metal grille; of course, the electrostatic protection device 51 may also be selected to further include a metal counterweight, the metal counterweight is disposed on the bottom surface inside the casing 1, a window is disposed on the bottom surface inside the casing 1, so that a part of the metal counterweight is grounded through the window, the metal counterweight is located between the air inlet 121 and the air outlet 122, a metal mesh is disposed at the air inlet 121 and the air outlet 122, the metal mesh is connected with the metal counterweight, the motherboard 2 may be selectively connected with the metal counterweight through a copper column or other conductive piles, the motherboard 2 is grounded through the metal counterweight, the motherboard 2 is prevented from being damaged by external electrostatic pulses during operation, and the metal counterweight may also prevent the base from being dragged to displace, so as to avoid the scanner host 6 from falling to the ground, and influence on doctor treatment.

Through still being equipped with electrostatic protection device 51 in air intake 121 and air outlet 122 department, when making the outside dust that has static of shell 1 when fan 5 starts pass through electrostatic protection device 51, with static guide in on the electrostatic protection device 51, avoid scanner base during operation to cause mainboard 2 or wireless module 3 to damage because of static.

Referring to fig. 1 and 3, in some embodiments, an antenna 31 is further disposed inside the casing 1, one end of the antenna 31 is connected to the wireless module 3, and the other end is attached to the inner wall of the casing 1, specifically, the antenna 31 may be selected to have a rectangular base and a columnar antenna, the base may be selectively connected to the wireless module 3 by using a screw, the columnar antenna may be bent so as to attach the antenna to the inner wall of the casing 1, the antenna may be in a plane parallel to the ground of the casing 1, or the antenna 31 and the wireless module 3 may be selected to be an integrated structure, one end of the antenna 31 away from the wireless module 3 is attached to a side wall of the casing 1, and one end of the antenna 31 away from the wireless module 3 extends in a direction away from the bottom surface of the casing 1.

Through still being equipped with antenna 31 in the inside of shell 1, antenna 31's one end is connected with wireless module 3, and the other end laminating is in the inner wall of shell 1, makes antenna 31 can amplify the signal, promotes wireless module 3 and receives external signal's success rate to promote the transmission efficiency when scanner host computer 6 during operation passes through wireless network with signal transmission for wireless module 3.

Referring to fig. 1, 3, 4 and 6, in some embodiments, the outer surface of the side of the housing 1 near the outer port 21 is recessed to form a positioning groove 123, the outer port 21 is disposed at the bottom of the positioning groove 123, the inner wall of the positioning groove 123 is provided with a protection protrusion 124, the protection protrusion 124 extends towards the inside of the positioning groove 123, specifically, the outer surface of the side of the housing 1 near the outer port 21 is recessed towards the inside of the housing 1 to form the positioning groove 123, the positioning groove 123 may be selected to be a rectangular groove, and of course, the positioning groove 123 may also be selected to be a plurality of rectangular grooves, so that the plurality of rectangular grooves are matched with a plurality of interfaces in the outer port 21; optionally, a through hole may be formed at the bottom of the positioning groove 123, so that the external port 21 may be inserted into the through hole to expose the external port 21 to the outside of the housing 1; the rectangular protrusions are arranged on the inner wall of one side of the positioning groove 123 to serve as the protection protrusions 124, so that the plug for connecting the positioning groove 123 with the external interface 21 is required to be provided with the avoidance groove to be inserted into the positioning groove 123 to be connected with the external interface 21, the external interface 21 can use a special plug with the avoidance groove to avoid the damage of the main board 2 caused by the use of a plug which does not meet the specification, or the cylindrical protrusions are respectively arranged on the side walls of two opposite sides of the positioning groove 123 to serve as the protection protrusions 124, the two protection protrusions 124 are oppositely arranged, and a gap is reserved between the two protection protrusions 124 in the direction perpendicular to the side wall provided with the protection protrusions 124, so that the plug can be connected with the external interface 21 through the gap.

Through setting up the surface sunken constant head tank 123 that forms that is close to outer interface 21 one side of shell 1, outer interface 21 sets up in the tank bottom of constant head tank 123, the inner wall of constant head tank 123 is equipped with protection protruding 124, protection protruding 124 extends towards the inside of constant head tank 123, make the constant head tank 123 can guide the plug of connecting wire 61 and be connected with outer interface 21, and the plug is connected with outer interface 21 after, the metal part of plug is located the constant head tank 123, the metal part of having avoided the plug is contacted with the external object that has static and makes static and lead into mainboard 2, and then cause mainboard 2 damage, protection protruding 124 can make with constant head tank 123 shape mismatch and the plug that does not have the dodge the groove in the prescribed position can't insert in constant head tank 123, thereby avoided the user to insert the plug that will not match with the specification of outer interface 21 in outer interface 21 and cause mainboard 2 to damage, scanner base's use experience has been promoted.

Embodiments of the present disclosure also provide a scanner system comprising a scanner host and a scanner base as described in any of the above.

By using the scanner host and the scanner base in the scanner system, the scanner host can be switched between a wireless connection state convenient to hold and a wired connection state suitable for long-time use, so that the scanner host can cope with different use scenes, and the suitability of the scanner system for different use scenes is improved.

When the portable electronic device is specifically used, the scanner host 6 is inserted into the accommodating groove 132 of the charging groove 13, the battery of the scanner host 6 is connected with the charging assembly 133 to perform charging operation, when the scanner host 6 is needed to be used, the scanner host 6 is held by a hand to scan the internal environment of the oral cavity of a patient, data recorded by the scanner host 6 during scanning are transmitted to the wireless module 3 of the scanner base through a wireless network, the wireless module 3 transmits the data to the main board 2, the main board 2 can select the wireless module 3 to transmit the processed data to a computer after being processed, and the processed data can be transmitted to the computer through a data wire; when the scanner host 6 needs to be used continuously for a long time or the wireless connection between the scanner host 6 and the scanner base is interfered, the battery of the scanner host 6 can be disassembled, one end of the connecting wire is inserted into the battery compartment of the scanner host 6 and connected with the main board of the scanner host 6, the other end of the connecting wire is inserted into the external interface 21 and connected with the main board 2 of the scanner base, the scanner host 6 is held by a user to scan the internal environment of the oral cavity of a patient, the scanner host 6 is powered by the scanner base through the connecting wire, and the data information obtained by scanning by the scanner host 6 is directly transmitted to the main board 2 through the connecting wire.

It should be noted that in this document, relational terms such as "first" and "second" and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The foregoing is merely a specific embodiment of the disclosure to enable one skilled in the art to understand or practice the disclosure. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the disclosure. Thus, the present disclosure is not intended to be limited to the embodiments shown and described herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (11)

1. The scanner base is characterized by comprising a shell (1), an auxiliary bracket (4), and a main board (2) and a wireless module (3) which are arranged in the shell (1);

the shell (1) is provided with a charging slot (13) which is connected with the main board (2) and is used for accommodating a scanner host (6), the wireless module (3) is connected with the main board (2), the wireless module (3) is used for receiving data information sent by the scanner host (6) and transmitting the data information to data processing equipment, the main board (2) is provided with an external interface (21), the external interface (21) can be connected with the scanner host (6) through a connecting wire (61), so that the main board (2) supplies power for the scanner host (6) and data information of the scanner host (6) is transmitted to the main board (2) through the connecting wire (61), and the auxiliary support (4) is detachably connected with the charging slot (13) and is used for placing the scanner host (6).

Wherein, when the scanner host (6) is connected with the external interface (21) through a connecting wire (61), the auxiliary bracket (4) is arranged on the charging slot (13) so as to place the scanner host (6);

when the scanner host (6) is connected with the main board (2) through the wireless module (3) or the charging slot (13), the auxiliary support (4) is separated from the charging slot (13), so that the scanner host (6) can be installed in the charging slot (13).

2. Scanner base according to claim 1, characterized in that the auxiliary support (4) comprises a plug-in part (41) and a bearing part (42), wherein one end of the plug-in part (41) is provided with the bearing part (42) for placing the scanner host (6), and the other end is used for being connected with the charging slot (13).

3. The scanner base as set forth in claim 2, wherein the top end of the bearing portion (42) is inclined in a direction of the bottom end of the bearing portion (42) toward the top end of the bearing portion (42), the top end of the bearing portion (42) is inclined in a direction away from the housing (1), the bottom end of the bearing portion (42) is bent in a direction away from the plugging portion (41) to form a limit structure, and when the scanner host (6) is placed on the bearing portion (42), the bottom of the scanner host (6) abuts against the limit structure to limit the movement of the scanner host (6) in a direction of the top end of the bearing portion (42) toward the bottom of the bearing portion (42).

4. Scanner base according to claim 2, characterized in that the charging slot (13) comprises a guide plate (131) and a containing slot (132), the outer surface of the housing (1) is recessed to form the containing slot (132), the guide plate (131) is arranged at the notch of the containing slot (132), the guide plate (131) extends towards the direction away from the bottom of the containing slot (132), the bearing part (42) is provided with a clamping slot (422) towards one side of the charging slot (13), and when the auxiliary bracket (4) is connected with the charging slot (13), the plug-in part (41) is arranged in the containing slot (132), and the end of the guide plate (131) away from the housing (1) is connected with the clamping slot (422).

5. Scanner base according to claim 4, characterized in that the guide plate (131) is further provided with a positioning protrusion on one side facing the auxiliary support (4), the inside of the clamping groove (422) is provided with a positioning piece (421), the positioning protrusion is arranged opposite to the positioning piece (421) in the direction of the guide plate (131) facing the auxiliary support (4), and the positioning protrusion is connected with the positioning piece (421) when the auxiliary support (4) is connected with the charging groove (13).

6. Scanner base according to claim 1, wherein the housing (1) is further provided with a fan (5) and an air outlet (122), the air outlet (122) is arranged on the side surface of the housing (1), the fan (5) facing the air outlet (122) is arranged inside the housing (1), and the fan (5) is used for driving the air inside the housing (1) to be discharged from the air outlet (122).

7. The scanner base as set forth in claim 6, wherein the air outlet (122) is disposed on a side surface of the housing (1) parallel to the length direction of the housing (1), an air inlet (121) is further disposed on another side surface of the housing (1) parallel to the length direction of the housing (1), the air inlet (121) is disposed at one end of the side surface of the housing (1) close to the main board, and the air outlet (122) is disposed at one end of the side surface of the housing (1) far away from the main board.

8. Scanner base according to claim 7, characterized in that the air inlet (121) and the air outlet (122) are further provided with electrostatic protection means (51).

9. Scanner base according to claim 1, characterized in that the inside of the housing (1) is further provided with an antenna (31), one end of the antenna (31) is connected with the wireless module (3), and the other end is attached to the inner wall of the housing (1).

10. The scanner base as set forth in claim 1, wherein the outer surface of the outer housing (1) near the outer interface (21) is recessed to form a positioning groove (123), the outer interface (21) is disposed at the bottom of the positioning groove (123), a protection protrusion (124) is disposed on the inner wall of the positioning groove (123), and the protection protrusion (124) extends toward the direction inside the positioning groove (123).

11. A scanner system comprising a scanner host and a scanner base as claimed in any one of claims 1 to 10.