CN220569227U - Medical service terminal - Google Patents

Abstract

The application provides a medical service terminal, including base, support, host computer and 3D formation of image subassembly. The base comprises a shell and an information reading module which is arranged in the shell and used for reading identity information; the bracket is arranged on the shell; the host comprises a main board, a screen and a shell arranged on the bracket, wherein the main board is arranged in the shell and used for receiving identity information, and the screen is arranged on the shell and used for displaying information and performing man-machine interaction; and the 3D imaging assembly is rotatably arranged at the top of the shell and used for acquiring 3D face images so that the host can acquire corresponding identity information according to the 3D face images. The medical service terminal of this application registers the mode diversification of identity information, can carry out the identity registration through 3D imaging module when not taking identity document, and the user uses more conveniently.

Description

Medical service terminal

Technical Field

The application belongs to the technical field of medical equipment, and more particularly relates to a medical service terminal.

Background

At present, in the processes of hospital registration, nucleic acid sampling, expense settlement and the like, identity information of corresponding personnel is usually required to be acquired, for example, identity information is acquired by adopting an identity card identification device, or the identity information is acquired by adopting a mode of scanning a health code, a nucleic acid code or medical insurance electronic certificate by adopting a code scanning device, so that the corresponding personnel must carry a mobile phone, an identity card or a social security card, and when the corresponding personnel forget to carry the corresponding personnel, the identity information cannot be acquired, and further the treatment of a user is influenced.

Disclosure of Invention

An object of the embodiment of the present application is to provide a medical service terminal, so as to solve the technical problem of single identity registration mode of the medical service terminal in the prior art.

In order to achieve the above purpose, the application provides a medical service terminal, which comprises a base, a bracket, a host and a 3D imaging component. The base comprises a shell and an information reading module which is arranged in the shell and used for reading identity information; the bracket is arranged on the shell; the host comprises a main board, a screen and a shell arranged on the bracket, wherein the main board is arranged in the shell and used for receiving identity information, and the screen is arranged on the shell and used for displaying information and performing man-machine interaction; and the 3D imaging assembly is rotatably arranged at the top of the shell and used for acquiring 3D face images so that the host can acquire corresponding identity information according to the 3D face images.

In some embodiments, the 3D imaging assembly includes a 3D imaging module and a carrier rotatably mounted on top of the chassis, the 3D imaging module being mounted within the carrier. In some embodiments, the carrier has a first swivel post, the top of the housing has a swivel slot and a second swivel post, and the first swivel post is mounted in the swivel slot and is rotatably connected to the second swivel post.

In some embodiments, the screen is two, set up in the opposite sides of the chassis separately. In some embodiments, the casing includes a front casing and a rear casing, the front casing and the rear casing are inclined and symmetrical with respect to the base, and the two screens are respectively disposed on the front casing and the rear casing.

In some embodiments, the information reading module comprises a certificate reading module and/or a code scanning module, and the certificate reading module is installed in the shell and is used for collecting identity information carried by the certificate; the code scanning module is arranged in the shell and used for collecting two-dimensional codes or bar code information. In some embodiments, the number of the code scanning modules is two, and the two code scanning modules are respectively arranged near two ends of the shell. In some embodiments, the code scanning window of the code scanning module is inclined relative to the upper surface of the housing.

In some embodiments, the bracket includes a first strut mounted on the housing and a second strut telescopically mounted within the first strut and coupled to the housing. In some embodiments, the base further comprises at least one of an HDMI interface, a USB interface, and a network port; and/or the host computer also comprises a clamping groove for inserting the SIM card, a loudspeaker module arranged in the shell and an indicator lamp arranged in the shell and exposed.

The medical service terminal provided by the application has the beneficial effects that: be equipped with information reading module on the base, the host computer top is equipped with 3D imaging module, when carrying out the identity registration, can obtain identity information through information reading module reading certificate or two-dimensional code, also can acquire the face information of personnel of seeing a doctor through 3D imaging module, obtains identity information through face information, that is, the medical service terminal of this application has multiple identity information registration mode, carries out the identity registration when making a doctor of convenience. In addition, man-machine interaction can be realized through the screen, and the visual field range is adjusted through rotating the 3D imaging component, so that the medical service terminal can be placed on platforms with different heights, and the face collection can be carried out on the medical staff with different heights, so that the medical service terminal is more convenient to use.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required for the embodiments or the description of the prior art will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a medical service terminal according to an embodiment of the present application;

fig. 2 is a schematic structural diagram of a view angle of a medical service terminal according to another embodiment of the present application;

fig. 3 is a schematic structural diagram of another view angle of a medical service terminal according to another embodiment of the present application.

Wherein, each reference sign in the figure:

10. a base; 11. a housing; 12. an HDMI interface; 13. a power interface; 20. a bracket; 21. a first strut; 22. a second strut; 30. a host; 31. a housing; 311. a front shell; 312. a rear case; 313. a second swivel post; 32. a screen; 321. a first screen; 322. a second screen; 33. a switch button; 34. setting a button; 35. a first indicator light; 36. a second indicator light; 37. a speaker module; 371. a volume adjustment button; 40. a 3D imaging assembly; 41. a 3D imaging module; 411. a projection module; 412. a floodlight; 413. an imaging module; 414. a color imaging module; 42. a carrier; 421. a first swivel post; 50. an information reading module; 51. a document reading module; 52. a code scanning module; 521. the first code scanning module; 522. the second code scanning module; 60. a network module; 61. a SIM card socket; 62. a network interface; 63. a USB interface; 70. a distance measuring module.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved by the present application more clear, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the present application.

It will be understood that when an element is referred to as being "fixedly connected to," "mounted to," or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

The terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present application, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

It should be understood that the term "and/or" as used herein is merely one way of describing an association of associated objects, meaning that there may be three relationships, e.g., a and/or b, which may represent: the first and second cases exist separately, and the first and second cases exist separately. In addition, the character "/" herein generally indicates that the front and rear associated objects are an "or" relationship.

Referring to fig. 1, the medical service terminal includes a base 10, a stand 20, a host 30, and a 3D imaging assembly 40. The base 10 comprises a shell 11 and an information reading module 50 which is arranged in the shell 11 and used for reading identity information, and the bracket 20 is arranged on the shell 11; the host 30 includes a main board (not shown), a screen 32 and a housing 31 mounted on the stand 20, the main board is disposed in the housing 31 for receiving identity information, and the screen 32 is mounted on the housing 31 for displaying information and performing man-machine interaction; the 3D imaging assembly 40 is rotatably mounted on the top of the casing 31, and is configured to collect a 3D face image for the host 30 to obtain corresponding identity information according to the 3D face image.

The medical insurance service terminal can be placed on a table top, counter or the like by the base 10, and the base 10 can provide support for the stand 20, the host 30 and the 3D imaging assembly 40. The housing 11 is formed with a housing cavity in which the information reading module 50, the base plate, the power module provided on the base plate, the heat dissipation module, and other functional devices can be mounted. In some embodiments, the base 10 further includes a power interface 13, which provides power to the base 10 via the power interface 13, thereby powering the host 30, the 3D imaging assembly 40, and the information reading module 50.

In one embodiment, the information reading module 50 includes a credential reading module 51 and a code scanning module 52. The certificate reading module 51 and the code scanning module 52 are both installed in the accommodating cavity inside the casing 11 and are both electrically connected with the host 30, and the read identity information or the acquired 3D face image is transmitted to the host 30. A certain space is provided between the certificate reading module 51 and the host 30, so that a doctor can conveniently place certificates such as an identity card or a social security card. The housing 11 may be provided with an identification area for identifying the position of the certificate reading module 51, for example, a concave portion or a convex portion is provided on the upper surface portion of the housing 11, and a prompt message for prompting the doctor to place an identity card or a social security card is printed on the portion, so that the doctor can accurately place the certificate. The certificate reading module 51 may include an identity card reading module, a social security card reading module, and the like.

The code scanning module 52 is configured to collect identity information by scanning a two-dimensional code (e.g. medical insurance electronic certificate) containing identity information of a doctor, the code scanning module 52 may also be configured to scan medicine information, medical consumable information, etc. provided by a medical staff, and the code scanning module 52 may also be configured to scan a payment code for electronic payment. The code scanning module 52 and the certificate reading module 51 are arranged at intervals, and the shell 11 is provided with an opening or a transparent area corresponding to the code scanning window of the code scanning module 52 so as to be beneficial to information acquisition. The code scanning window faces upward, forward or forward upward of the housing 11. In some embodiments, as shown in fig. 2 and 3, the code scanning window of the code scanning module 52 is disposed obliquely with respect to the upper surface of the housing 11, so as to facilitate scanning.

In some embodiments, the number of code scanning modules 52 is two, as shown in fig. 2, a first code scanning module 521 and a second code scanning module 522. The first code scanning module 52 is close to the front end of the housing 11 and is used for collecting identity information and/or payment codes of the doctor, and the code scanning window of the first code scanning module 521 is inclined relative to the upper surface of the housing 11 so as to face the doctor, and the doctor can register more conveniently. The second code scanning module 522 is close to the rear end setting of shell 11 for medical personnel scans bar code or two-dimensional code information on medicine or the medical supplies, and the code scanning window of second code scanning module 522 inclines to the upper surface of shell 11 relatively, in order to towards medical personnel. It should be noted that, in other embodiments, the information reading module 50 may also include one of the code scanning module 52 and the document reading module 51, which is not described herein.

Referring to fig. 2, in some embodiments, the stent 20 includes a first strut 21 and a second strut 22. First branch 21 fixed connection is in base 10, and the one end movable mounting of second branch 22 is in first branch 21, and the other end and host computer 30 fixed connection, and then second branch 22 can stretch out and draw back relative first branch 21 for support 20 is scalable, and through adjusting the length that second branch 22 extends to the outside of first branch 21, adjusts the interval between casing 31 and the base 10, realizes adjusting the height of host computer 30 and 3D imaging module 40, in order to guarantee that this medical service terminal can adapt to the platform of co-altitude and the personnel of seeing a doctor of different heights better. In one embodiment, the first strut 21 and the second strut 22 are each tubular structures.

In some embodiments, the first supporting rod 21 is formed with a plurality of positioning holes, and the plurality of positioning holes are sequentially and uniformly spaced along the extending direction of the first supporting rod 21. The second support rod 22 is provided with a positioning bulge, an elastic piece is fixed inside the second support rod 22, a fixing hole is formed in the second support rod 22, the fixing hole penetrates through the second support rod 22 along the direction perpendicular to the extending direction of the second support rod 22, the positioning bulge is slidably connected in the fixing hole, one end of the positioning bulge is abutted to the elastic piece, and the other end of the positioning bulge extends to the outer side of the second support rod 22 under the elastic force of the elastic piece. The spacing between the housing 11 and the base 10 is adjusted by inserting the positioning projections into different positioning holes on the first support rod 21. In other embodiments, the first and second struts 21, 22 may be secured by a hoop, which is unscrewed when adjustment is desired and then the second strut 22 is moved up and down.

Referring to fig. 3, in some embodiments, the number of the screens 32 is two, namely, a first screen 321 and a second screen 322, and the first screen 321 and the second screen 322 are respectively disposed on opposite sides of the housing 31 for interaction by the doctor and the medical staff. In one embodiment, the casing 31 includes a front case 311 and a rear case 312 connected, the front case 311 and the rear case 312 being inclined and symmetrical with respect to the base, and a distance between the front case 311 and the rear case 312 gradually increases from the top to the bottom of the casing 31. The first screen 321 is arranged on the front shell 311, and the second screen 322 is arranged on the rear shell 312, namely, the first screen 321 and the second screen 322 are inclined and symmetrical relative to the base, so that the operation and the watching of the collected information by the doctor can be facilitated, and the operation and the watching of the collected information by the medical staff can be facilitated.

When the doctor adopts the face recognition mode to collect information, the first screen 321 displays a face recognition frame, and the doctor adjusts the face outline or the 3D imaging component 40 when facing the first screen 321, so that the face outline is positioned in the face recognition frame, and the 3D imaging component 40 can rapidly and accurately collect the face information of the doctor. After the identity information of the doctor is collected, the first screen 321 and the second screen 322 display the collected identity information, so that the doctor and the medical staff can check.

In some embodiments, the host 30 includes a switch button 33 and a set button 34, the switch button 33 and the set button 34 being electrically connected to the motherboard for switching and setting the host 30. For example, the sound size, screen brightness, contrast of the host 30 may be set by the set button 34. Among them, the switch button 33 may be disposed at the left or right side of the cabinet 31 and close to the first screen 321 or the second screen 322.

In one embodiment, the host 30 further includes a first indicator light 35 and a second indicator light 36, where the first indicator light 35 and the second indicator light 36 are electrically connected to the host 30, the first indicator light 35 is disposed on the front shell 311 and exposed, and is located on the same side as the first screen 321, and the second indicator light 36 is disposed on the rear shell 312 and exposed, and is located on the same side as the second screen 322. When the medical service terminal is adopted by the doctor for acquiring the identity information, the first indicator lamp 35 and the second indicator lamp 36 are used for respectively indicating the working states of the first screen 321 and the second screen 322.

Referring to fig. 2, in one embodiment, the host 30 further includes a speaker assembly 37 and a volume adjusting button 371, two bell mouths are formed on two sides of the housing 31, the two bell mouths are located on two sides of the second screen 322, and the speaker assembly 37 includes two speakers (not shown), and the two speakers are in one-to-one correspondence with the two bell mouths and are electrically connected to the host 30. Wherein, the speaker is used for voice prompt when the 3D imaging module 41 registers identity, and the volume adjustment button 371 is used for adjusting the output volume of the speaker.

The 3D imaging assembly 40 includes a 3D imaging module 41 and a carrier 42,3D the imaging module 41 is mounted to the carrier 42 and faces forward, the carrier 42 can provide protection and support for the 3D imaging module 41. The carrier 42 is rotatably connected to the top of the casing 31, and drives the 3D imaging module 41 to rotate relative to the casing 31 by rotating the carrier 42, so as to adjust the imaging direction of the 3D imaging module 41.

The carrier 42 may be hinged to the housing 31, for example, the carrier 42 has a first rotating post 421, the first rotating post 421 is cylindrical, a rotating groove and a second rotating post 313 are formed at the top of the housing 31, the rotating groove is arc-shaped, the first rotating post 421 is installed in the rotating groove and is rotationally connected to the second rotating post 313, and the first rotating post 421 is adapted to the rotating groove so that the carrier 42 rotates relative to the housing 31. In this embodiment, the number of the second rotary posts 313 is two, the two second rotary posts 313 are spaced apart, and the first rotary post 421 is embedded in the space between the two second rotary posts 313. In one example, the two second rotating posts 313 are oppositely provided with pins, two ends of the first rotating post 421 are provided with rotating holes, and the pins are rotatably connected in the rotating holes, so that the rotating connection between the carrier 42 and the casing 31 is realized, and the angle of the 3D imaging module 41 is convenient to adjust. Alternatively, the two second rotating posts 313 and the first rotating post 421 are formed with rotating holes, and a single rotating shaft is separately provided to pass through the first rotating post 421 and the second rotating post 313. The first and second rotary posts 421, 313 have damping therebetween to prevent relative rotation after the angle is adjusted.

In one embodiment, the 3D imaging module 41 includes a projection unit 411, a floodlight 412, and an imaging unit 413. The projection unit 411, the floodlight 412 and the imaging unit 413 are all installed in the carrier 42, electrically connected to the host 30, and exposed to the carrier 42. The projection unit 411 is used for emitting a structural light beam to the face of the doctor, the floodlight 412 is used for emitting a floodlight beam to the face of the doctor, the imaging unit 413 is used for collecting the structural light beam reflected back by the face of the doctor to generate a structural light image, and the depth calculation chip is used for obtaining a depth image of the face of the doctor based on the structural light image; and the imaging unit 413 is further configured to collect floodlight beams reflected by the face of the doctor person to generate an infrared image of the doctor person; the depth image and the infrared image form a 3D face image, the 3D imaging module 41 transmits the depth image and the infrared image to the host 30, the host 30 transmits the depth image and the infrared image information to the medical service cloud platform for face recognition, and the 3D imaging module 41 can improve the safety of face recognition. In other embodiments, the 3D imaging module 41 may not include a floodlight, and the 3D imaging module 41 may be a time-of-flight depth camera module, a binocular depth camera module, or the like.

In some embodiments, the 3D imaging module 41 further includes a color imaging unit 414 mounted in the carrier 42 and exposed, and electrically connected to the host 30, where the color imaging unit 414 is used to collect color images of the face of the doctor person, so as to be displayed on the screen 32 for the doctor person to watch and adjust the pose, and the color images can also be used to assist in face recognition, so as to improve accuracy.

In some embodiments, the medical service terminal further includes a distance sensor 70 mounted within the carrier 42 and exposed, electrically connected to the host 30, for measuring the distance between the attendant and the 3D imaging assembly 40 and transmitting to the host 30. The distance sensor 70 includes an emitter for emitting a detection signal to the face of the doctor, and a detector for receiving a reflection signal reflected by the face outline of the doctor, calculating a distance between the doctor and the 3D imaging module 41 based on a time difference between the detection signal and the reflection signal, so as to adjust an operation mode of the 3D imaging module 41 based on the distance, and/or judging whether the distance between the doctor and the 3D imaging module 41 is within a safe distance, if not, a prompt message can be sent out on the screen 32, reminding the doctor to move into the safe distance, so as to prevent the damage to the eyes of the doctor caused by the laser emitted by the 3D imaging module 41. In one example, the emitter is a laser emitter and the detector is a photosensor. In one embodiment, the distance sensor 70 is disposed side-by-side with the 3D imaging module 41.

Referring to fig. 3, a network module 60 is further disposed in the host 30 or the base 10, and the host 30 is networked through the network module 60 to interact with the medical service cloud platform. The host 30 is configured to receive the identity information read by the information reading module 50, communicate with the medical service cloud platform, and match and execute a corresponding medical service. The host 30 is further configured to receive the face image information acquired by the 3D imaging component and send the face image information to the healthcare cloud platform when the face of the patient is identified, and the healthcare cloud platform identifies the face image information to obtain the identity information of the patient and returns the identity information of the patient to the host 30, thereby implementing confirmation of the identity information of the patient and executing the corresponding medical service.

In one embodiment, the network module 60 includes at least one of a SIM (Subscriber Identity Module ) card slot 61, a network interface 62, and a WI-FI (wireless fidelity ) module. In the embodiment shown in fig. 3, the network module 60 includes a SIM card slot 61, a network interface 62 and a WI-FI module (not shown), where the SIM card slot 61, the network interface 62, the USB interface 63 and the WI-FI module are all connected to the host 30, and the SIM card socket 61 is disposed on the host 30, and the host 30 implements network connection through a SIM card plugged into the SIM card socket 61. The network interface 62 and the WI-FI module are both arranged on the base 10, the network interface 62 is connected with a network cable to realize networking, and the WI-FI module is connected with the WI-FI to realize networking.

In some embodiments, the base 10 or the host 30 may further be provided with a USB interface 63, where the USB interface 63 is used for connecting to a host computer (such as a computer), a USB device (such as a keyboard, a mouse), etc. A USB wireless network card may also be connected through the USB interface 63, thereby implementing networking. In some embodiments, the base 10 is further provided with an HDMI interface 12 (High Definition Multimedia Interface, high-definition multimedia interface) for connecting to a display screen.

Compared with the prior art, the medical service terminal that this application provided, base 10 is equipped with information reading module 50, and the host computer 30 top is equipped with 3D imaging module 40, when carrying out the identity registration, can obtain identity information through information reading module 50 reading certificate or two-dimensional code, also can obtain identity information through face information through the face information acquisition personnel of 3D imaging module 40, promptly, the medical service terminal of this application has multiple identity information registration mode, carries out the identity registration when making a doctor of convenience. In addition, man-machine interaction can be realized through the screen 32, and the field of view scope is adjusted through rotating the 3D imaging component 40, so that the medical service terminal can be placed on platforms with different heights, and the face collection can be carried out on the patients with different heights, so that the medical service terminal is more convenient to use.

The principle of operation at the time of identity registration of a medical service terminal is described using nucleic acid sample registration as an example. The medical staff sets a registration mode (charge mode or free mode) and an identity information registration mode (certificate registration, two-dimensional code registration, face recognition registration, etc.) through the second screen 322, and then collects the identity information of the user in a corresponding registration mode. In the charging mode, after the identity information of the doctor is successfully acquired, the host 30 judges whether the doctor opens verification-free payment; if the doctor starts verification-free payment, the host 30 is connected to the network to select the payment mode bound by the doctor for payment, and the information for confirming the payment is displayed on the first screen 321, so that the doctor confirms the payment information, and clicks a 'confirm' button on the first screen 321 for payment after confirming. If the doctor person does not open the verification-free payment, the first screen 321 displays modes such as face payment or mobile phone code scanning payment for the doctor person to select; when the doctor chooses face payment, the doctor chooses the payment mode to pay according to the 3D face image collected by the 3D imaging module 41; when the doctor chooses to pay by scanning the code, the first screen 321 displays information reminding the doctor to pay by scanning the code, and then the doctor aims at the payment code to the first code scanning module 521 to pay by scanning the code; after the payment is successful, the information of the successful payment is displayed on the first screen 321 and the second screen 322, and the doctor enters a sampling point to sample. If the payment fails, payment failure information is displayed on the first screen 321 and the second screen 322. In the free mode, after the personnel in the doctor finishes the collection of the identity information, the first screen 321 and the second screen 322 directly display the registration success, and the medical service terminal enters the registration link of the identity information of the next personnel in the doctor.

The healthcare terminal may also be used for registration of the sampling tube. Medical staff can manually input bar code information on the sampling test tube on the second screen 322, or the second through scanning code module 522 scans bar code information on the sampling test tube and inputs corresponding sampling test tube information. The medical staff can also set the sampling interval number through the second screen 322, i.e. how many people share one sampling test tube for mixed tube sampling. After the completion of the setting, the second screen 322 goes to a new sampling tube information registration interface every time the specified number of persons is reached.

The medical service terminal may also be used for medical services such as registration and settlement, and will not be described in detail herein.

The foregoing description of the preferred embodiment of the present utility model is not intended to limit the utility model to the particular form disclosed, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the utility model.

Claims (10)

1. A medical service terminal, comprising:

the base comprises a shell and an information reading module which is arranged in the shell and used for reading identity information;

a bracket mounted on the housing;

the host comprises a main board, a screen and a shell arranged on the bracket, wherein the main board is arranged in the shell and used for receiving the identity information, and the screen is arranged on the shell and used for displaying information and performing man-machine interaction;

and the 3D imaging assembly is rotatably arranged at the top of the shell and is used for acquiring a 3D face image so that the host can acquire corresponding identity information according to the 3D face image.

2. The medical services terminal of claim 1, wherein the 3D imaging assembly comprises a 3D imaging module and a carrier, the carrier rotatably mounted on top of the housing, the 3D imaging module mounted within the carrier.

3. The medical service terminal of claim 2, wherein the carrier has a first swivel post, the top of the housing has a swivel slot and a second swivel post, and the first swivel post is mounted in the swivel slot and is rotatably connected to the second swivel post.

4. The medical service terminal of claim 1, wherein the number of screens is two, each of which is disposed on opposite sides of the housing.

5. The medical service terminal according to claim 4, wherein the housing comprises a front housing and a rear housing, the front housing and the rear housing are both inclined and symmetrical with respect to the base, and the two screens are respectively provided on the front housing and the rear housing.

6. The medical service terminal of claim 1, wherein the information reading module comprises:

the certificate reading module is arranged in the shell and is used for reading identity information carried by the certificate; and/or the number of the groups of groups,

and the code scanning module is arranged in the shell and used for collecting two-dimensional codes or bar code information.

7. The medical service terminal according to claim 6, wherein the number of the code scanning modules is two, and the two code scanning modules are respectively arranged near two ends of the shell.

8. The medical service terminal according to claim 6 or 7, wherein the code scanning window of the code scanning module is obliquely arranged relative to the upper surface of the housing.

9. The medical service terminal of claim 1, wherein the bracket comprises a first strut and a second strut, the first strut being mounted on the housing, one end of the second strut being telescopically mounted within the first strut and connected to the housing.

10. The medical service terminal of claim 1, wherein the base further comprises at least one of an HDMI interface, a USB interface, and a network port; and/or, the host also comprises a clamping groove for inserting the SIM card, a loudspeaker module arranged in the shell and an indicator lamp arranged in the shell and exposed.