CN211406134U - Portable amniotic membrane mirror equipment assembly for wireless signal transmission - Google Patents

Abstract

A wireless signal transmission portable amniocentoscope equipment component comprises a display equipment component and an image acquisition equipment component; the display equipment assembly is in signal transmission connection with the image acquisition equipment assembly; the main body of the display equipment assembly comprises a first connecting part and a second connecting part which are integrally arranged and are in an angle shape, and further comprises a display screen; the connecting part of the first connecting part and the second connecting part is provided with a fillet; the printing component and the printing paper bin are arranged in the second connecting part, and a paper outlet for the printing component, an access hole for the printing component, a printing component indicator light and a printing paper bin opening button are arranged on the second connecting part; a control system is arranged in the second connecting part; the image acquisition equipment assembly comprises a handheld component, a catheter assembly, an LED lamp and a first camera assembly; a control panel is arranged on the handheld part, and a plurality of control keys are arranged on the control panel. The utility model has multiple functions, realizes intelligent control, is convenient to use, and has clear and continuous image acquisition; the whole equipment is beautiful and occupies small space.

Description

Portable amniotic membrane mirror equipment assembly for wireless signal transmission

Technical Field

The utility model relates to a amniocentoscope equipment field especially relates to a portable amniocentoscope equipment subassembly of wireless signal transmission.

Background

The wireless signal transmission portable amniocentoscope equipment component is used as medical equipment and has important use value.

Under the disinfection condition, a doctor directly peeks the amniotic fluid characters in the amniotic cavity of the pregnant woman through the wireless signal transmission portable amniocentoscope equipment component so as to judge the intrauterine condition of the fetus.

However, the existing portable amniocentoscope equipment assembly for wireless signal transmission has single function and inconvenient use, and brings much trouble to users.

SUMMERY OF THE UTILITY MODEL

Objects of the invention

In order to solve the technical problems existing in the background technology, the utility model provides a portable amniocentoscope equipment component for wireless signal transmission, which has multiple functions, realizes intelligent control, is convenient to use and has clear and continuous image acquisition; the whole equipment is beautiful and occupies small space.

(II) technical scheme

In order to solve the problems, the utility model provides a portable amniocentoscope device assembly for wireless signal transmission, which comprises a display device assembly and an image acquisition device assembly; the display equipment assembly is in signal transmission connection with the image acquisition equipment assembly;

the main body of the display equipment assembly comprises a first connecting part and a second connecting part which are integrally arranged and are in an angle shape, and further comprises a display screen; the connecting part of the first connecting part and the second connecting part is provided with a fillet;

horn components are arranged on two sides of the upper end of the first connecting part; the front side of the first connecting part is provided with an auxiliary display screen, an NFC card reader and a second camera component for scanning codes; the top of the first connecting part is rotatably provided with a connecting piece, and the display screen is arranged on the connecting piece; the printing component and the printing paper bin are arranged in the second connecting part, and a paper outlet for the printing component, an access hole for the printing component, a printing component indicator light and a printing paper bin opening button are arranged on the second connecting part; the side part of the second connecting part is provided with a first control key for feeding paper to the printing component, a second control key for controlling the opening and closing of a cover plate of the printing paper bin, and a data transmission interface for data transmission connection with the printing component; the second connecting part is also provided with a power switch button for controlling the display screen, the printing component, the auxiliary display screen, the NFC card reader and the second camera component; a control system is arranged in the second connecting part;

the image acquisition equipment assembly comprises a handheld component, a catheter assembly, an LED lamp and a first camera assembly; a circuit digital signal processing module and an infinite transmitting module are arranged in the handheld part; one end of the catheter assembly is arranged on the handheld part; the first camera assembly is arranged inside the catheter assembly;

the catheter assembly comprises an outer catheter and an inner catheter; the inner catheter is arranged inside the outer catheter, and the controller, the WIFI module and the WIFI antenna assembly are arranged inside the inner catheter; the WIFI module is in control connection with the controller and is in data signal transmission connection with the display equipment assembly through the WIFI antenna assembly;

the LED lamp and the first camera assembly are arranged at the opening of the end part of the inner catheter and are in control connection with the controller;

the handheld component is provided with a control panel, the control panel is provided with a control key for controlling a power switch of the first camera assembly, a key for controlling the first camera assembly to photograph and record images, and a key for controlling the LED lamp to be turned on and turned off.

Preferably, the first camera assembly comprises a cylindrical shell, and a protective cover is arranged at an opening of the shell; by inside the safety cover shell, inside lens, waterproof component, the lens group of setting gradually of shell, focus motor, infrared ray light filter and influence the sensor.

Preferably, an included angle between the first connecting portion and the second connecting portion is an acute angle.

Preferably, the first connecting part and the second connecting part are connected with the round corner and provided with an arc-shaped LED breathing lamp.

Preferably, the image acquisition device assembly is internally provided with a storage battery pack, and the bottom of the image acquisition device assembly is provided with a charging interface for charging the storage battery pack.

Preferably, the LED lamp is a cold light lamp.

Preferably, the outer side of the lower part of the hand-held part is provided with an anti-slip handle.

Preferably, the first connecting portion is provided with a plurality of USB connecting ports and SD card slots.

Preferably, a focusing module for adjusting the first camera assembly is arranged on the second connecting part.

The above technical scheme of the utility model has following profitable technological effect: the utility model discloses in, the main part of display device subassembly sets up and is "angle" first connecting portion and the second connecting portion that appear including the integration, and first connecting portion set up with second connecting portion junction radius angle, and the display device subassembly is whole pleasing to the eye, and occupation space is little. The display screen is used for displaying images acquired by the image acquisition equipment assembly and the view screen, so that the pregnant woman can observe the images conveniently. The printing assembly can print the collected images so as to be archived and compared for multiple times. The inside control system that is equipped with of second connecting portion, through the switch of control system control display screen, printing component, supplementary display screen, NFC card reader and second camera subassembly, practical convenient and fast. Simultaneously, first connecting portion openly sets up auxiliary display screen, NFC card reader and is used for sweeping the second camera subassembly of sign indicating number, and the NFC card reader can read the card of being in hospital or diagnose the information of card, sweeps the camera of sign indicating number and can be used to the reading that contains bar code and two-dimensional code data, and is more swift, convenient in the use.

In the utility model, the image acquisition equipment component comprises a hand-held component, a conduit component, an LED lamp and a first camera component; the handheld component is provided with the control panel, and the working state of each component is controlled through the control panel, so that the operation is simple; wherein, the inside circuit digital signal processing module and the unlimited transmission module of setting up of handheld part to and WIFI module and controller control connection, in operation, handheld part is connected through unlimited transmission module, WIFI antenna module and display device subassembly data signal transmission, in order to show the figure of gathering and look the screen on the display screen, observes image acquisition developments in real time, convenient to use.

Drawings

Fig. 1 is the utility model provides a display device subassembly one side's schematic structure among the portable amniotic membrane mirror equipment unit of wireless signal transmission.

Fig. 2 is the utility model provides a structural schematic diagram of display device subassembly opposite side among the portable amniotic membrane mirror equipment unit of wireless signal transmission.

Fig. 3 is the utility model provides a display device assembly's positive structure schematic diagram among the portable amniotic membrane mirror equipment unit of wireless signal transmission.

Fig. 4 is the utility model provides a structural schematic diagram of image acquisition equipment subassembly among the portable amniotic membrane mirror equipment subassembly of wireless signal transmission.

Fig. 5 is a schematic structural diagram of a catheter assembly in the wireless signal transmission portable amniocentoscope equipment component provided by the utility model.

Fig. 6 is the utility model provides a partial structure schematic diagram of first camera subassembly in the portable amniotic membrane mirror equipment subassembly of wireless signal transmission.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings. It should be understood that the description is intended to be illustrative only and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

As shown in fig. 1-6, the utility model provides a portable amniocentoscope device assembly for wireless signal transmission, which comprises a display device assembly 1 and an image acquisition device assembly 2; the display device assembly 1 is in signal transmission connection with the image acquisition device assembly 2;

the main body of the display equipment assembly 1 comprises a first connecting part 101 and a second connecting part 102 which are integrally arranged and are in a shape of 'angle', and further comprises a display screen 11; the joint of the first connecting part 101 and the second connecting part 102 is rounded;

the horn assemblies 12 are arranged on two sides of the upper end of the first connecting part 101; the front surface of the first connecting part 101 is provided with an auxiliary display screen 27, an NFC card reader 18 and a second camera component 19 for scanning codes; the top of the first connecting part 101 is rotatably provided with a connecting part 17, and the display screen 11 is arranged on the connecting part 17; the second connecting part 102 is internally provided with a printing component and a printing paper bin 24, and the second connecting part 102 is provided with a paper outlet 25 for the printing component, an access hole 26 for the printing component, a printing component indicator lamp 23 and a printing paper bin opening button 22; the side of the second connecting part 102 is provided with a first control key 13 for feeding paper to the printing component, a second control key 15 for controlling the opening and closing of the cover plate of the printing paper bin 24, and a data transmission interface 16 for data transmission connection with the printing component; the second connecting part 102 is also provided with a power switch button for controlling the display screen 11, the printing component, the auxiliary display screen 27, the NFC card reader 18 and the second camera component 19; a control system is arranged in the second connecting part 102;

the image acquisition equipment assembly 2 comprises a handheld part 201, a conduit assembly 4, an LED lamp 43 and a first camera assembly 5; a circuit digital signal processing module and an infinite transmitting module are arranged in the handheld part 201; one end of the catheter assembly 4 is disposed on the hand-held part 201; the first camera assembly 5 is disposed inside the duct assembly 4;

the catheter assembly 4 includes an outer catheter 41 and an inner catheter 42; the inner catheter 42 is arranged inside the outer catheter 41, and the controller 45, the WIFI module 46 and the WIFI antenna assembly 47 are arranged inside the inner catheter 42; the WIFI module 46 is in control connection with the controller 45, and the WIFI module 46 is in data signal transmission connection with the display device assembly 1 through a WIFI antenna assembly 47;

the LED lamp 43 and the first camera assembly 5 are arranged at an opening at the end part of the inner guide pipe 42, and the LED lamp 43 and the first camera assembly 5 are in control connection with the controller 45;

the handheld part 201 is provided with a control panel 6, and the control panel 6 is provided with a control key for controlling a power switch of the first camera assembly 5, a key for controlling the first camera assembly 5 to take pictures and record videos, and a key for controlling the LED lamp 43 to be turned on and off.

In an alternative embodiment, the angle between the first connection portion 101 and the second connection portion 102 is acute. The arc-shaped LED breathing lamp 20 is arranged at the position of a connecting fillet of the first connecting part 101 and the second connecting part 102; make the equipment whole more pleasing to the eye, improve use comfort.

The utility model discloses in, display device subassembly 1's main part sets up and is "angle" first connecting portion 101 and second connecting portion 102 that appear including the integration, and first connecting portion 101 sets up with second connecting portion 102 junction radius angle, and display device subassembly 1 is whole pleasing to the eye, and occupation space is little. The display screen 11 is used for displaying the image collected by the image collecting device assembly 2 and the view screen, so that the pregnant woman can observe the image conveniently. The printing assembly can print the collected images so as to be archived and compared for multiple times. The control system is arranged in the second connecting part 102, and controls the power switches of the display screen 11, the printing component, the auxiliary display screen 27, the NFC card reader 18 and the second camera component 19 through the control system, so that the multifunctional mobile phone is practical, convenient and fast. Meanwhile, the front surface of the first connecting part 101 is provided with the auxiliary display screen 27, the NFC card reader 18 and the second camera component 19 for scanning codes, the NFC card reader can read information of the hospitalized card or the diagnosis and treatment card, and the camera for scanning the codes can be used for reading data containing bar codes and two-dimensional codes, so that the use is more rapid and convenient.

In the utility model, the display screen 11 has a photo printing function, and the printing paper bin 24 is a special paper bin for photos; the auxiliary display screen 27 is convenient for others to watch the collected pictures together, and is convenient for teaching and evidence collection. The middle part of the display screen 11 is an amnion mirror image system, and an EPROM memory is arranged in the display screen 11. The NFC card reader 18 is convenient for reading information of the hospital information card, and the second camera assembly 19 is convenient for reading two-dimensional code information and barcode information.

In the present invention, the image capturing device assembly 2 includes a hand-held component 201, a catheter assembly 4, an LED lamp 43, and a first camera assembly 5; the control panel 6 is arranged on the handheld part 201, and the working states of all parts are controlled through the control panel 6, so that the operation is simple; wherein, the inside circuit digital signal processing module and the unlimited transmission module of setting up of handheld part 201 to and WIFI module 46 and controller 45 control connection, in operation, handheld part 201 is connected with display device subassembly 1 data signal transmission through unlimited transmission module, WIFI antenna module to the figure and the look screen that will gather show on display screen 11, observe image acquisition developments in real time, convenient to use.

In an alternative embodiment, the first camera assembly 5 includes a cylindrical housing 58, and the protective cover 51 is disposed at an opening of the housing 58; the lens 52, the waterproof component 53, the lens group 54, the focusing motor 55, the infrared filter 56 and the influence sensor 57 are sequentially arranged in the protective cover 51 and the shell 58.

It should be noted that the first camera assembly 5 has a precise structure, a good collecting effect, clear and continuous images and a video screen, and improves the use comfort.

In an optional embodiment, the image acquisition device assembly 2 is internally provided with a storage battery pack, and the bottom of the storage battery pack is provided with a charging interface 9 for charging the storage battery pack, so that the traditional power line device is avoided, the powerless work is realized, and the use is more flexible.

In an optional embodiment, the LED lamp 43 is a cold light lamp, which has a good use effect and avoids injury to the pregnant woman.

In an alternative embodiment, the anti-slip handle 7 is arranged on the outer side of the lower part of the handheld part 201, so that a doctor can grasp the anti-slip handle more comfortably and does not slip easily, and the use safety of the equipment is ensured.

In an optional embodiment, the second connecting portion 102 is provided with a focusing module 8 for adjusting the first camera assembly 5, so that the first camera assembly 5 can be adjusted more conveniently, and image collection is ensured to be clear.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims (9)

1. A wireless signal transmission portable amnioscope device assembly is characterized by comprising a display device assembly (1) and an image acquisition device assembly (2); the display equipment assembly (1) is in signal transmission connection with the image acquisition equipment assembly (2);

the main body of the display equipment assembly (1) comprises a first connecting part (101) and a second connecting part (102) which are integrally arranged and are in a 'angle' shape, and further comprises a display screen (11); the joint of the first connecting part (101) and the second connecting part (102) is rounded;

the two sides of the upper end of the first connecting part (101) are provided with horn components (12); an auxiliary display screen (27), an NFC card reader (18) and a second camera component (19) for scanning codes are arranged on the front surface of the first connecting part (101); the top of the first connecting part (101) is rotatably provided with a connecting part (17), and the display screen (11) is arranged on the connecting part (17); a printing component and a printing paper bin (24) are arranged in the second connecting part (102), and a paper outlet (25) for the printing component, an access hole (26) for the printing component, a printing component indicator lamp (23) and a printing paper bin opening button (22) are arranged on the second connecting part (102); a first control key (13) for feeding paper to the printing component, a second control key (15) for controlling the opening and closing of a cover plate of the printing paper bin (24) and a data transmission interface (16) for data transmission connection with the printing component are arranged on the side part of the second connecting part (102); the second connecting part (102) is also provided with a power switch button for controlling the display screen (11), the printing component, the auxiliary display screen (27), the NFC card reader (18) and the second camera component (19); a control system is arranged in the second connecting part (102);

the image acquisition equipment assembly (2) comprises a handheld component (201), a catheter assembly (4), an LED lamp (43) and a first camera assembly (5); a circuit digital signal processing module and an infinite transmitting module are arranged in the handheld part (201); one end of the catheter assembly (4) is arranged on the handheld part (201); the first camera assembly (5) is arranged inside the catheter assembly (4);

the catheter assembly (4) comprises an outer catheter (41) and an inner catheter (42); the inner catheter (42) is arranged inside the outer catheter (41), and the controller (45), the WIFI module (46) and the WIFI antenna assembly (47) are arranged inside the inner catheter (42); the WIFI module (46) is in control connection with the controller (45), and the WIFI module (46) is in data signal transmission connection with the display equipment assembly (1) through a WIFI antenna assembly (47);

the LED lamp (43) and the first camera assembly (5) are arranged at an opening at the end part of the inner guide pipe (42), and the LED lamp (43) and the first camera assembly (5) are in control connection with the controller (45);

the handheld part (201) is provided with a control panel (6), the control panel (6) is provided with a control key for controlling a power switch of the first camera assembly (5), a key for controlling the first camera assembly (5) to photograph and record, and a key for controlling the LED lamp (43) to be turned on and turned off.

2. The wireless signal transmission portable amniocentoscopy device assembly as claimed in claim 1, wherein the first camera assembly (5) comprises a cylindrical housing (58), and a protective cover (51) is arranged at an opening of the housing (58); by inside safety cover (51) shell (58), inside lens (52), waterproof component (53), lens group (54), focus motor (55), infrared filter (56) and influence sensor (57) set gradually of shell (58).

3. The wireless signal transmission portable amniocentoscopy apparatus assembly as claimed in claim 1, wherein the angle between the first connection portion (101) and the second connection portion (102) is acute.

4. The wireless signal transmission portable amniocentoscopy device assembly according to claim 1, wherein the first connecting portion (101) and the second connecting portion (102) are provided with arc-shaped LED breathing lamps (20) at the connection fillet positions.

5. The wireless signal transmission portable amniocentoscope device assembly according to claim 1, wherein the image acquisition device assembly (2) is internally provided with a storage battery, and the bottom of the image acquisition device assembly is provided with a charging interface (9) for charging the storage battery.

6. The wireless signal transmission portable amniocentoscopy apparatus assembly as defined in claim 1, wherein the LED light (43) is a cold light.

7. The wireless signal transmission portable amniocentoscopy device assembly as claimed in claim 1, wherein the outer side of the lower part of the hand-held part (201) is provided with an anti-slip handle (7).

8. The wireless signal transmission portable amniocentoscopy device assembly as claimed in claim 1, wherein the first connection portion (101) is provided with a plurality of USB connection ports (21) and SD card slots.

9. The wireless signal transmission portable amniocentoscope device assembly according to claim 1, wherein the second connecting part (102) is provided with a focusing module (8) for adjusting the first camera assembly (5).

Images