CN209884649U - Speech recognition kidney piercing depth - Google Patents

Abstract

The utility model relates to a speech recognition kidney piercing depth. The method comprises the following steps: the mesh-shaped spring capable of lifting up and down is connected with the plane of the bed plate, the moving device is supported up, down, left, right, front and back, and the program control circuit board with the voice recognition function. But the netted spring coupling bed board plane of oscilaltion support is the bed board plane of compriseing a plurality of netted spring coupling modules, the planar both ends of bed board that a plurality of netted spring coupling modules are constituteed are connected to on the diagnosis bed surface, netted spring coupling module comprises netted supporting shoe and connecting spring, the intensity that has the diagnosis bed with can be by the toughness of lift support, the planar structure who presents ordinary diagnosis bed when not supporting, patient can lie down, present when being supported and supported by the supported state, can use the kidney to jack up others as the target, be fit for the kidney puncture posture. The beneficial effects of the utility model are that, simple structure, it is with low costs, the operation of using the speech recognition instruction makes and is reciprocated by the support module all around, makes things convenient for the kidney puncture operation to accomplish.

Description

Speech recognition kidney piercing depth

Technical Field

The utility model relates to the field of medical equipment, in particular to speech recognition kidney piercing depth.

Background

Clinically, the renal biopsy is generally completed in a B-ultrasonic room, and a common clinical diagnostic bed is usually used when a patient performs the renal biopsy. Because the radian of the kidney puncture supporting surface can not be adjusted by the common diagnostic bed, the operation of doctors and nurses is inconvenient, and a lining plate device capable of jacking up the kidney part is needed.

In the prior art, the lining plate commonly used in the renal surgery is placed on the diagnosis bed surface, and because the patient can be distinguished by height, thinness and thinness, the device can not only be accurately moved to the position suitable for the patient, but also needs the patient to adapt to the patient himself, and the patient can not be in a comfortable supported state. The traditional operation mode of inputting the instruction by the key is easy to increase the chance of contact pollution, and a voice recognition non-contact input instruction adjusting operation mode is needed to be provided.

Disclosure of Invention

The utility model discloses a speech recognition kidney piercing depth, the welt of having solved among the prior art kidney and having worn the operation table can not be about, the accurate problem of removing the operation position that is fit for the patient that goes up and down, realized can making the patient be in a comfortable supported state, also can make the patient kidney be in the best position of kidney puncture simultaneously to accomplish the kidney and worn the operation, the operation of using the speech recognition instruction is supported the removal mode and can be reduced the contact pollution.

The utility model provides a technical scheme that its technical problem adopted is, a speech recognition kidney piercing depth, include: the mesh-shaped spring capable of lifting up and down is connected with the plane of the bed plate, the moving device is supported up, down, left, right, front and back, and the program control circuit board with the voice recognition function. But the netted spring coupling bed board plane of oscilaltion support is the bed board plane of compriseing a plurality of netted spring coupling modules, the planar both ends of bed board that a plurality of netted spring coupling modules are constituteed are connected to on the diagnosis bed surface, netted spring coupling module comprises netted supporting shoe and connecting spring, the intensity that has the diagnosis bed with can be by the toughness of lift support, the planar structure who presents ordinary diagnosis bed when not supporting, patient can lie down, present when being supported and supported by the supported state, can use the kidney to jack up others as the target, be fit for the kidney puncture posture.

The upper, lower, left, right, front and rear supporting and moving device consists of moving wheels and a lifting supporting structure which are positioned below the plane of the mesh spring connecting bed plate capable of lifting and supporting up and down, wherein the moving wheels comprise moving wheels which move forwards and backwards along the direction of the bed transfusion bracket and moving wheels which move leftwards and rightwards vertically along the direction of the bed transfusion bracket; the forward and backward moving wheels along the direction of the bed transfusion bracket are connected to the forward and backward moving frame along the direction of the bed transfusion bracket, one of the forward and backward moving wheels along the direction of the bed transfusion bracket is provided with a forward and backward stepping motor along the direction of the bed transfusion bracket, and the forward and backward stepping motor along the direction of the bed transfusion bracket is connected to a program control circuit board with a voice recognition function; the vertical left-right feeding wheel along the direction of the bed transfusion bracket is connected to the vertical left-right feeding frame along the direction of the bed transfusion bracket, the vertical left-right feeding frame along the direction of the bed transfusion bracket is positioned above the forward-backward moving frame along the direction of the bed transfusion bracket, one of the vertical left-right feeding wheels along the direction of the bed transfusion bracket is provided with a stepping motor which can vertically move left-right along the direction of the bed transfusion bracket, and the stepping motor which vertically moves left-right along the direction of the bed transfusion bracket is connected to a program control circuit board with a voice recognition function. The up-down lifting supporting device is located above a frame which vertically enters left and right along the direction of a bed infusion support, the up-down lifting supporting device is provided with a lifting stepping motor connected to a lifting gear rod, the lifting stepping motor is connected to a program control circuit board with a voice recognition function, the lifting gear rod is connected to a union, the union is connected to a buffer spring, the buffer spring is connected to a mesh spring connection supporting module, the mesh spring connection supporting module is connected to 5 supporting blocks by 5 hard springs, the supporting blocks are in smooth contact with mesh spring connection bed board planes which can be up-down lifted and supported, and the supporting blocks are lifted to drive the mesh spring connection bed board planes which can be up-down lifted and supported to be supported.

The program control circuit board with the voice recognition function is characterized in that a single chip microcomputer is used as a main control central processing unit CPU, the main control central processing unit CPU is connected with a voice recognition function module, the main control central processing unit CPU is connected with a liquid crystal display circuit, the main control central processing unit CPU is connected with a key circuit, the main control central processing unit CPU is connected with a stepping motor which moves forward and backward, the main control central processing unit CPU is connected with a stepping motor which moves vertically left and right along the direction of a bed transfusion bracket, and the main control central processing unit CPU is connected with a lifting stepping motor; the program control circuit board with the voice recognition function further comprises a power supply conversion module for converting alternating current 220V into direct current +5V and + 12V.

During operation, the microphone of the voice recognition functional module speaks forward in voice, the moving wheel moving forward and backward along the direction of the bed transfusion support performs forward movement (defined voice such as ABCD can be spoken in voice, forward movement is executed, other actions are similar), the microphone of the voice recognition functional module speaks backward in voice, and the moving wheel moving forward and backward along the direction of the bed transfusion support performs backward movement; the microphone voice of the voice recognition functional module is used for speaking left feeding, the microphone voice of the voice recognition functional module is used for speaking left feeding along the direction of the bed transfusion bracket and carrying out left feeding action, the microphone voice of the voice recognition functional module is used for speaking right feeding, and the microphone voice of the voice recognition functional module is used for speaking right feeding along the direction of the bed transfusion bracket and carrying out right feeding action; the microphone voice of the voice recognition functional module says 'rise', the lifting gear rod of the up-and-down lifting support device carries out rising action, the microphone voice of the voice recognition functional module says 'fall', and the lifting gear rod of the up-and-down lifting support device carries out falling action; the supporting block is in smooth contact with the plane of the mesh spring connecting bed plate capable of lifting up and down, so that the plane of the mesh spring connecting bed plate capable of lifting up and down is supported by the lifting of the supporting block when the supporting block drives the plane of the mesh spring connecting bed plate capable of lifting up and down to be supported.

The beneficial effects of the utility model are that, simple structure, it is with low costs, the operation of using the speech recognition instruction makes and is reciprocated by the support module all around, makes things convenient for the kidney puncture operation to accomplish.

Drawings

Fig. 1 is an overall schematic view of the present invention.

Fig. 2 is a schematic plan view of the unsupported bed plate of the present invention.

Fig. 3 is a schematic structural view of the utility model when going forward and backward, going left and right and going up and down.

Fig. 4 is a schematic structural view of the supporting bed plate of the present invention when it is supported.

Fig. 5 is a schematic structural view of the support bed plate of the present invention when there is no support.

Fig. 6 is a schematic circuit diagram of the present invention.

The notation in the figure is: 1. the bed comprises a bed transfusion support, a moving wheel which moves forwards and backwards along the direction of the bed transfusion support, 2, a stepping motor which moves forwards and backwards vertically along the direction of the bed transfusion support, 3, a lifting and descending supporting device, 4, a buffer spring, 5, a reticular spring connecting and supporting module, 6, a lifting and descending stepping motor, 7, a stepping motor which moves forwards and forwards vertically along the direction of the bed transfusion support, 8, a stepping motor which moves forwards and backwards along the direction of the bed transfusion support, 9, a supporting bulge which supports the plane of a bed plate by the reticular spring which can lift and descend vertically, 10, a liquid crystal screen, 11, a voice recognition microphone, 12, a program control circuit board, 13, a key, 14, a plane of the bed plate by the reticular spring which can lift and descend vertically, 15, a transfusion support, 16, a diagnosis bed surface, 17, a reticular supporting block, 18, a connecting spring, 19, a frame which moves forwards and backwards, 21. lifting gear pole, 22, union, 23, supporting shoe.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

With reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, and fig. 6, the present invention provides a speech recognition kidney puncture device, including: the mesh spring can be lifted up and down to connect the bed board plane 14, the upper, lower, left, right, front and back support moving device and the program control circuit board 12 with the voice recognition function. But the netted spring coupling bed board plane 14 of oscilaltion support is the bed board plane of compriseing a plurality of netted spring coupling modules, the planar both ends of bed board that a plurality of netted spring coupling modules are constituteed are connected to on the diagnosis bed face 16, netted spring coupling module comprises netted supporting shoe 17 and connecting spring 18, the intensity that has the diagnosis bed and can be supported by going up and down toughness, present the planar structure of ordinary diagnosis bed when not supporting, patient can lie on a flat, present the supported state when being supported, can use the kidney to jack up others as the target, be fit for the kidney puncture posture.

The up-down, left-right, front-back supporting and moving device consists of moving wheels and a lifting supporting structure which are positioned below a mesh spring connecting bed plate plane 14 capable of lifting up and down, wherein the moving wheels comprise forward and backward moving wheels 1 along the direction of a bed transfusion bracket and forward and backward moving wheels 2 which are vertical to the direction of the bed transfusion bracket; the forward and backward moving wheels 1 along the direction of the bed transfusion bracket are connected on a forward and backward moving frame 19 along the direction of the bed transfusion bracket, one forward and backward moving wheel 1 along the direction of the bed transfusion bracket is provided with a forward and backward stepping motor 8 along the direction of the bed transfusion bracket, and the forward and backward stepping motor 8 along the direction of the bed transfusion bracket is connected to a program control circuit board 12 with a voice recognition function; the vertical left-right feeding wheel 2 along the direction of the bed transfusion bracket is connected on a vertical left-right feeding frame 20 along the direction of the bed transfusion bracket, the vertical left-right feeding frame 20 along the direction of the bed transfusion bracket is positioned above a forward-backward moving frame 19 along the direction of the bed transfusion bracket, one of the vertical left-right feeding wheel 2 along the direction of the bed transfusion bracket is provided with a stepping motor 7 which can vertically move left-right along the direction of the bed transfusion bracket, and the stepping motor 7 which vertically moves left-right along the direction of the bed transfusion bracket is connected to a program control circuit board 12 with a voice recognition function. The up-down lifting supporting device 3 is positioned above a left-right entering frame 20 vertically along the direction of a bed infusion support, the up-down lifting supporting device 3 is provided with a lifting stepping motor 6 connected to a lifting gear rod 21, the lifting stepping motor 6 is connected to a program control circuit board 12 with a voice recognition function, the lifting gear rod 21 is connected to a union 22, the union 22 is connected to a buffer spring 4, the buffer spring 4 is connected to a net-shaped spring connection supporting module 5, the net-shaped spring connection supporting module 5 is connected to 5 supporting blocks 23 through 5 hard springs, the supporting blocks 23 are in smooth contact with a net-shaped spring connection bed board plane 14 capable of being lifted up and down, and the lifting of the supporting blocks 23 drives the net-shaped spring connection bed board plane 14 capable of being lifted up and down to be in a.

The program control circuit board 12 with the voice recognition function is formed by a single chip microcomputer serving as a main control central processing unit CPU (U1: STC12C5A60 AD), the main control central processing unit CPU (U1: STC12C5A60 AD) is connected with a voice recognition function module (U2: voice recognition module REC-V2), the main control central processing unit CPU (U1: STC12C5A60 AD) is connected with a liquid crystal screen 10 (U8: DMT80480C07 serial liquid crystal screen) display circuit, the main control central processing unit CPU (U1: STC12C5A60 AD) is connected with keys 13 (S1, S2 and S3) circuits, the main control central processing unit CPU (U1: STC12C5A60 AD) is connected with a stepping motor (M2) 8 moving forwards and backwards, the main control central processing unit CPU (U1: STC12C5A60 AD) is connected with a stepping motor (M2) 8) moving forwards and backwards, and forwards and backwards, the main control central processing unit CPU (U1: STC12C5A AD) is connected with a stepping motor 367) and a stepping motor 36; the program-controlled circuit board 12 with the voice recognition function further comprises a power supply conversion module (U9) for converting alternating current 220V into direct current +5V and + 12V.

Claims (4)

1. The utility model provides a speech recognition kidney piercing depth which characterized in that: comprises a program control circuit board which can lift up and down and support a reticular spring to connect the plane of the bed board, and can support the moving device up, down, left, right, front and back and has a voice recognition function; the plane of the mesh spring connecting bed board capable of lifting up and down and supporting consists of a mesh supporting block and a connecting spring; the up-down, left-right, front-back supporting and moving device consists of a moving wheel and a lifting supporting structure which can lift up and down and support the net-shaped spring to be connected with the lower part of the plane of the bed plate; the program control circuit board with the voice recognition function is characterized in that a single chip microcomputer serves as a main control central processing unit CPU, the main control central processing unit CPU is connected with a stepping motor which moves forwards and backwards, the main control central processing unit CPU is connected with a stepping motor which moves leftwards and rightwards vertically along the direction of a bed infusion support, and the main control central processing unit CPU is connected with a lifting stepping motor.

2. The speech recognition kidney puncture device of claim 1, wherein: but the netted spring coupling bed board plane of oscilaltion support is the bed board plane of compriseing a plurality of netted spring coupling modules, and the planar both ends of bed board that a plurality of netted spring coupling modules are constituteed are connected to on the diagnosis bed surface, have the intensity of diagnosis bed and can be by the toughness of lift support, present the planar structure of ordinary diagnosis bed when not supporting, and patient can lie down, presents when being supported by the support state, can use the kidney to jack up as the target others, is fit for the kidney puncture posture.

3. The speech recognition kidney puncture device of claim 1, wherein: the moving wheels comprise moving wheels which move forwards and backwards along the direction of the bed transfusion bracket and moving wheels which move leftwards and rightwards vertically along the direction of the bed transfusion bracket; the forward and backward moving wheels along the direction of the bed transfusion bracket are connected to the forward and backward moving frame along the direction of the bed transfusion bracket, one of the forward and backward moving wheels along the direction of the bed transfusion bracket is provided with a forward and backward stepping motor along the direction of the bed transfusion bracket, and the forward and backward stepping motor along the direction of the bed transfusion bracket is connected to a program control circuit board with a voice recognition function; the vertical left-right feeding wheel along the direction of the bed transfusion bracket is connected to the vertical left-right feeding frame along the direction of the bed transfusion bracket, the vertical left-right feeding frame along the direction of the bed transfusion bracket is positioned above the forward-backward moving frame along the direction of the bed transfusion bracket, one of the vertical left-right feeding wheels along the direction of the bed transfusion bracket is provided with a stepping motor which can vertically move left-right along the direction of the bed transfusion bracket, and the stepping motor which vertically moves left-right along the direction of the bed transfusion bracket is connected to a program control circuit board with a voice recognition function.

4. The speech recognition kidney puncture device of claim 1, wherein: the program control circuit board with the voice recognition function is characterized in that a main control Central Processing Unit (CPU) is connected with a voice recognition function module, the main control Central Processing Unit (CPU) is connected with a liquid crystal display circuit, the main control Central Processing Unit (CPU) is connected with a key circuit, and the program control circuit board with the voice recognition function further comprises a power supply conversion module for converting alternating current 220V into direct current +5V and + 12V.

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