CN111939449A - Biological sensor - Google Patents

Abstract

The invention discloses a biosensor, which comprises a sensor shell, wherein a working cavity is arranged in the sensor shell, a wound cleaning component is arranged in the working cavity, the wound cleaning component comprises a sliding support which is arranged on the inner wall of the right side of the working cavity and can slide back and forth, a linkage support plate which is fixedly arranged at the left end of the sliding support, a fixed clamping block which is fixedly arranged at the left end of the linkage support plate, and a supporting connecting rod which is fixedly arranged at the left end of the fixed clamping block, the biosensor can control a motor to start and enable a clamped cotton swab to move backwards when an injured arm of a patient extends into the working cavity through an arm extending hole, the backwards moving cotton swab wipes the injured arm to automatically sterilize and wipe the arm, the whole process is carried out in a closed dustless environment, the wound is prevented from secondary infection due to a severe environment, and the wiping return stroke can be finished, realize the change of cotton swab, make things convenient for next use.

Description

Biological sensor

Technical Field

The invention relates to the field of biosensors, in particular to a biosensor.

Background

When the wounded patient of arm need carry out arm wound disinfection, sometimes because only wounded alone, be difficult to oneself carry out iodine tincture disinfection on the wound, inconvenient cotton swab is taken, operation such as wound is wiped, and the environment that sometimes the patient was located is relatively poor moreover, and the adverse circumstances makes the wound cause secondary infection easily. The present invention sets forth a device that solves the above problems.

Disclosure of Invention

The invention aims to provide a biosensor, which overcomes the defects of inconvenience in disinfection of a wounded person, poor disinfection environment and the like.

The invention is realized by the following technical scheme.

The invention relates to a biosensor, which comprises a sensor shell, wherein a working cavity is arranged in the sensor shell, a wound cleaning assembly is arranged in the working cavity, the wound cleaning assembly comprises a sliding support which is arranged on the inner wall of the right side of the working cavity and can slide back and forth, a linkage support plate which is fixedly arranged at the left end of the sliding support, a fixed clamping block which is fixedly arranged at the left end of the linkage support plate, a support connecting rod which is fixedly arranged at the left end of the fixed clamping block, a main clamping block which is arranged at the left end of the linkage support plate and is positioned at the front side of the fixed clamping block, a fixed connecting rod which is fixedly arranged at the left end of the main clamping block, two auxiliary clamping blocks which are fixedly arranged at the left end of the support connecting rod and the left end of the fixed connecting rod, and swabs which can be clamped by the auxiliary clamping blocks at the front side and the back side and the main clamping block and the fixed clamping block, the cotton swab replacement assembly comprises a cotton swab support arranged on the inner wall of the front side of the working cavity and capable of sliding up and down, and is uniformly fixed on the cotton swab support at the rear end of the cotton swab support from top to bottom.

Preferably, a motor is fixedly arranged on the inner wall of the rear side of the working cavity, and a first transmission shaft extending forwards to the inner wall of the front side of the working cavity is in power connection with the front end of the motor.

Preferably, the inner wall of the rear side of the working cavity is provided with an arm extending through hole communicated with the outside, the inner wall of the rear side of the working cavity is fixedly provided with an arm supporting plate which is positioned at the lower side of the arm extending into the through hole and extends forwards, and the inner wall of the upper side of the working cavity is fixedly provided with a biosensor.

Wherein, the wound cleaning component also comprises an internal thread block fixedly arranged at the upper end of the linkage support plate, the internal thread part of the internal thread block is in threaded connection with the thread part on the first transmission shaft, a reset spring is connected between the fixed clamping block and the main clamping block, a linkage slide block which can slide back and forth and is fixedly connected with the upper end of the main clamping block is arranged at the left end of the linkage support plate, a second transmission shaft which is positioned at the upper side of the linkage slide block and extends left and right is rotatably connected with the linkage support plate, a first one-way bearing which can only perform one-way transmission is fixedly arranged on the second transmission shaft positioned at the left side of the linkage support plate, a friction wheel which is in friction connection with the upper end of the linkage slide block is fixedly arranged on the outer surface of the first one-way bearing, a first bevel gear is fixedly arranged on the second transmission shaft positioned at the right side of the linkage support, the upper end of the horizontal support is fixedly provided with a vertical support, the vertical support is rotatably connected with a third transmission shaft which extends forwards and backwards, a second bevel gear which is meshed with the first bevel gear is fixedly arranged on the third transmission shaft which is positioned on the front side of the vertical support, a first belt wheel is fixedly arranged on the first transmission shaft, a fourth transmission shaft which extends forwards to the inner wall of the front side of the working cavity and is connected with the third transmission shaft through splines is fixedly arranged on the inner wall of the rear side of the working cavity, a second belt wheel is fixedly arranged on the fourth transmission shaft, and a connecting belt is connected between the second belt wheel and the first belt wheel.

Wherein the cotton swab replacing component also comprises a fixed rack which is fixedly arranged at the front end of the linkage support plate, the inner wall of the right side of the working cavity is rotatably connected with a fifth transmission shaft which extends leftwards, a second one-way bearing which can only perform one-way transmission is fixedly arranged on the fifth transmission shaft, a first gear which can be meshed and connected with a toothed part at the lower end of the linkage slide block is fixedly arranged on the outer surface of the first gear, the inner wall of the front side of the working cavity is rotatably connected with a sixth transmission shaft, a second gear which is meshed and connected with a toothed part at the right end of the cotton swab support is fixedly arranged on the sixth transmission shaft, a third belt wheel which is positioned at the front side of the second gear is fixedly arranged on the sixth transmission shaft, a seventh transmission shaft which is positioned at the right side of the sixth transmission shaft is rotatably connected with the inner wall of the rear side of the working cavity, a fourth belt wheel is fixedly arranged on, the seventh transmission shaft is fixedly provided with a third bevel gear which is positioned on the front side of the fourth belt wheel, the inner wall of the right side of the working cavity is fixedly provided with a rotating shaft support, the rotating shaft support is rotatably connected with an eighth transmission shaft which extends up and down, the eighth transmission shaft which is positioned on the lower side of the rotating shaft support is fixedly provided with a fourth bevel gear which is meshed with the third bevel gear, the eighth transmission shaft which is positioned on the upper side of the rotating shaft support is fixedly provided with a fifth bevel gear, and the fifth transmission shaft is fixedly provided with a sixth bevel gear which is positioned on the right side of the second one-way bearing and is meshed with the fifth bevel gear.

The invention has the beneficial effects that: according to the invention, when an injured arm of a patient enters the working cavity through the arm extending into the through hole, the biosensor controls the motor to be started and enables the clamped cotton swab to move backwards, the cotton swab moving backwards wipes the injured arm, so that the arm is automatically disinfected and wiped, the whole process is carried out in a closed dust-free environment, the wound is prevented from being infected secondarily due to a severe environment, the cotton swab can be replaced in the return stroke after wiping is finished, and the next use is facilitated.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic view of the structure in the direction "A-A" of FIG. 1;

FIG. 3 is a schematic view of the structure in the direction "B-B" of FIG. 1;

FIG. 4 is a schematic enlarged view of the structure of "C" of FIG. 1;

fig. 5 is a schematic enlarged view of the structure of "D" of fig. 3.

Detailed Description

The invention will now be described in detail with reference to fig. 1-5, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The biosensor described with reference to fig. 1-5 includes a sensor housing 11, a working chamber 12 is provided in the sensor housing 11, a wound cleansing assembly 901 is provided in the working chamber 12, the wound cleansing assembly 901 includes a sliding support 62 which is provided on the inner wall of the right side of the working chamber 12 and can slide back and forth, a linking support plate 30 which is fixedly provided at the left end of the sliding support 62, a fixed clamping block 42 which is fixedly provided at the left end of the linking support plate 30, a supporting link 41 which is fixedly provided at the left end of the fixed clamping block 42, a main clamping block 39 which is provided at the left end of the linking support plate 30 and is located at the front side of the fixed clamping block 42, a fixed link 40 which is fixedly provided at the left end of the main clamping block 39, two sub clamping blocks 63 which are fixedly provided at the left end of the supporting link 41 and the left end of the fixed link 40, and a cotton swab 16 which can be clamped by the sub clamping blocks 63 at the front and back sides, the main clamping block 39 and, through reducing the distance between the fixed clamping block 42 and the main clamping block 39, the cotton swab 16 is clamped, and when the sliding support 62 moves backwards, the arm of a patient is disinfected, a cotton swab replacing component 902 is further arranged in the working chamber 12, the cotton swab replacing component 902 comprises a cotton swab support 15 which is arranged on the inner wall of the front side of the working chamber 12 and can slide up and down, a matching support 61 which is uniformly fixed at the rear end of the cotton swab support 15 from top to bottom, a fixed support 56 which is fixedly arranged at the upper end of the matching support 61, a cotton swab groove 55 which is arranged at the rear end of the fixed support 56, a limiting groove 59 which is arranged in the matching support 61 and communicated with the working chamber 12, a limiting block 60 which is fixedly arranged on the inner wall of the lower side of the limiting groove 59, a hinged plate 58 which is hinged at the front end of the limiting block 60, and a connecting spring 54 which is connected between the hinged plate 58 and the inner wall of the front side of the, the connecting spring 54 ensures that the swab 16 is held between the hinge plate 58 and the swab slot 55.

Advantageously, a motor 27 is fixedly arranged on the inner wall of the rear side of the working chamber 12, a first transmission shaft 28 extending forwards to the inner wall of the front side of the working chamber 12 is connected to the front end of the motor 27 in a power connection manner, and the first transmission shaft 28 can transmit the power of the motor 27.

Beneficially, an arm extending through hole 13 communicated with the outside is arranged on the inner wall of the rear side of the working cavity 12, an arm supporting plate 14 which is located on the lower side of the arm extending through hole 13 and extends forwards is fixedly arranged on the inner wall of the rear side of the working cavity 12, an arm of a wounded person can enter the working cavity 12 through the arm extending through hole 13 and is placed at the upper end of the arm supporting plate 14, and a biosensor 26 which can detect a wound and control the motor 27 to work is fixedly arranged on the inner wall of the upper side of the working cavity 12.

According to the embodiment, the wound cleansing assembly 901 will be described in detail below, the wound cleansing assembly 901 further includes an internal thread block 32 fixedly disposed at the upper end of the linkage support plate 30, and the internal thread portion of the internal thread block 32 is in threaded connection with the threaded portion of the first transmission shaft 28, a return spring 43 is connected between the fixed clamping block 42 and the main clamping block 39, a linkage slider 47 capable of sliding back and forth and fixedly connected with the upper end of the main clamping block 39 is disposed at the left end of the linkage support plate 30, a second transmission shaft 33 extending left and right above the linkage slider 47 is rotatably connected to the linkage support plate 30, a first one-way bearing 31 capable of performing only one-way transmission is fixedly disposed on the second transmission shaft 33 at the left side of the linkage support plate 30, a friction wheel 34 frictionally connected with the upper end of the linkage slider 47 is fixedly disposed on the outer surface of the first one-way bearing 31, a first bevel gear 48 is fixedly arranged on the second transmission shaft 33 positioned on the right side of the linkage support plate 30, a horizontal bracket 53 is fixedly arranged on the linkage support plate 30, a vertical bracket 52 is fixedly arranged at the upper end of the horizontal bracket 53, a third transmission shaft 50 extending forwards and backwards is rotatably connected to the vertical bracket 52, a second bevel gear 49 meshed with the first bevel gear 48 is fixedly arranged on the third transmission shaft 50 positioned on the front side of the vertical bracket 52, a first belt pulley 29 is fixedly arranged on the first transmission shaft 28, a fourth transmission shaft 45 extending forwards to the inner wall of the front side of the working chamber 12 and connected with the third transmission shaft 50 through a spline is fixedly arranged on the inner wall of the rear side of the working chamber 12, a second belt pulley 44 is fixedly arranged on the fourth transmission shaft 45, and a connecting belt 46 is connected between the second belt pulley 44 and the first belt pulley 29.

According to the embodiment, the cotton swab replacing assembly 902 will be described in detail below, the cotton swab replacing assembly 902 further includes a fixed rack 35 fixed to the front end of the linkage support plate 30, the right inner wall of the working chamber 12 is rotatably connected to a fifth transmission shaft 25 extending leftward, the fifth transmission shaft 25 is fixedly provided with a second one-way bearing 37 capable of performing only one-way transmission, the first gear 36 is fixedly provided on the outer surface of the first gear 36 and is capable of engaging with the toothed portion of the lower end of the linkage slider 47, the front inner wall of the working chamber 12 is rotatably connected to a sixth transmission shaft 18, the sixth transmission shaft 18 is fixedly provided with a second gear 19 engaging with the toothed portion of the right end of the cotton swab holder 15, the sixth transmission shaft 18 is fixedly provided with a third pulley 17 located in front of the second gear 19, the rear inner wall of the working chamber 12 is rotatably connected to a seventh transmission shaft 20 located on the right side of the sixth transmission shaft 18, a fourth belt wheel 57 is fixedly arranged on the seventh transmission shaft 20, a transmission belt 64 is connected between the fourth belt wheel 57 and the third belt wheel 17, a third bevel gear 21 positioned in front of the fourth belt wheel 57 is fixedly arranged on the seventh transmission shaft 20, a rotating shaft support 23 is fixedly arranged on the inner wall of the right side of the working cavity 12, an eighth transmission shaft 24 extending up and down is rotatably connected to the rotating shaft support 23, a fourth bevel gear 22 engaged with the third bevel gear 21 is fixedly arranged on the eighth transmission shaft 24 positioned on the lower side of the rotating shaft support 23, a fifth bevel gear 38 is fixedly arranged on the eighth transmission shaft 24 positioned on the upper side of the rotating shaft support 23, and a sixth bevel gear 51 engaged with the fifth bevel gear 38 and positioned on the right side of the second one-way bearing 37 is fixedly arranged on the fifth transmission shaft 25.

In the initial state, the distance between the main clamping block 39 and the fixed clamping block 42 is larger, the linkage support plate 30 is located at the front limit position, the cotton swab support 15 is located at the lower limit position, and the toothed parts at the lower ends of the first gear 36 and the fixed rack 35 are meshed and connected.

When an injured arm extends into the working cavity 12 through the arm extension through hole 13, the biosensor 26 detects a biological signal and starts the motor 27 to rotate the first transmission shaft 28, the rotated first transmission shaft 28 drives the fourth transmission shaft 45 to rotate sequentially through the first belt pulley 29, the connecting belt 46 and the second belt pulley 44, the rotated fourth transmission shaft 45 drives the second transmission shaft 33 to rotate sequentially through the third transmission shaft 50, the second bevel gear 49 and the first bevel gear 48, at this time, the rotation direction of the second transmission shaft 33 is the same as the transmission direction of the first one-way bearing 31, so that the rotated second transmission shaft 33 drives the main clamping block 39 to move towards the fixed clamping block 42 through the friction wheel 34 and the linkage sliding block 47, the return spring 43 accumulates elastic potential energy, the moved main clamping block 39 drives the front side auxiliary clamping block 63 to move towards the rear side auxiliary clamping block 63 through the fixed connecting rod 40, thus, the front and rear auxiliary clamping blocks 63 cooperate with the fixed clamping block 42 and the main clamping block 39 to clamp one cotton swab 16 on the cooperating bracket 61, when the cotton swab 16 is clamped, the friction force of the friction wheel 34 on the linkage slide 47 does not drive the linkage slide 47 to move backwards any more, the rotating first transmission shaft 28 drives the linkage support plate 30 to move backwards through the internal thread block 32, so that the linkage support plate 30 moving backwards enables the cotton swab 16 to move backwards, the cotton swab 16 moving backwards drives the corresponding hinge plate 58 to rotate, the connecting spring 54 accumulates elastic potential energy, when the cotton swab 16 is not abutted against the hinge plate 58 any more, the connecting spring 54 releases the elastic potential energy and drives the corresponding hinge plate 58 to reset, so that the cotton swab 16 moving backwards carries out disinfection operation on the injured arm wound, and during the backwards movement of the linkage support plate 30, the linkage support plate 30 moving backwards drives the first gear 36 to rotate through the fixed rack 35, but the rotation direction of the first gear 36 is different from the transmission direction of the second one-way bearing 37, so that the second one-way bearing 37 does not transmit, when the injured person moves out the arm after one disinfection is finished, the motor 27 is started reversely, so that the second transmission shaft 33 rotates reversely, the first one-way bearing 31 does not transmit any more, so that the return spring 43 releases the elastic potential energy and moves the main clamping block 39 to return to the right, the used cotton swab 16 is released, the linkage support plate 30 returns to the front, when the linkage support plate 30 moving forwards drives the toothed part at the lower side of the fixed rack 35 to be meshed with the first gear 36 again, the first gear 36 rotates reversely, the rotation direction of the first gear 36 is the same as the transmission direction of the second one-way bearing 37, so that the first gear 36 rotating reversely passes through the second one-way bearing 37, the fifth transmission shaft 25, the sixth bevel gear 51, the fifth bevel gear 51, The fifth bevel gear 38, the eighth transmission shaft 24, the fourth bevel gear 22 and the third bevel gear 21 drive the seventh transmission shaft 20 to rotate, the rotating seventh transmission shaft 20 drives the swab holder 15 to move upwards sequentially through the fourth belt pulley 57, the transmission belt 64, the third belt pulley 17, the sixth transmission shaft 18 and the second gear 19, so that the cotton swab holder 15 moving upwards drives the unused cotton swab 16 to move upwards and the wood part of the cotton swab 16 is positioned between the fixed clamping block 42 and the main clamping block 39.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (5)

1. A biosensor, includes the sensor housing, be equipped with the working chamber in the sensor housing, its characterized in that:

the wound cleaning assembly is arranged in the working cavity and comprises a sliding support, a linkage support plate, a fixed clamping block, a supporting connecting rod, a main clamping block, a fixed connecting rod, two auxiliary clamping blocks and cotton swabs, wherein the sliding support is arranged on the inner wall of the right side of the working cavity and can slide back and forth;

the working chamber is internally provided with a cotton swab replacing component, the cotton swab replacing component comprises a cotton swab support which is arranged on the inner wall of the front side of the working chamber and can slide up and down, and is uniformly fixed on the matching support at the rear end of the cotton swab support from top to bottom.

2. A biosensor as claimed in claim 1, wherein: the inner wall of the rear side of the working cavity is fixedly provided with a motor, and the front end of the motor is in power connection with a first transmission shaft which extends forwards to the inner wall of the front side of the working cavity.

3. A biosensor as claimed in claim 1, wherein: the utility model discloses a portable electronic device, including working chamber, through-hole, arm, working chamber rear side inner wall is equipped with and stretches into the through-hole with external communicating arm, working chamber rear side inner wall is equipped with and is located the arm stretches into the arm backup pad that the through-hole downside just extended forward, working chamber upside inner wall has set firmly biosensor.

4. A biosensor as claimed in claim 1, wherein: the wound cleaning assembly also comprises an internal thread block fixedly arranged at the upper end of the linkage support plate, the internal thread part of the internal thread block is in threaded connection with the thread part on the first transmission shaft, a reset spring is connected between the fixed clamping block and the main clamping block, a linkage sliding block which can slide back and forth and is fixedly connected with the upper end of the main clamping block is arranged at the left end of the linkage support plate, a second transmission shaft which is positioned at the upper side of the linkage sliding block and extends left and right is rotatably connected with the linkage support plate, a first one-way bearing which can only perform one-way transmission is fixedly arranged on the second transmission shaft positioned at the left side of the linkage support plate, a friction wheel which is in friction connection with the upper end of the linkage sliding block is fixedly arranged on the outer surface of the first one-way bearing, a first bevel gear is fixedly arranged on the second transmission shaft positioned at the right side of the linkage support, the upper end of the horizontal support is fixedly provided with a vertical support, the vertical support is rotatably connected with a third transmission shaft which extends forwards and backwards, a second bevel gear which is meshed with the first bevel gear is fixedly arranged on the third transmission shaft which is positioned on the front side of the vertical support, a first belt wheel is fixedly arranged on the first transmission shaft, a fourth transmission shaft which extends forwards to the inner wall of the front side of the working cavity and is connected with the third transmission shaft through splines is fixedly arranged on the inner wall of the rear side of the working cavity, a second belt wheel is fixedly arranged on the fourth transmission shaft, and a connecting belt is connected between the second belt wheel and the first belt wheel.

5. A biosensor as claimed in claim 1, wherein: the cotton swab replacing assembly further comprises a fixed rack fixedly arranged at the front end of the linkage support plate, a fifth transmission shaft extending leftwards is rotatably connected to the inner wall of the right side of the working cavity, a second one-way bearing only capable of one-way transmission is fixedly arranged on the fifth transmission shaft, a first gear capable of being meshed with a toothed part at the lower end of the linkage slider is fixedly arranged on the outer surface of the first gear, a sixth transmission shaft is rotatably connected to the inner wall of the front side of the working cavity, a second gear meshed with a toothed part at the right end of the cotton swab support is fixedly arranged on the sixth transmission shaft, a third belt wheel positioned on the front side of the second gear is fixedly arranged on the sixth transmission shaft, a seventh transmission shaft positioned on the right side of the sixth transmission shaft is rotatably connected to the inner wall of the rear side of the working cavity, a fourth belt wheel is fixedly arranged on the seventh transmission shaft, and a transmission belt is connected between the fourth, the seventh transmission shaft is fixedly provided with a third bevel gear which is positioned on the front side of the fourth belt wheel, the inner wall of the right side of the working cavity is fixedly provided with a rotating shaft support, the rotating shaft support is rotatably connected with an eighth transmission shaft which extends up and down, the eighth transmission shaft which is positioned on the lower side of the rotating shaft support is fixedly provided with a fourth bevel gear which is meshed with the third bevel gear, the eighth transmission shaft which is positioned on the upper side of the rotating shaft support is fixedly provided with a fifth bevel gear, and the fifth transmission shaft is fixedly provided with a sixth bevel gear which is positioned on the right side of the second one-way bearing and is meshed with the fifth bevel gear.

Images