CN112121697A

CN112121697A - Medical biological equipment

Info

Publication number: CN112121697A
Application number: CN202010965842.6A
Authority: CN
Inventors: 谢水莲
Original assignee: Guangzhou Renmai Biotechnology Co ltd
Current assignee: Guangzhou Renmai Biotechnology Co ltd
Priority date: 2020-09-15
Filing date: 2020-09-15
Publication date: 2020-12-25

Abstract

The invention discloses medical biological equipment, which comprises a box body, wherein a cavity is arranged in the box body, the inner wall of the upper side of the cavity is connected with two solute boxes which extend up and down and are bilaterally symmetrical in a sliding manner, and the solute boxes are internally provided with solute cavities with openings at the upper sides.

Description

Medical biological equipment

Technical Field

The invention relates to the field of medical biological equipment, in particular to medical biological equipment.

Background

The medical bioprotein adhesive is suitable for preventing wound surface exudation and venule bleeding and preventing tissue adhesion in the operation process, generally, the preparation of the bioprotein adhesive is manually prepared, protein is easily oxidized in the process of mixing a main body adhesive and a dissolving solution, the adhesion effect is reduced, the main body adhesive, a catalyst and the dissolving solution are not easily and fully dissolved under the manual control when being mixed, errors are generated, the solution quantitative preparation is necessary and accurate, and the conventional bioprotein adhesive preparation device has no functions of automatically and quantitatively preparing and reducing oxidation.

Disclosure of Invention

The technical problem is as follows:

can not modulate quantitatively and reduce the effect of direct influence of oxidation on treatment, and the prior modulation device of the bioprotein adhesive has no functions of automatically and quantitatively modulating and reducing oxidation.

In order to solve the problems, the medical biological equipment is designed in the embodiment, the medical biological equipment comprises a box body, a cavity is arranged in the box body, two solute boxes which extend up and down and are bilaterally symmetrical are connected to the inner wall of the upper side of the cavity in a sliding mode, and a solute cavity with an opening at the upper side is arranged in each solute box, and the medical biological equipment is characterized in that: the lower side of the solute box is fixed with a fixed box, the fixed box is internally provided with a fixed cavity which penetrates through the solute box from top to bottom and the upper side of which penetrates through the fixed box, the fixed box is provided with auxiliary cavities which are bilaterally symmetrical with respect to the fixed cavity, the fixed box is provided with a vertical groove which is positioned at the lower side of the auxiliary cavity and penetrates through the lower side of the fixed box, the inner wall of the upper side of the auxiliary cavity is connected with a movable plate in a sliding way, a spring is arranged between one side of the movable plate, which is far away from the fixed cavity, and the inner wall of the auxiliary cavity, the lower side of the movable plate is fixed with baffles which are connected with the inner wall of the auxiliary cavity in a sliding way and extend from left to right, the two baffles are close to one side of the fixed cavity and are mutually abutted against each other, the lower side of the fixed, a fixed plate is fixed on one side of the connecting cavity far away from the fixed cavity, an auxiliary baffle plate which is connected with the inner wall of the lower side of the connecting cavity in a sliding manner is arranged on the lower side of the fixed plate, a connecting spring is arranged between one side of the auxiliary baffle plate far away from the fixed cavity and the inner wall of the connecting cavity, two connecting springs are abutted against each other on one side close to the fixed cavity, fixed blocks positioned on the lower side of the connecting box are fixed on the left and right inner walls of the dissolving cavity, a through groove which is connected with the dissolving cavity in a penetrating manner is arranged in each fixed block, a switch is fixed on the inner wall of the through groove, an auxiliary plate fixed on the inner wall of the front side of the cavity is arranged on the front side of the dissolving box, a sliding block is connected on the upper side of the auxiliary plate in a sliding manner, an electric push rod is fixed on the, sliding chamber downside inner wall sliding connection has the slide bar, the meshing of slide bar upside is connected with the runner, the runner right side is rotated and is connected with and is fixed in the motor of sliding chamber right side inner wall, the slide bar upside is equipped with and is used for the conveyor who carries the liquid ration that will mix, cavity downside inner wall is equipped with and is used for making the solid vibration device who dissolves with higher speed, the cavity upside is equipped with and is used for the pressure-down device that the raw materials pushed down.

Preferably, the conveying device comprises a main motor fixed on the inner wall of the right side of the sliding block, the left side of the main motor is rotatably connected with an irregular wheel, the front side of the irregular wheel is rotatably connected with a connecting rod extending forwards, the front side of the connecting rod is rotatably connected with driving rods which are vertically symmetrical and are positioned on the left side of the sliding box, the lower sides of the driving rods are meshed and connected with the sliding rods, an auxiliary box is arranged on the upper side of the driving rods, a connecting cavity is arranged in the auxiliary box, a sliding plate is slidably connected with the inner wall of the connecting cavity, the lower side of the sliding plate is fixed on the driving rods, the driving rods are slidably connected with the inner wall of the lower side of the connecting cavity, a through pipe is arranged on the right side of the auxiliary box, a through cavity which is communicated from left to right is arranged in the through pipe, a connecting groove which penetrates through the inner, the lower side of the connecting rod is connected with the sliding block in a sliding way, the front side of the through pipe is fixed with an extension block fixedly connected with the upper side of the sliding block, an extension cavity with the rear side communicated with the through cavity is arranged in the extension block, the inner wall of the upper side of the extension cavity is hinged with a rotating plate positioned on the right side of the through pipe, the lower side of the rotating plate is abutted against the inner wall of the lower side of the extension cavity, the inner wall of the through pipe is connected with a push plate positioned on the front side of the rotating plate in a sliding way, an auxiliary electric push rod is fixed on the front side of the push plate, the front side of the auxiliary electric push rod is fixed on the inner wall of the front side of the extension cavity, the extension block is provided with a spiral pipe which is positioned at the lower side of the extension cavity and is connected with the extension cavity in a penetrating way, a pressure valve positioned on the inner wall of the lower side of the extension cavity is fixed on the inner wall of the spiral pipe, an output pipe is fixed on the right side of the extension block, the output pipe is internally provided with an output cavity with a left side communicated with the left spiral pipe and a right side opened.

Preferably, the shaking device comprises connection plates fixed on the inner walls of the lower sides of the two dissolving boxes, the lower side of the connecting plate is provided with two groups of connecting blocks which are distributed in a rectangular array in an up-down symmetrical way, the upper side of one group of connecting blocks is fixed at the lower side of the connecting plate, the lower side of one group of connecting blocks is fixed at the inner wall of the lower side of the cavity, a connecting spring is arranged between the two groups of connecting blocks, a connecting block is fixed on the lower side of the connecting plate, a rotating shaft is rotatably connected on the lower side of the connecting block, a rotating rod is fixed on the lower side of the rotating shaft, the left side of the rotating rod is rotatably connected with a rotating shaft, the right side of the rotating shaft is fixed with an extending plate, the upper side of the extending plate is fixed with an electric pull rod, electric pull rod upside fixed connection in the dwang, the axis of rotation downside rotates and is connected with driving motor, the driving motor downside is fixed in cavity downside inner wall.

Preferably, the push down device is including being fixed in the fixed motor of cavity left side inner wall, the fixed motor upside is equipped with and runs through the opening of cavity upside inner wall, the fixed motor upside is rotated and is connected with upwards extend and be located threaded rod in the opening, threaded rod upside threaded connection has and is located the horizontal pole that box upside and extend right, the horizontal pole downside is fixed with two montants of bilateral symmetry, the montant downside is fixed with sliding connection in the sliding block of solute chamber inner wall, cavity right side inner wall is fixed with vice motor, vice motor upside rotates and is connected with the lead screw that upwards extends, lead screw upside threaded connection have sliding connection in cavity left and right sides inner wall and fixed connection in the dead lever of solute case rear side.

The invention has the beneficial effects that: the device can automatically mix the main body glue and the catalyst with the dissolving solution respectively, fully dissolve the main body glue and the catalyst by means of shaking and shaking, and regulate and control the shaking amplitude, can reduce the air entering during dissolving, reduce the probability of protein oxidation by air, quantitatively discharge the dissolved solution by the refitted device, and control the discharge amount, so that the main body glue solution and the catalyst solution react, and the spiral tube solution fully reacts due to the spiral shape, thereby being convenient for use.

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.

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic view of the overall structure of the present invention.

FIG. 2 is an enlarged view of the inside of the fixing tank and the dissolving tank in FIG. 1.

FIG. 3 is an enlarged left side view of the front side of the dissolution tank of FIG. 1.

Fig. 4 is an enlarged schematic view of a-a in fig. 3.

Detailed Description

The invention will now be described in detail with reference to fig. 1-4, 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 medical biological equipment comprises a box body 11, wherein a cavity 12 is arranged in the box body 11, two solute boxes 31 which are vertically extended and bilaterally symmetrical are connected to the inner wall of the upper side of the cavity 12 in a sliding manner, a solute cavity 33 with an opening at the upper side is arranged in the solute box 31, a fixed box 50 is fixed at the lower side of the solute box 31, a fixed cavity 52 which is vertically penetrated and is connected with the solute cavity 33 in a penetrating manner at the upper side is arranged in the fixed box 50, an auxiliary cavity 36 which is bilaterally symmetrical relative to the fixed cavity 52 is arranged in the fixed box 50, a vertical groove 51 which is positioned at the lower side of the auxiliary cavity 36 and penetrates through the lower side of the fixed box 50 is arranged in the fixed box 50, a movable plate 53 is connected to the inner wall of the upper side of the auxiliary cavity 36 in a sliding manner, a spring 37 is arranged between one side of the movable plate 53, which is far away from the, the two baffles 38 are abutted against each other on one side close to the fixed cavity 52, the dissolving box 15 is arranged on the lower side of the fixed box 50, the dissolving cavity 16 is arranged in the dissolving box 15, the two connecting boxes 39 which are bilaterally symmetrical about the fixed cavity 52 are arranged on the inner wall on the upper side of the dissolving cavity 16, the connecting cavity 40 which is far away from the inner wall on the upper side of the dissolving cavity 16 is provided with a connecting cavity 40, the fixing cavity 52 is fixed with a fixing plate 49 on one side of the connecting cavity 40, the lower side of the fixing plate 49 is provided with an auxiliary baffle plate 48 which is slidably connected with the inner wall on the lower side of the connecting cavity 40, a connecting spring 47 is arranged between one side far away from the fixed cavity 52 and the inner wall of the connecting cavity 40, the two connecting springs 47 are abutted against each other on one side close to the fixed cavity 52, a switch 44 is fixed on the inner wall of the through groove 46, an auxiliary plate 59 fixed on the inner wall of the front side of the cavity 12 is arranged on the front side of the dissolving tank 15, a slide block 60 is connected on the upper side of the auxiliary plate 59 in a sliding manner, an electric push rod 54 is fixed on the front side of the vertical section of the slide block 60, the front side of the electric push rod 54 is fixed on the inner wall of the front side of the cavity 12, a slide tank 55 is fixed on the upper side of the horizontal section of the slide block 60, a slide cavity 56 with a rear opening is arranged in the slide tank 55, a slide rod 61 is connected on the inner wall of the lower side of the slide cavity 56 in a sliding manner, a rotating wheel 58 is meshed and connected on the upper side of the slide rod 61, a motor 57 fixed on the inner wall of the right side of the slide cavity 56 is rotatably connected on the right side of the rotating wheel, the upper side of the cavity 12 is provided with a pressing device 903 for pressing down the raw materials.

Advantageously, the conveying device 901 comprises a main motor 64 fixed on the inner wall of the right side of the sliding block 60, an irregular wheel 63 is rotatably connected on the left side of the main motor 64, a forwardly extending engaging rod 66 is rotatably connected on the front side of the irregular wheel 63, a driving rod 67 which is vertically symmetrical and is positioned on the left side of the sliding box 55 is rotatably connected on the front side of the engaging rod 66, the lower side of the driving rod 67 is engaged and connected with the sliding rod 61, a sub-box 69 is arranged on the upper side of the driving rod 67, an engaging cavity 68 is arranged in the sub-box 69, a sliding plate 42 is slidably connected on the inner wall of the engaging cavity 68, the lower side of the sliding plate 42 is fixed on the driving rod 67, the driving rod 67 is slidably connected on the inner wall of the lower side of the engaging cavity 68, a through pipe 70 is arranged on the right side of the sub-box 69, the inner wall of the through cavity 72 is slidably connected with a push rod 65 extending backwards, the lower side of the push rod 65 is fixed with a connecting rod 62 positioned at the rear side of the main motor 64, the lower side of the connecting rod 62 is slidably connected with the sliding block 60, the front side of the through pipe 70 is fixed with an extending block 75 fixedly connected with the upper side of the sliding block 60, the extending block 75 is internally provided with an extending cavity 79 communicated with the through cavity 72 at the rear side, the inner wall of the upper side of the extending cavity 79 is hinged with a rotating plate 73 positioned at the right side of the through pipe 70, the lower side of the rotating plate 73 is abutted against the inner wall of the lower side of the extending cavity 79, the inner wall of the through pipe 70 is slidably connected with a push plate 74 positioned at the front side of the rotating plate 73, the front side of the push plate 74 is fixed with an auxiliary electric push rod 81, the front side of the auxiliary electric push rod 81 is fixed at, a pressure valve 80 positioned on the lower inner wall of the extension cavity 79 is fixed on the inner wall of the spiral pipe 76, an output pipe 77 is fixed on the right side of the extension block 75, a left output cavity 78 which is connected with the left spiral pipe 76 and the right spiral pipe 76 in a penetrating way is arranged in the output pipe 77, the main motor 64 enables the irregular wheel 63 to rotate, the irregular wheel 63 enables the connecting rod 66 to rotate, meanwhile, the driving rod 67 can swing back and forth, the driving rod 67 enables the push rod 65 to slide along the inner wall of the through cavity 72 through the auxiliary box 69, if the distance for the push rod 65 to move rightwards needs to be increased, the motor 57 is turned on, the motor 57 enables the rotating wheel 58 to rotate clockwise, the slide block 60 can move leftwards along the lower inner wall of the sliding cavity 56, and the swing of the meshing part of the driving rod 67, the driving rod 67 drives the auxiliary box 69 to swing and increase, the mixed liquid flows into the through cavity 72 from the connecting groove 71, the push rod 65 moves to enable the liquid to be squeezed into the extending cavity 79, at the moment, the rotating plate 73 rotates, the auxiliary electric push rod 81 squeezes the liquid into the spiral tube 76 through the push plate 74, the spiral tubes 76 on the left side and the right side are mutually overlapped, the liquid can rotate after entering the spiral tube 76, and the liquid is fully mixed in the output cavity 78.

Beneficially, the oscillating device 902 comprises two connecting plates 17 fixed on the inner walls of the lower sides of the two dissolving tanks 15, the lower sides of the connecting plates 17 are provided with two sets of buffer assemblies which are bilaterally symmetrical with respect to the central line of the connecting plates 17, each buffer assembly comprises two connecting blocks 18 which are positioned in the cavity 12 and are vertically symmetrical, the connecting blocks 18 on the upper sides are fixedly connected with the connecting plates 17, the connecting blocks 18 on the lower sides are fixedly connected with the inner walls of the lower sides of the cavity 12, a connecting spring 19 is connected between the upper connecting blocks 18 and the lower connecting blocks 18, a connecting block 26 is fixed on the lower side of each connecting plate 17, a rotating shaft 25 is rotatably connected on the lower side of each connecting block 26, a rotating rod 24 is fixed on the lower side of each rotating shaft 25, a rotating shaft 21 is rotatably connected on the left side of each rotating rod 24, an extending plate 23 is fixed on the right side, electric pull rod 22 upside fixed connection in

dwang

24, 21 downside of axis of rotation rotates and is connected with driving motor 20, driving motor 20 downside is fixed in cavity 12 downside inner wall, driving motor 20 makes axis of rotation 21 rotates, axis of rotation 21 rotates and makes dwang 24 rotates, dwang 24 makes connecting block 26 rotates, simultaneously because pivot 25 with it is rotation between the connecting block 26, connecting block 26 makes linking plate 17 rock, if electric pull rod 22 will 24 downwardly rotating of dwang makes dwang 24 will connecting block 26 pushes down, linking plate 17's range of rocking can increase, linking plate 17 rocks and can make the raw materials with dissolve liquid more intensive mixing.

Beneficially, the push-down device 903 comprises a fixed motor 14 fixed to the inner wall of the left side of the cavity 12, the upper side of the fixed motor 14 is provided with a through opening 41 penetrating through the inner wall of the upper side of the cavity 12, the upper side of the fixed motor 14 is rotatably connected with a threaded rod 35 extending upwards and located in the through opening 41, the upper side of the threaded rod 35 is rotatably connected with a cross rod 34 located at the upper side of the box body 11 and extending rightwards, two vertical rods 32 of bilateral symmetry are fixed to the lower side of the cross rod 34, sliding blocks 30 slidably connected to the inner wall of the solute cavity 33 are fixed to the lower sides of the vertical rods 32, an auxiliary motor 28 is fixed to the inner wall of the right side of the cavity 12, a lead screw 29 extending upwards is rotatably connected to the upper side of the auxiliary motor 28, the upper side of the lead screw, the fixed motor 14 makes the threaded rod 35 rotate, the threaded rod 35 rotates and makes the horizontal pole 34 move down, the horizontal pole 34 passes through the montant 32 makes the sliding block 30 along the inner wall gliding of solute chamber 33, with the left side the main part glue in the solute chamber 33 is pressed down, with the right side the catalyst in the solute chamber 33 is pressed down, reduces the air oxidation, vice motor 28 makes lead screw 29 rotates, lead screw 29 makes the dead lever 13 drive solute box 31 moves down, with the raw materials feed in dissolving box 15, the reduction with the contact of air.

The use steps herein are described in detail below with reference to fig. 1-4:

initially, the driving motor 20, the electric pull rod 22, the fixed motor 14, the sub motor 28, the switch 44, the electric push rod 54, and the sub electric push rod 81 are in a closed state, the slide block 30 is located above the solute box 31, the fixed box 50 is located above the dissolution box 15, the slide rod 61 is located in front of the dissolution box 15, the fixed cavity 52 is closed by the shutter 38, and the upper side of the dissolution cavity 16 is closed by the sub shutter 48.

In preparation, the body is loaded into the left solute cavity 33, the catalyst is loaded into the right solute cavity 33, the body glue solution is loaded into the left dissolution cavity 16, and the catalyst solution is loaded into the right dissolution cavity 16.

In operation, the fixed motor 14 is started, the fixed motor 14 enables the threaded rod 35 to rotate, the threaded rod 35 rotates to enable the cross rod 34 to slide downwards, meanwhile, the vertical rod 32 pushes the sliding block 30 to slide downwards to press the raw material in the solute cavity 33, meanwhile, the auxiliary motor 28 is started, the auxiliary motor 28 enables the lead screw 29 to rotate, the lead screw 29 rotates to enable the fixed rod 13 to drive the solute box 31 to slide downwards along the inner wall of the upper side of the cavity 12, the fixed box 50 on the lower side of the solute box 31 enters the connecting cavity 40, at the moment, the inner wall of the connecting box 39, which is close to one side of the fixed cavity 52, enters the vertical groove 51, the auxiliary baffle plate 48 moves towards two sides due to the inclined wall of the fixed box 50, the connecting spring 47 is compressed, the upper side of the dissolution cavity 16 is opened, meanwhile, the inclined wall of the baffle plate 38 abuts against the fixed plate 49, the baffle plate 38 can move towards two sides, reducing air contact during mixing, mixing the raw materials and the dissolving liquid in the dissolving cavity 16 and on the upper side of the fixing block 27, starting the driving motor 20, enabling the driving motor 20 to rotate the rotating shaft 21, enabling the rotating shaft 21 to drive the rotating rod 24 to rotate, enabling the connecting plate 17 to rock through the connecting block 26 by the rotating rod 24, enabling the mixing in the dissolving cavity 16 to be more sufficient by the rocking of the connecting plate 17, if the rocking amplitude needs to be increased, starting the electric pull rod 22, enabling the electric pull rod 22 to press the rotating rod 24 downwards, enabling the connecting plate 17 to be pulled downwards through the connecting block 26 by the rotating rod 24 to enable the connecting plate 17 to incline, enabling the rocking amplitude of the connecting plate 17 to be increased when the rotating rod 24 rotates, starting the electric push rod 54 after the mixing and dissolving are completed, enabling the slide block 60 to move backwards along the upper side of the auxiliary plate 59, enabling the lower side of the slide block 60 to slide on the inner, when the connecting groove 71 is positioned at the lower side of the through groove 46, the electric push rod 54 is stopped, the switch 44 is turned on, the dissolved solution enters the through cavity 72, the main motor 64 is started, the main motor 64 rotates the irregular wheel 63, the irregular wheel 63 rotates to rotate the connecting rod 66, the connecting rod 66 can enable the driving rod 67 to swing, namely, the lower side of the driving rod 67 is meshed with the sliding rod 61 to rotate, the upper side of the driving rod 67 enables the push rod 65 to move through the auxiliary box 69, the push rod 65 returns after moving for a certain distance, if the distance for pushing the push rod 65 forwards is required to increase, the motor 57 is started, the motor 57 enables the rotating wheel 58 to rotate clockwise, the sliding rod 61 moves backwards along the inner wall of the lower side of the sliding cavity 56, the amplitude of the meshing rotation between the lower side of the driving rod 67 and the sliding rod 61 is reduced, meanwhile, the distance for driving the auxiliary box, make the volume that solution was pushed out controllable, push rod 65 removes and pushes to extension chamber 79 with solution in, this moment because there is pressure valve 80, solution can not flow out, the rotor plate 73 can rotate certain angle under the flow of solution this moment, then start vice electric putter 81, vice electric putter 81 makes push pedal 74 move backward along extending the intracavity 79 inner wall, make pressure increase, the solution that will extend in the chamber 79 and be located push pedal 74 rear side passes through pressure valve 80, then in getting into output chamber 78 through spiral pipe 76, because the spiral pipe 76 of the left and right sides makes spirally, can rotate after making solution get into, glue solution and catalyst solution at the main part and can the intensive mixing in output chamber 78, conveniently take place the reaction.

When the solution is finished, the solution flowing out of the output cavity 78 is used for removing redundant solution in time, and the driving motor 20, the electric pull rod 22, the fixed motor 14, the auxiliary motor 28, the switch 44, the electric push rod 54 and the auxiliary electric push rod 81 are closed.

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

1. The utility model provides a medical biological equipment, includes the box, the internal cavity that is equipped with of box, cavity upside inner wall sliding connection has two solute boxes of extending and bilateral symmetry from top to bottom, the solute incasement is equipped with upside open-ended solute cavity, its characterized in that: the lower side of the solute box is fixed with a fixed box, the fixed box is internally provided with a fixed cavity which penetrates through the solute box from top to bottom and the upper side of which penetrates through the fixed box, the fixed box is provided with auxiliary cavities which are bilaterally symmetrical with respect to the fixed cavity, the fixed box is provided with a vertical groove which is positioned at the lower side of the auxiliary cavity and penetrates through the lower side of the fixed box, the inner wall of the upper side of the auxiliary cavity is connected with a movable plate in a sliding way, a spring is arranged between one side of the movable plate, which is far away from the fixed cavity, and the inner wall of the auxiliary cavity, the lower side of the movable plate is fixed with baffles which are connected with the inner wall of the auxiliary cavity in a sliding way and extend from left to right, the two baffles are close to one side of the fixed cavity and are mutually abutted against each other, the lower side of the fixed, a fixed plate is fixed on one side of the connecting cavity far away from the fixed cavity, an auxiliary baffle plate which is connected with the inner wall of the lower side of the connecting cavity in a sliding manner is arranged on the lower side of the fixed plate, a connecting spring is arranged between one side of the auxiliary baffle plate far away from the fixed cavity and the inner wall of the connecting cavity, two connecting springs are abutted against each other on one side close to the fixed cavity, fixed blocks positioned on the lower side of the connecting box are fixed on the left and right inner walls of the dissolving cavity, a through groove which is connected with the dissolving cavity in a penetrating manner is arranged in each fixed block, a switch is fixed on the inner wall of the through groove, an auxiliary plate fixed on the inner wall of the front side of the cavity is arranged on the front side of the dissolving box, a sliding block is connected on the upper side of the auxiliary plate in a sliding manner, an electric push rod is fixed on the, sliding chamber downside inner wall sliding connection has the slide bar, the meshing of slide bar upside is connected with the runner, the runner right side is rotated and is connected with and is fixed in the motor of sliding chamber right side inner wall, the slide bar upside is equipped with and is used for the conveyor who carries the liquid ration that will mix, cavity downside inner wall is equipped with and is used for making the solid vibration device who dissolves with higher speed, the cavity upside is equipped with and is used for the pressure-down device that the raw materials pushed down.

2. The medical bioinstrumentation of claim 1, wherein: the conveying device comprises a main motor fixed on the inner wall of the right side of the sliding block, the left side of the main motor is rotatably connected with an irregular wheel, the front side of the irregular wheel is rotatably connected with a connecting rod extending forwards, the front side of the connecting rod is rotatably connected with driving rods which are vertically symmetrical and are positioned on the left side of the sliding box, the lower sides of the driving rods are meshed and connected with the sliding rods, an auxiliary box is arranged on the upper side of the driving rods, a connecting cavity is arranged in the auxiliary box, the inner wall of the connecting cavity is slidably connected with a sliding plate, the lower side of the sliding plate is fixed on the driving rods, the driving rods are slidably connected with the inner wall of the lower side of the connecting cavity, a through cavity which is communicated from left to right is arranged on the right side of the auxiliary box, a connecting groove which penetrates through the inner wall of the upper side of the through, the lower side of the connecting rod is connected with the sliding block in a sliding way, the front side of the through pipe is fixed with an extension block fixedly connected with the upper side of the sliding block, an extension cavity with the rear side communicated with the through cavity is arranged in the extension block, the inner wall of the upper side of the extension cavity is hinged with a rotating plate positioned on the right side of the through pipe, the lower side of the rotating plate is abutted against the inner wall of the lower side of the extension cavity, the inner wall of the through pipe is connected with a push plate positioned on the front side of the rotating plate in a sliding way, an auxiliary electric push rod is fixed on the front side of the push plate, the front side of the auxiliary electric push rod is fixed on the inner wall of the front side of the extension cavity, the extension block is provided with a spiral pipe which is positioned at the lower side of the extension cavity and is connected with the extension cavity in a penetrating way, a pressure valve positioned on the inner wall of the lower side of the extension cavity is fixed on the inner wall of the spiral pipe, an output pipe is fixed on the right side of the extension block, the output pipe is internally provided with an output cavity with a left side communicated with the left spiral pipe and a right side opened.

3. The medical bioinstrumentation of claim 1, wherein: the oscillating device comprises connecting plates fixed on the inner walls of the lower sides of the two dissolving boxes, the lower sides of the connecting plates are provided with two groups of connecting blocks which are distributed in an up-and-down symmetrical manner and four groups of connecting blocks distributed in a rectangular array manner, the upper sides of a group of connecting blocks are fixed on the lower sides of the connecting plates, the lower sides of a group of connecting blocks are fixed on the inner walls of the lower sides of the cavities, a connecting spring is arranged between a group of connecting blocks, a connecting block is fixed on the lower side of the connecting plate, a rotating shaft is rotatably connected on the lower side of the connecting block, a rotating rod is fixed on the lower side of the rotating shaft, the left side of the rotating rod is rotatably connected with a rotating shaft, the right side of the rotating shaft is fixed with an extending plate, the upper side of the extending plate is fixed with an electric pull rod, electric pull rod upside fixed connection in the dwang, the axis of rotation downside rotates and is connected with driving motor, the driving motor downside is fixed in cavity downside inner wall.

4. The medical bioinstrumentation of claim 1, wherein: the device of pushing down is including being fixed in the fixed motor of cavity left side inner wall, the fixed motor upside is equipped with and runs through the opening of cavity upside inner wall, the fixed motor upside rotates to be connected with upwards extend and to be located intraoral threaded rod of opening, threaded rod upside threaded connection has to be located the horizontal pole that box upside and extended right, the horizontal pole downside is fixed with two montants of bilateral symmetry, the montant downside is fixed with sliding connection in the sliding block of solute chamber inner wall, cavity right side inner wall is fixed with vice motor, vice motor upside rotates to be connected with the lead screw that upwards extends, lead screw upside threaded connection have sliding connection in inner wall and fixed connection are in about the cavity the dead lever of solute case rear side.