CN115301148A - Nano hydrogen-rich water raw material vibrates mixing apparatus - Google Patents

Abstract

The invention discloses a nano hydrogen-rich water raw material oscillation mixing device which comprises a base, wherein the base is provided with a fixed base and a clamping rod arranged at the top of the base, the position of the clamping rod, far away from the base, is fixedly connected with a controller, and the bottom of the controller is fixedly connected with a positioning clamping plate; the top cover is provided with a liquid inlet pipe and a mixing drum arranged on the inner surface of the top cover, the outer surface of the mixing drum is fixedly connected with a position measuring window, and the bottom end of the mixing drum extends into the base. This nanometer hydrogen-rich water raw materials vibrates mixing apparatus prevents that the inside raw materials that adds of mixing drum is too much to follow-up mixing efficiency the influence appears, has further improved the homogeneity that the inside raw materials of barrel mixed, and the filter stand can filter the back through the drain pipe with the mixed rivers discharge the raw materials after mixing, and then improves the inside clean of barrel, is convenient for guarantee the inside raw materials intensive mixing of barrel.

Description

Nano hydrogen-rich water raw material vibrates mixing apparatus

Technical Field

The invention relates to the technical field of mixing equipment, in particular to oscillation mixing equipment for a nanometer hydrogen-rich water raw material.

Background

The mixing equipment is mechanical equipment which uniformly mixes two or more than two materials by utilizing mechanical force, gravity and the like, and can increase the contact surface area of the materials in the mixing process to promote chemical reaction; and can accelerate physical change, the common mixers are divided into four types of gas and low-viscosity liquid mixers, medium-high viscosity liquid and paste mixers and powder and granular solid material mixing machines, all the materials involved in mixing are required to be uniformly distributed during mixing, the mixing degree is divided into ideal mixing, the mixing degree of various materials in the mixing machines depends on the proportion, physical state and characteristics of the materials to be mixed, and the type of mixing machine used and the duration of the mixing operation, the mixing of the liquids is mainly achieved by means of a mechanical stirrer, a gas flow and a jet of the liquid to be mixed, which is agitated to achieve a homogeneous mixing, the agitation causes a part of the liquid to flow, which in turn propels the liquid around it, with the result that a circulating flow of liquid is formed in the container, the resulting diffusion between the liquids is called bulk convection diffusion, and when the liquid flow velocity due to agitation is high, shear occurs at the interface between the high velocity stream and the surrounding low velocity stream, creating a large number of localized vortices that rapidly spread around, entraining more liquid into the vortices, turbulent convective diffusion, known as vortex diffusion, occurs in small areas, where the moving parts of the mechanical stirrer also shear the liquid as it rotates, as well as the various stationary components installed in the vessel, these shearing actions cause many local vortex diffusions, bulk convection diffusion and vortex diffusion caused by stirring, increase the surface area of molecular diffusion between different liquids, decrease the diffusion distance, therefore, the time of molecular diffusion is shortened, and if the viscosity of the liquid to be mixed is not high, the random mixing state can be achieved within short stirring time; if viscosity is higher, then need longer mixing time, but the raw materials adhesion appears in the in-process that equipment mixes easily, makes its in-process that mixes appear the inside raw materials condition that remains that appears of equipment, and inside raw materials mixes inhomogeneously, makes it remain the raw materials difficult clearance, causes the influence to the holistic mixing efficiency of equipment.

In conclusion, the raw materials are easy to adhere in the mixing process of the equipment, so that the raw materials are easy to remain in the equipment in the mixing process, and the internal raw materials are not mixed uniformly, so that the residual raw materials are not easy to clean, and the overall mixing efficiency of the equipment is influenced.

Disclosure of Invention

Aiming at the defects of the prior art, the technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to a nano hydrogen-rich water raw material oscillation mixing device, which comprises,

the base is provided with a fixed base and a clamping rod arranged at the top of the base, the position, far away from the base, of the clamping rod is fixedly connected with a controller, the bottom of the controller is fixedly connected with a positioning clamping plate, and the bottom of the positioning clamping plate is fixedly connected with the base;

the top cap, the top cap has the feed liquor pipe, and installs the mixing drum of top cap internal surface, the external fixed surface of mixing drum is connected with the position finding window, the surface bottom and the location cardboard fixed connection of mixing drum, the bottom of mixing drum extends to the inside of base, through top cap and mixing drum cooperation, make the top cap block the raw materials that splashes in the mixing process, and the position finding window can fix a position the raw materials quantity that the inlet pipe adds on the top cap on the mixing drum, prevent that the inside raw materials that add of mixing drum is too much to influence the follow-up mixing efficiency, the location cardboard contacts the mixing drum on the base, make its in-process at the installation can utilize the location cardboard to seal the mounted position of mixing drum, the joint pole cooperates with the location cardboard on the base, can carry out spacing fixed to the controller, avoided the controller problem that the skew to appear, the mixing drum includes:

the filter device comprises a barrel, a filter box and a water outlet pipe, wherein the barrel is provided with a sealing ring and a cleaning frame arranged at the top of the inner surface of the barrel;

the agitator frame, the agitator frame has driving motor, and installs the ultrasonic oscillation generator of agitator frame surface, the surface bottom and the filter frame of agitator frame rotate to be connected, the bottom of agitator frame extends to the outside of barrel, and it is rotatory along with driving motor's drive inside the barrel through the agitator frame, make it stir the raw materials at rotatory in-process, and when the agitator frame stirring stopped, ultrasonic oscillation generator above that carries out work for the barrel takes place to rock, and drive inside rivers and wash the raw materials of barrel inner wall adhesion at gliding in-process, the raw materials of being convenient for remove again, can carry out the secondary stirring to the barrel inside along with the agitator frame rotation again, has further improved the homogeneity that the inside raw materials of barrel mix, filter the frame can filter the back raw materials after mixing through the drain pipe with mixed water flow discharge, the clearance frame can clear up the barrel inside when rivers discharge or the agitator frame stop rotating simultaneously, and then improve the inside cleanness of barrel, has reduced the barrel inside too much because of the raw materials of adhesion to its follow-on the follow-up mix production influence, be convenient for guaranteeing inside intensive mixing of inside raw materials, the base that the base just extends to the top of base and the top cover connection of the base and the protection box, the barrel, the top connection of barrel and the top cap, the top of the base and the top of the support connection that the barrel run through the support and the top of barrel.

Preferably, the cleaning frame comprises a fixing ring, the bottom fixedly connected with electric push rod of the fixing ring, the outer surface bottom fixedly connected with reinforcing support of the electric push rod, the bottom fixedly connected with cleaning sleeve of the reinforcing support is extended to drive the cleaning sleeve to descend through the electric push rod which is uniformly distributed on the fixing ring, so that the cleaning sleeve is cleaned when descending, the condition of inner wall adhesion raw materials of the barrel is avoided, the raw materials falling after cleaning can be mixed with the stirring frame when rotating again along with the stirring frame, the quality of raw material mixing of the equipment is improved, the electric push rods ascend and descend simultaneously, the cleaning sleeve is not prone to incline in the process of ascending and descending in the vertical direction, the cleaning position is not prone to remain, the position fixedly connected with an auxiliary part of the electric push rod is kept away from the reinforcing support, the bottom of the auxiliary part is fixedly connected with the cleaning sleeve, the reinforcing support is connected with the cleaning sleeve, the mounting position of the electric push rod on the cleaning sleeve is convenient to reinforce, the stability of the movement of the cleaning sleeve is improved, the stability of the gap between the cleaning sleeve and the cleaning sleeve is avoided, the supporting support can be connected with the electric push rod, and the supporting part can be connected with the supporting part, and the supporting part can be increased.

Preferably, the protection box includes the stop collar, the outer fixed surface of stop collar is connected with sealed box body, sealed box body keeps away from the interior bracer of the position fixedly connected with of stop collar, the internal surface fixedly connected with fly leaf of stop collar, sealed box body is close to the position of fly leaf and extends to the inside of stop collar, through fly leaf evenly distributed in the inside of stop collar, the stop collar of being convenient for rocks through sealed box body transmission barrel production and makes the fly leaf stretch out and draw back, can contact with a shutoff section of thick bamboo after the fly leaf extension, and the stop collar can protect a shutoff section of thick bamboo on sealed box body to guaranteed the inside difficult condition that rivers revealed that appears of sealed box body, sealed box body is close to the position fixedly connected with shutoff section of thick bamboo of fly leaf, can play spacing tight effect of top when the inside of sealed box body removes through interior bracer, and the opening and shutting the position at sealed box body for the staff can clear up its inside from opening sealed box body, and then carry out precision control to the removal of a shutoff section of thick bamboo, can utilize the inside supporting effect of interior bracer increase sealed box body.

Preferably, the filter frame comprises an assembly ring, the top fixedly connected with elastic arc plates of the assembly ring, the top fixedly connected with filter screen disc of the elastic arc plates is uniformly distributed on the filter screen disc through the elastic arc plates, so that the elastic arc plates can support the filter screen disc, large raw materials inside the cylinder are intercepted by the filter screen disc, the situation that the raw materials drop from the filter screen disc is prevented, the filter screen disc can be inclined and extruded to the elastic arc plates when water flow pressure is too high, a movable space is formed between the filter screen disc and the cylinder to circulate water, the inner surface of the filter screen disc is fixedly connected with a guide sleeve, two ends of the guide sleeve extend to the outside of the filter screen disc, the guide sleeve is in contact with the filter screen disc, the guide sleeve is convenient to seal the mounting position of the stirring frame inside the cylinder, the mounting position of the guide sleeve has good sealing performance, and the situation that the friction force of the stirring frame rotating when the raw materials enter the guide sleeve is increased is reduced, the guide sleeve is matched with the elastic arc plates, the inclined angle of the filter screen disc can be limited, and the bottom of the guide sleeve is connected with two sides of the movable frame.

Preferably, the auxiliary member includes the boosting body of rod, the surface of the boosting body of rod rotates and is connected with the swing piece, the both ends fixedly connected with installation pole of the boosting body of rod, the top fixedly connected with auxiliary shell of installation pole, the bottom of installation pole runs through auxiliary shell and extends to the outside of auxiliary shell, installs on the installation pole through the boosting body of rod for evenly distributed's swing piece can swing when the clearance cover goes up and down on the boosting body of rod, and swing piece wobbling in-process strikes the inside of auxiliary shell, makes the swing piece drop to the remaining raw materials of clearance cover surface through auxiliary shell transmission shaking force in the in-process of collision, and then has improved the cleanness on clearance cover surface, and the swing piece can support the inside of auxiliary shell when swinging on the boosting body of rod, be convenient for increase the bearing capacity of auxiliary shell self, the position fixedly connected with sealed lid that the installation pole is kept away from to the auxiliary shell can produce the free space through being connected between auxiliary shell and the sealed lid for the inside rivers of barrel are difficult for flowing into from the gap of being connected between auxiliary shell and sealed lid, and two installation poles of auxiliary shell can fix it on the reinforcing support and have thereby removed the problem when having appeared, thereby the installation pole has been difficult for the installation of the installation pole.

Preferably, the plugging cylinder comprises a pushing frame, an assembling sleeve is fixedly connected to the outer surface of the pushing frame, a mounting disc is fixedly connected to a position of the assembling sleeve, which is far away from the pushing frame, a movable space generated by the assembling sleeve and the mounting disc is used for separating and protecting the inside of the assembling sleeve, the mounting disc is convenient for driving the assembling sleeve to be fixed inside the sealing box body, the mounting disc can move inside the limiting sleeve, the limiting sleeve limits the moving range of the sealing box body by using a movable plate, the assembling sleeve can contact with the inner support body when moving along with the mounting disc, the assembling sleeve can be conveniently supported by the movable plate and the inner support body after the moving is stopped by matching of the movable plate and the inner support body, a sliding end is slidably connected to a position of the mounting disc, which is close to the assembling sleeve, a limiting inclined plate is rotatably connected to a position, which is far away from the mounting disc, the position of the limiting inclined plate, which is far away from the sliding end, is fixedly connected to the pushing frame, and the pushing piece arranged on the pushing frame can move along with the limiting inclined plate when the sliding end moves, so that the sliding end can be controlled to be matched with the assembling sleeve when the sliding end is opened, and the water flow is generated in the impact space of the water flow.

Preferably, the adjustable shelf includes the activity ring, the bottom fixedly connected with backup pad of activity ring, solid piece in the bottom fixedly connected with of backup pad has the spring through the activity ring on, and the spring is connected with the filter screen dish, and the activity ring of being convenient for can carry out the micro-displacement on the filter screen dish, extrudees the activity ring when making the filter screen dish slope, evenly distributed has the backup pad on the activity ring, makes it remove along with the slope of activity ring, is convenient for transmit the pressure that the activity ring received, can utilize the backup pad to increase the area of contact of activity ring along with the removal of activity ring, the bottom of well solid piece rotates and is connected with the displacement board, the inside of solid piece in solid piece and transporting is run through in the top of displacement board, the bottom of displacement board rotates and is connected with the expansion plate, removes when receiving the pressure of well solid piece through the displacement board, and well solid piece receives the pressure that the activity ring leaned on the backup pad, makes the expansion plate contact with the assembly ring under the promotion of displacement board, and the expansion plate still receives the shrink when contacting the pressure of displacement board, and the displacement board carries out the adjusting of being convenient for the connection position of being convenient for the activity ring to carry out the slope and touch the face.

The invention provides oscillation mixing equipment for a nanometer hydrogen-rich water raw material. The method has the following beneficial effects:

1. this nanometer hydrogen-rich water raw materials vibrates mixing apparatus, the top cap has been set up, the position finding window, the stirring frame, the ultrasonic oscillation generator, through top cap and mixing drum cooperation, make the top cap block the raw materials that splashes in the mixing process, and the position finding window can fix a position the raw materials quantity that the inlet pipe adds on the top cap on the mixing drum, prevent that the inside interpolation raw materials of mixing drum is too much to follow-up mixing efficiency the influence appears, again along with the stirring frame rotation can carry out the secondary stirring to the barrel inside, the homogeneity of the inside raw materials of barrel mixed has further been improved, the filter frame can filter the raw materials after mixing back through the drain pipe with the mixed rivers discharge, and then improve the inside clean of barrel, the inside raw materials of barrel that has reduced because of the adhesion is too much to its follow-up mixture production influence, be convenient for guarantee the inside raw materials intensive mixing of barrel.

2. This nanometer hydrogen-rich water raw materials vibrates mixing apparatus, the spring has on through the activity ring, extrude the activity ring when making the filter screen dish slope, be convenient for transmit the pressure that the activity ring received, can utilize the backup pad along with the area of contact of the removal increase activity ring of activity ring, the expansion plate removes when the displacement plate receives the pressure of well solid piece, and well solid piece receives the pressure of activity ring slope in the backup pad, make the expansion plate contact the fitting ring under the promotion of displacement plate, be convenient for adjust contact area along with the slope of activity ring.

3. This nanometer hydrogen-rich water raw materials vibrates mixing apparatus, the activity space that produces through assembly sleeve and mounting disc separates the protection to its inside, the mounting disc of being convenient for drives the assembly sleeve and fixes in the inside of sealed box body, the impeller that has on the propelling movement frame removes the end that slides through spacing swash plate along with the drive of electric power, can control opening and shutting of the circulation position of rivers when making the end that slides remove, thereby cooperate the space that produces the rivers circulation with the assembly sleeve.

4. This nanometer hydrogen-rich water raw materials vibrates mixing apparatus, install on the installation pole through the boosting body of rod, the swing piece that makes evenly distributed on the boosting body of rod can swing when going up and down along with the clearance cover, be convenient for increase the bearing capacity of auxiliary shell self, it can produce the activity space to be connected between auxiliary shell and the sealed lid, make the inside rivers of barrel be difficult for flowing in from the joint gap between auxiliary shell and the sealed lid, thereby increased the auxiliary shell mounted position and carried out the fastening nature, make its difficult problem that appears dropping when removing along with the clearance cover.

5. This nanometer hydrogen-rich water raw materials vibrates mixing apparatus, through elasticity arc board evenly distributed on the filter screen dish, make it to support the filter screen dish, prevent that the raw materials from taking place the condition that drops from the filter screen dish, uide bushing and filter screen dish contact, the uide bushing of being convenient for seals the mounted position of stirring frame in the inside of barrel, make the mounted position of uide bushing have fine leakproofness, thereby reduced the inside circumstances that leads to the rotatory frictional force of stirring frame to increase of raw materials entering uide bushing.

6. This nanometer hydrogen-rich water raw materials vibrates mixing apparatus, through the inside of fly leaf evenly distributed at the stop collar, what the stop collar of being convenient for produced through sealed box body transmission barrel rocks makes the fly leaf stretch out and draw back to guaranteed the inside difficult condition that rivers revealed that appear of sealed box body, interior supporter plays spacing tight effect in top when the inside of sealed box body can remove a shutoff section of thick bamboo, and then carries out the precision control to the removal of a shutoff section of thick bamboo, can utilize the inside supporting effect of interior supporter increase sealed box body.

7. This nanometer hydrogen-rich water raw materials vibrates mixing apparatus, the electric putter extension through solid fixed ring last evenly distributed drives the clearance cover and descends, clean the barrel when making the clearance cover descend, thereby the condition of the inner wall adhesion raw materials of barrel has been avoided, it is connected with the clearance cover to consolidate the support, be convenient for consolidate the support and sheathe the mounted position to electric putter in the clearance and consolidate, thereby the stationarity that clearance cover self removed has been increased, the condition that the clearance cover is not hard up has been caused to the gap appearance between clearance cover and the electric putter has been avoided.

Drawings

FIG. 1 is a schematic structural view of the present invention as a whole;

FIG. 2 is a schematic structural view of a mixing drum of the present invention;

FIG. 3 is a schematic structural view of the cleaning frame of the present invention;

FIG. 4 is a schematic structural view of the protective case of the present invention;

FIG. 5 is a schematic view of the filter rack of the present invention;

FIG. 6 is a schematic view of the auxiliary member of the present invention;

FIG. 7 is a schematic structural view of an occlusion cartridge of the present invention;

fig. 8 is a schematic structural view of the movable frame of the present invention.

In the figure: 1. a base; 2. a clamping and connecting rod; 3. a controller; 4. positioning a clamping plate; 5. a top cover; 6. a mixing drum; 61. a barrel; 62. cleaning the rack; 621. a fixing ring; 622. cleaning the sleeve; 623. reinforcing the bracket; 624. an electric push rod; 625. an auxiliary member; 71. a sealing cover; 72. a swing block; 73. a boosting rod body; 74. an auxiliary housing; 75. mounting a rod; 63. a stirring frame; 64. an ultrasonic oscillation generator; 65. a protective case; 651. sealing the box body; 652. a limiting sleeve; 653. a movable plate; 654. a plugging cylinder; 81. mounting a disc; 82. a sliding end; 83. a limit sloping plate; 84. a pushing frame; 85. assembling the sleeve; 655. an inner support; 66. a filter frame; 661. a filter screen disc; 662. assembling a ring; 663. an elastic arc plate; 664. a guide sleeve; 665. a movable frame; 91. a retractable plate; 92. a displacement plate; 93. a middle fixing block; 94. a support plate; 95. a movable ring; 67. a drain pipe; 7. and (6) positioning the window.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments. The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to practitioners skilled in this art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Example 1

Referring to fig. 1-5, the present invention provides a technical solution: a nano hydrogen-rich water raw material oscillation mixing device, which comprises,

the clamping device comprises a base 1, wherein the base 1 is provided with a fixed base and a clamping rod 2 arranged at the top of the base 1, a controller 3 is fixedly connected to the position, far away from the base 1, of the clamping rod 2, a positioning clamping plate 4 is fixedly connected to the bottom of the controller 3, and the bottom of the positioning clamping plate 4 is fixedly connected with the base 1;

top cap 5, top cap 5 has the feed liquor pipe, and install the mixing drum 6 at 5 internal surfaces of top cap, the outer fixed surface of mixing drum 6 is connected with position finding window 7, the surface bottom and the 4 fixed connection of location cardboard of mixing drum 6, the bottom of mixing drum 6 extends to the inside of base 1, cooperate through top cap 5 and mixing drum 6, make top cap 5 block the raw materials that splashes in the mixing process, and position finding window 7 can fix a position the raw materials quantity that feed pipe interpolation was gone up to top cap 5 on mixing drum 6, prevent that the inside interpolation raw materials of mixing drum 6 is too much to influence follow-up mixing efficiency, location cardboard 4 contacts mixing drum 6 on base 1, make it can utilize the mounted position of location cardboard 4 to mixing drum 6 to seal at the in-process of installation, the joint pole 2 cooperates with location cardboard 4 on base 1, can carry out spacing fixed to controller 3, the problem of skew has been avoided controller 3 to appear, mixing drum 6 includes:

the device comprises a cylinder body 61, wherein the cylinder body 61 is provided with a sealing ring and a cleaning frame 62 arranged at the top of the inner surface of the cylinder body 61, the bottom of the inner surface of the cylinder body 61 is connected with a filter frame 66 in a sliding way, the bottom of the cylinder body 61 is communicated with a drain pipe 67, and the outer surface of the cylinder body 61 is communicated with a protective box 65;

stirring frame 63, stirring frame 63 has driving motor, and install ultrasonic oscillation generator 64 at the stirring frame 63 surface, the surface bottom of stirring frame 63 rotates with filter frame 66 and is connected, the bottom of stirring frame 63 extends to the outside of barrel 61, it is rotatory along with driving motor's drive inside barrel 61 through stirring frame 63, make it stir the raw materials at rotatory in-process, and when stirring frame 63 stirs and stops, ultrasonic oscillation generator 64 above that works, make barrel 61 rock, and drive inside rivers and wash the raw materials of barrel 61 inner wall adhesion at gliding in-process, be convenient for the raw materials to remove again, can carry out the secondary stirring to barrel 61 inside along with stirring frame 63 is rotatory again, the homogeneity of the inside raw materials of barrel 61 has further been improved, filter frame 66 can filter the raw materials after mixing and discharge the mixed rivers of mixing through drain pipe 67, simultaneously clearance frame 62 can clear up the inside barrel 61 when rivers discharge or stirring frame 63 stops to rotate, and then improve the inside homogeneity of barrel 61, the inside of barrel 61 has been reduced the influence of the inside because of adhesion, the raw materials is enough to produce the mixed raw materials, it is convenient for the mixed inside to mix the barrel 61.

Wherein, the cleaning frame 62 comprises a fixed ring 621, the bottom of the fixed ring 621 is fixedly connected with an electric push rod 624, the bottom of the outer surface of the electric push rod 624 is fixedly connected with a reinforced bracket 623, the bottom of the reinforced bracket 623 is fixedly connected with a cleaning sleeve 622, the electric push rods 624 uniformly distributed on the fixing ring 621 extend to drive the cleaning sleeve 622 to descend, so that the cleaning sleeve 622 wipes the cylinder body 61 when descending, thereby avoiding the situation that the raw materials are adhered to the inner wall of the cylinder body 61, and the raw materials falling after being cleaned can be mixed when rotating again along with the stirring frame 63, thereby improving the quality of the equipment for mixing the raw materials, simultaneously lifting the plurality of electric push rods 624, so that the cleaning sleeve 622 is not easy to incline to cause residual condition in the process of lifting in the vertical direction, an auxiliary element 625 is fixedly connected with the position of the reinforcing bracket 623 far away from the electric push rod 624, the bottom of the auxiliary element 625 is fixedly connected with the cleaning sleeve 622, the position of the reinforcing bracket 623 far away from the electric push rod 624 is connected with the auxiliary element 625, and is pressed by the auxiliary member 625 when in contact, so that the bottom of the reinforcing bracket 623 is at the same level with the electric push rod 624, and the auxiliary member 625 is positioned on the cleaning sleeve 622 and can be matched with the reinforcing bracket 623, therefore, the electric push rod 624 contacts the cleaning sleeve 622 together with the reinforcing bracket 623, and is connected with the cleaning sleeve 622 through the reinforcing bracket 623, so that the reinforcing bracket 623 is convenient to reinforce the installation position of the electric push rod 624 on the cleaning sleeve 622, thereby increasing the moving stability of the cleaning sleeve 622, avoiding the loosening of the cleaning sleeve 622 caused by the gap between the cleaning sleeve 622 and the electric push rod 624, and the reinforcing bracket 623 can support the auxiliary element 625, and the bearing capacity of the auxiliary element 625 is further increased, and the bottom end of the electric push rod 624 is fixedly connected with the cleaning sleeve 622.

Wherein, the protective box 65 comprises a position limiting sleeve 652, a sealing box body 651 is fixedly connected to the outer surface of the position limiting sleeve 652, an inner supporting body 655 is fixedly connected to the position of the sealing box body 651 far away from the position limiting sleeve 652, a movable plate 653 is fixedly connected to the inner surface of the position limiting sleeve 652, the position of the sealing box body 651 close to the movable plate 653 extends to the inside of the position limiting sleeve 652, the movable plate 653 is uniformly distributed in the position limiting sleeve 652 through the movable plate 653, so that the position limiting sleeve 652 can transmit the shaking generated by the barrel 61 through the sealing box body 651 to enable the movable plate 653 to extend and retract, the movable plate 653 has a double-layer body and can slide in the position limiting sleeve 652, the movable plate 653 gradually extends out of the position limiting sleeve 652 along with the shaking transmitted by the barrel 61, and the plugging cylinder 654 extrudes the extended movable plate 653 when plugging is performed, the movable plate 653 is contracted by a pushing force generated when the blocking cylinder 654 is blocked to gradually return to the initial position, the movable plate 653 can be in contact with the blocking cylinder 654 after being extended, the limiting sleeve 652 can protect the blocking cylinder 654 on the sealing box body 651, and therefore the situation that water leakage is not prone to occurring inside the sealing box body 651 is guaranteed.

Wherein, the filter frame 66 includes the assembly ring 662, the top of the assembly ring 662 is fixedly connected with the elastic arc plates 663, the top of the elastic arc plates 663 is fixedly connected with the filter screen disc 661, the elastic arc plates 663 are uniformly distributed on the filter screen disc 661, so that the filter screen disc 661 can be supported, and the large raw material inside the cylinder 61 is intercepted by the filter screen disc 661, thereby preventing the raw material from falling off from the filter screen disc 661, and the filter screen disc 661 can be inclined and extrude the elastic arc plates 663 when the pressure of the water flow is too large, so that the movable space between the filter screen disc 661 and the cylinder 61 is subjected to the circulation of the water flow, the inner surface of the filter screen disc 661 is fixedly connected with the guide sleeve 664, both ends of the guide sleeve 664 extend to the outside of the filter screen disc 661, the guide sleeve 664 is contacted with the filter screen disc through the guide sleeve 664, so that the guide sleeve 664 seals the mounting position of the agitator frame 63 inside the cylinder 61, so that the mounting position of the guide sleeve 664 has good sealing performance, thereby reducing the friction of the raw material entering the guide sleeve 664, and leading to the increase of the friction force of the rotary agitator frame and the guide screen disc 664, and limiting the filter screen disc is connected with the guide screen disc 663.

When in use, raw materials are added into the cylinder 61 through the feeding pipe of the top cover 5, the clamping rod 2 fixes the controller 3 on the base 1 on the positioning clamping plate 4, the raw materials added into the cylinder 61 are observed on the positioning window 7, then the driving motor in the base 1 is started through the controller 3, the driving motor drives the stirring frame 63 to rotate and stir in the cylinder 61, the ultrasonic oscillation generator 64 is driven to rotate in the stirring process, when the stirring frame 63 stops, the ultrasonic oscillation generator 64 works in the cylinder 61, the stirring frame 63 rotates again along with the driving of the driving motor after the ultrasonic oscillation generator 64 stops, the mixed water flows through the filter screen disc 661 to fall after being stirred uniformly, and the mixed water is discharged from the water discharge pipe 67 used by the cylinder 61, the stirring frame 63 is in contact with the guide sleeve 664 when rotating, when water flow is discharged and the inside of the cylinder body 61 is cleaned, cleaning water flow is added through the top cover 5, the electric push rod 624 on the fixing ring 621 extends to drive the cleaning sleeve 622 to descend along with the direction, so that the cleaning sleeve 622 can clean the cylinder body 61, and the filter screen disk 661 is extruded to incline when being in contact with the cleaning water flow, so that a movable space is generated between the filter screen disk 661 and the cylinder body 61, the inclined filter screen disk 661 extrudes the elastic arc plates 663 on the assembling ring 662 to shrink, the sealing box body 651 is shaken by the ultrasonic oscillation generator 64 transmitted through the cylinder body 61, the movable plate 653 on the limiting sleeve 652 is made to expand and contract, and the sealing box body 651 can be opened and closed to observe the inside of the opening and closing structure extruded by the inner support body 655.

Example 2:

referring to fig. 6-8, based on embodiment 1, the present invention provides a technical solution: the auxiliary member 625 includes a boosting rod 73, the outer surface of the boosting rod 73 is rotatably connected with a swing block 72, two ends of the boosting rod 73 are fixedly connected with mounting rods 75, the top end of the mounting rod 75 is fixedly connected with an auxiliary casing 74, the bottom end of the mounting rod 75 penetrates through the auxiliary casing 74 and extends to the outside of the auxiliary casing 74, and the mounting rods 75 are mounted on the mounting rods 75 through the boosting rod 73, so that the swing blocks 72 uniformly distributed on the boosting rod 73 can swing along with the cleaning sleeve 622 when ascending and descending, and the swing blocks 72 impact the inside of the auxiliary casing 74 in the swinging process, so that the swing blocks 72 transmit vibration force through the auxiliary casing 74 to drop residual raw materials on the surface of the cleaning sleeve 622 in the collision process, further the surface cleanness of the cleaning sleeve 622 is improved, and the swing blocks 72 can support the inside of the auxiliary casing 74 when swinging on the boosting rod 73, so as to increase the bearing force of the auxiliary casing 74, the position of the auxiliary casing 74 far away from the mounting rods 75 is fixedly connected with the sealing covers 74, a movable space can be generated through the connection between the sealing covers 74 and the sealing covers 71, so that the sealing covers 61 are not easy to fall off from the auxiliary casing 74, and the sealing cover can not easily move, and the problem that the auxiliary casing 74 and the auxiliary casing 74 can not easily occur, and the sealing cover can easily fall along with the mounting rod 75.

Wherein, the plugging cylinder 654 comprises a pushing frame 84, an assembling sleeve 85 is fixedly connected to the outer surface of the pushing frame 84, a mounting plate 81 is fixedly connected to the position of the assembling sleeve 85 far away from the pushing frame 84, the inside of the assembling sleeve 85 and the mounting plate 81 generate a movable space for separating and protecting the inside, so that the mounting plate 81 drives the assembling sleeve 85 to be fixed inside the sealed box body 651, the mounting plate 81 can move inside the spacing sleeve 652, the spacing sleeve 652 utilizes a movable plate 653 to limit the moving range of the sealed box body 651, the assembling sleeve 85 can contact the inner support 655 when moving along with the mounting plate 81, the movable plate 653 and the inner support 655 are matched to stop movement and support each other, the sliding end 82 is slidably connected to a position of the mounting plate 81 close to the assembly sleeve 85, the position of the sliding end 82 far away from the mounting plate 81 is rotatably connected with the limiting inclined plate 83, the position of the limiting inclined plate 83 far away from the sliding end 82 is fixedly connected with the pushing frame 84, the pushing piece on the pushing frame 84 is driven by electric power to move the sliding end 82 through the limiting inclined plate 83, the opening and closing of the flow position of water flow can be controlled when the sliding end 82 moves, the limiting inclined plate 83 inclines under the impact of the water flow when the sliding end 82 is opened, and therefore the mounting plate is matched with the assembly sleeve 85 to generate a space for water flow.

Wherein, the movable frame 665 includes activity ring 95, the bottom fixedly connected with backup pad 94 of activity ring 95, solid block 93 in the bottom fixedly connected with of backup pad 94, have the spring on through activity ring 95, and the spring is connected with filter screen dish 661, be convenient for activity ring 95 can carry out the micro-displacement on filter screen dish 661, make filter screen dish 661 extrude activity ring 95 when inclining, evenly distributed has backup pad 94 on the activity ring 95, make it remove along with the slope of activity ring 95, be convenient for transmit the pressure that activity ring 95 received, can utilize backup pad 94 to increase the area of contact of activity ring 95 along with the removal of activity ring 95, the bottom of well solid block 93 rotates and is connected with displacement plate 92, the top of displacement plate 92 runs through well solid block 93 and transports the inside of well solid block 93, the bottom of displacement plate 92 rotates and is connected with expansion plate 91, move when receiving the pressure of well solid block 93 through expansion plate 91, well solid block 93 receives the pressure that activity ring 95 inclined on backup pad 94, make expansion plate 91 promote the contact with the inside of displacement plate 92, contact plate 91 when contact with the assembly ring 662 and contact with the expansion plate 662 when the pressure that the expansion plate is adjusted, the contact plate is still can be convenient for the contact with the expansion plate, the contact plate is adjusted when the contact plate is received the pressure that the expansion plate is carried out the slope, the contact with the expansion plate 92, the expansion plate is carried out.

When the auxiliary cleaning device is used, when the cleaning sleeve 622 is lifted vertically along with the electric push rod 624, the auxiliary shell 74 and the sealing cover 71 generate a moving space, the mounting rod 75 mounts the auxiliary shell 74 on the reinforcing support 623 on the cleaning sleeve 622, the boosting rod body 73 on the mounting rod 75 drives the swing block 72 to swing along with the movement of the cleaning sleeve 622 to collide with the auxiliary shell 74, the filter screen disc 661 is pressed by the spring on the movable ring 95, the movable ring 95 tilts along with the filter screen disc 661, the support plate 94 is pressed when the movable ring 95 tilts, the support plate 94 drives the displacement plate 92 to move through the middle fixing block 93, the expansion plate 91 can be driven to contact with the mounting ring 662 when the displacement plate 92 moves, the expansion plate 91 can be contracted when being subjected to the pressure of the mounting ring 662, the moving space generated by the mounting disc 81 and the mounting sleeve 85 can move on the limiting sleeve 652, the pushing block of the movable plate on the limiting sleeve 652 when moving, the pushing frame 84 is driven by electric power to push the limiting inclined plate 83 to move, the sliding end 82 drives the sliding end of the sliding plate 81 to move on the limiting sleeve 82, and the sliding end 82 moves on the inclined mounting sleeve 82, and the sliding end 82 when the sliding sleeve 92 moves.

Example 3:

referring to fig. 1-8, on the basis of embodiments 1 and 2, the present invention provides a technical solution: a use method of oscillation mixing equipment for a nanometer hydrogen-rich water raw material comprises the following steps: raw materials are conveyed to the interior of the cylinder body 61 from a water inlet pipe arranged on the top cover 5, a driving motor in the base 1 drives the stirring frame 63 to rotate in the cylinder body 61, and the stirring frame 63 drives a plurality of ultrasonic oscillation generators 64 arranged on the stirring frame 63 to rotate together when rotating;

step two: the clamping rod 2 fixes the controller 3 on the positioning clamping plate 4 on the base 1, the positioning window 7 is used for contact positioning observation of the added raw materials, the stirring frame 63 rotates through the guide sleeve 664 along with the uniform stirring of the raw materials by the stirring frame 63, the filter screen disc 661 filters the mixed raw materials, and the ultrasonic oscillation generator 64 works on the stirring frame 63 when the stirring is stopped;

step three: the raw materials fall through the filter screen disk 661 after being mixed, and then are discharged out of the cylinder 61 through the water discharge pipe 67, the electric push rods 624 uniformly distributed on the fixing ring 621 extend to drive the cleaning sleeve 622 to fall, and contact and wipe the cylinder 61 along with the movement of the cleaning sleeve 622, and the auxiliary shell 74 on the cleaning sleeve 622 is fixed on the reinforcing support 623 through the mounting rod 75;

step four: the boosting rod body 73 is arranged on the mounting rod 75, and is lifted in the vertical direction along with the cleaning sleeve 622, so that the swinging block 72 is driven to rotate on the boosting rod body 73 to impact the auxiliary shell 74, and the vibration generated by the impact is transmitted by the auxiliary shell 74 and the movable cavity generated by the sealing cover 71;

step five: the stirred raw materials extrude the filter screen disc 661 by the weight of the raw materials, so that the filter screen disc 661 inclines on the guide sleeve 664 to extrude the elastic arc plate 663, the movable ring 95-year-old filter screen disc 661 inclines to extrude the support plate 94, the support plate 94 pushes the displacement plate 92 to move through the middle fixed block 93, and the displacement plate 92 pushes the telescopic plate 91 to contact the position of the assembly ring 662 to contract;

step six: the limiting sleeve 652 extends into the cylinder 61, the sealing box body 651 seals the position of the limiting sleeve 652, which is located on the cylinder 61, the position of the sealing box body 651, which is located on the inner support body 655, is provided with a trivia structure, and the movable plates 653 uniformly distributed on the limiting sleeve 652 stretch along with the shaking of the cylinder 61 caused by the oscillation;

step seven: the connecting position of the plugging space generated by the assembling sleeve 85 and the mounting disc 81 is plugged, and the pushing piece arranged on the assembling sleeve 85 along with the pushing frame 84 is driven by electric power to move on the mounting disc 81 along with the extension through the limit sloping plate 83, so that the plugging effect is achieved.

It is to be understood that the described embodiments are merely a few embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by one of ordinary skill in this and related arts based on the embodiments of the present invention without creative efforts, shall fall within the protection scope of the present invention. Structures, devices, and methods of operation not specifically described or illustrated herein are generally practiced in the art without specific recitation or limitation.

Claims (9)

1. A nano hydrogen-rich water raw material oscillation mixing device, which comprises,

the base (1), the base (1) is provided with a fixed base and a top clamping rod (2) installed on the base (1), the position, far away from the base (1), of the clamping rod (2) is fixedly connected with a controller (3), the bottom of the controller (3) is fixedly connected with a positioning clamping plate (4), and the bottom of the positioning clamping plate (4) is fixedly connected with the base (1);

top cap (5), top cap (5) have the feed liquor pipe, and install mixing drum (6) of top cap (5) internal surface, the external fixed surface of mixing drum (6) is connected with position finding window (7), the surface bottom and the location cardboard (4) fixed connection of mixing drum (6), the bottom of mixing drum (6) extends to the inside of base (1), its characterized in that: the mixing drum (6) comprises:

the cleaning device comprises a barrel (61), wherein the barrel (61) is provided with a sealing ring and a cleaning frame (62) arranged at the top of the inner surface of the barrel (61), the bottom of the inner surface of the barrel (61) is connected with a filter frame (66) in a sliding mode, the bottom of the barrel (61) is communicated with a drain pipe (67), and the outer surface of the barrel (61) is communicated with a protection box (65);

stirring frame (63), stirring frame (63) have driving motor, and install ultrasonic oscillation generator (64) at stirring frame (63) surface, the surface bottom and the filter stand (66) of stirring frame (63) rotate to be connected, the bottom of stirring frame (63) extends to the outside of barrel (61).

2. The oscillation mixing device of a nanometer hydrogen-rich water raw material according to claim 1, characterized in that: clearance frame (62) are including solid fixed ring (621), the bottom fixedly connected with electric putter (624) of solid fixed ring (621), support (623) are consolidated to the surface bottom fixedly connected with of electric putter (624), the bottom fixedly connected with clearance cover (622) of consolidating support (623), the position fixedly connected with auxiliary member (625) of electric putter (624) are kept away from in consolidation support (623), the bottom and the clearance cover (622) fixed connection of auxiliary member (625), the bottom and the clearance cover (622) fixed connection of electric putter (624).

3. The oscillation mixing device of a nanometer hydrogen-rich water raw material according to claim 1, characterized in that: the protective box (65) comprises a limiting sleeve (652), a sealing box body (651) is fixedly connected to the outer surface of the limiting sleeve (652), an inner support body (655) is fixedly connected to the position, far away from the limiting sleeve (652), of the sealing box body (651), a movable plate (653) is fixedly connected to the inner surface of the limiting sleeve (652), the position, close to the movable plate (653), of the sealing box body (651) extends into the limiting sleeve (652), and a blocking cylinder (654) is fixedly connected to the position, close to the movable plate (653), of the sealing box body (651).

4. The oscillation mixing device of a nanometer hydrogen-rich water raw material according to claim 1, characterized in that: the filter frame (66) comprises an assembly ring (662), the top of the assembly ring (662) is fixedly connected with an elastic arc plate (663), the top of the elastic arc plate (663) is fixedly connected with a filter screen disc (661), the inner surface of the filter screen disc (661) is fixedly connected with a guide sleeve (664), two ends of the guide sleeve (664) extend to the outside of the filter screen disc (661), and the bottom of the filter screen disc (661) is located on two sides of the guide sleeve (664) and fixedly connected with a movable frame (665).

5. The oscillation mixing device of a nanometer hydrogen-rich water raw material according to claim 2, characterized in that: auxiliary member (625) are including the boosting body of rod (73), the surface rotation of the boosting body of rod (73) is connected with swing piece (72), both ends fixedly connected with installation pole (75) of the boosting body of rod (73), the supplementary shell (74) of top fixedly connected with of installation pole (75), the outside of supplementary shell (74) and extension to supplementary shell (74) is run through in the bottom of installation pole (75), the sealed lid (71) of position fixedly connected with of installation pole (75) is kept away from in supplementary shell (74).

6. The oscillation mixing device of a nanometer hydrogen-rich water raw material according to claim 3, characterized in that: the plugging cylinder (654) comprises a pushing frame (84), the outer surface of the pushing frame (84) is fixedly connected with an assembling sleeve (85), the position of the assembling sleeve (85), which is far away from the pushing frame (84), is fixedly connected with an installing disc (81), the position of the installing disc (81), which is close to the assembling sleeve (85), is slidably connected with a sliding end (82), the position of the sliding end (82), which is far away from the installing disc (81), is rotatably connected with a limiting inclined plate (83), and the position of the limiting inclined plate (83), which is far away from the sliding end (82), is fixedly connected with the pushing frame (84).

7. The oscillation mixing device for the nanometer hydrogen-rich water raw material according to claim 4, characterized in that: the adjustable frame (665) include activity ring (95), the bottom fixedly connected with backup pad (94) of activity ring (95), solid piece (93) in the bottom fixedly connected with of backup pad (94), the bottom rotation of well solid piece (93) is connected with displacement plate (92), the inside of solid piece (93) in solid piece (93) and transporting in running through in the top of displacement plate (92), the bottom rotation of displacement plate (92) is connected with expansion plate (91).

8. The oscillation mixing device of a nanometer hydrogen-rich water raw material according to claim 1, characterized in that: the position that barrel (61) was kept away from in drain pipe (67) runs through base (1) and extends to the outside of base (1), the top and top cap (5) sliding connection of clearance frame (62).

9. The oscillation mixing device of a nanometer hydrogen-rich water raw material according to claim 1, characterized in that: one side of the protective box (65) close to the stirring frame (63) runs through the barrel (61) and extends to the inside of the barrel (61), and the bottom of the protective box (65) is fixedly connected with the clamping rod (2).

Images