CN115779759A - High-heat-conductivity wear-resistant material and stirring and mixing process - Google Patents

Abstract

The invention discloses a high-heat-conductivity wear-resistant material and a stirring and mixing process, which comprises a mixing and stirring tank and a premixing mechanism, and relates to the technical field of high-heat-conductivity wear-resistant materials. This high heat conduction wear-resisting material's stirring mixing arrangement and technology, through set up intermittent type discharge mechanism and set up spray mechanism and set up anti-coagulation mechanism in the inside of adhesive storage box in the both sides of premixing mechanism and adhesive storage box between, make the inside material of mixing agitator tank when needing to add the binder, intermittent type discharge mechanism can be with the inside binder solution intermittent type filling of adhesive storage box to mixing agitator tank, and intermittent type discharge mechanism is when filling binder solution to mixing agitator tank inside intermittent type, can also be through the cooperation with spray mechanism and anti-coagulation mechanism, make the inside binder of adhesive storage box not only always can be in stirring state, and can also make the solution of filling demonstrate the circumference and spray.

Description

High-heat-conductivity wear-resistant material and stirring and mixing process

Technical Field

The invention relates to the technical field of high-heat-conductivity wear-resistant materials, in particular to a high-heat-conductivity wear-resistant material and a stirring and mixing process.

Background

The refractory castable is an unshaped refractory material which is most widely produced and used at present, and the application range of the castable is mainly used for constructing integral structures such as various heating furnace linings and the like, and certain high-quality varieties can also be used for smelting furnaces and the like.

Along with the improvement of the ratio of the unshaped refractory material in the refractory material, the refractory castable material is required to be developed rapidly, the increase of the variety and the quality are also required to be improved correspondingly, low cement, ultra-low cement and cement-free refractory castable materials are still developed mainly, homogenized and high-quality raw materials and special aggregate are selected according to resource conditions to improve the basic composition, fiber-reinforced refractory castable materials and free-flowing refractory castable materials are researched and popularized, various additives are applied to improve the performance of the refractory castable materials, in addition, special castable materials (such as iron runners, steel ladle linings and the like) are developed, and the characteristics of wear resistance, acid resistance, alkali resistance, high strength, heat insulation, high strength, high heat conductivity and the like after the castable materials are solidified can be improved by adding special functional materials into the raw materials. For example, CN201910963427.4, a high thermal conductivity and wear resistant material for a circulating fluidized bed boiler, which is made by adding extra materials into refractory materials to improve the thermal conductivity and wear resistance of the refractory materials.

In the prior art, no matter the material is a high-heat-conductivity wear-resistant material or a material with other properties, in the process of preparing the castable, mixing and stirring are inevitably needed, and the material is required to be mixed and stirred, corresponding stirring equipment is indispensable, and in order to facilitate the closer combination between the material and the material, a binder is also needed to be added into the material in the process of preparing the material by the stirring equipment; (2) The problem that the filling range of the adhesive is limited due to the fact that the adhesive is filled by a pipeline only because an adhesive spraying mechanism is lacked; (3) The stirring device is lack of a binder stirring device, so that the binder is partially condensed due to lack of stirring in the using process of the binder, and in order to avoid the problem, a stirring and mixing device and a process of a high-heat-conductivity wear-resistant material are provided to solve the existing problem.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a stirring and mixing device and a process for a high-heat-conductivity wear-resistant material, and solves the problems that when a stirring device is lack of an adhesive intermittent feeding device, an adhesive uniform spraying mechanism and an adhesive stirring facility, the adhesive is easy to be added into the stirring device, the local addition concentration of the adhesive is large, the adhesive adding range is limited, and the adhesive is locally condensed in the using process.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a high heat conduction wear-resistant material's stirring mixing arrangement, includes mixing agitator tank and premixing mechanism, and mixes the mechanism and set up in mixing agitator tank's top in advance, mix the mechanism including mixing frame and driving motor in advance, it all sets up in mixing agitator tank's top through the support is fixed to mix frame and driving motor in advance, driving motor's output shaft passes through shaft coupling fixedly connected with axis of rotation, and the one end of axis of rotation runs through and extends to mixing agitator tank's rear side, the surface of axis of rotation just is located the first puddler of a plurality of fixedly connected with of inside of mixing frame, mixing agitator tank's both sides all are rotated through the bearing and are connected with the (mixing) shaft, and the one end of (mixing) shaft runs through and extend to mixing agitator tank's inside, the surface of (mixing) shaft just is located a plurality of second puddler of the inside fixedly connected with of mixing agitator tank's inside fixedly connected with, be provided with drive mechanism between (mixing) shaft and the premixing mechanism, the rear side fixedly connected with adhesive storage box, the equal fixedly connected with delivery pump in both sides of adhesive storage box, the intercommunication of adhesive storage box and delivery pump has the feed liquor pipe, the discharge mechanism's that condenses between the side and the delivery pump, the discharge mechanism sprays the discharge mechanism's both sides is provided with intermittent type discharge mechanism.

Preferably, intermittent type discharge mechanism includes an electric telescopic handle, an electric telescopic handle is fixed to be set up in the rear side of mixing agitator tank, the tip fixedly connected with slurcam of first electric telescopic handle extension end, the front side of adhesive storage box is connected with interior polygon through the bearing rotation and rotates the cover, and the one end of interior polygon rotation cover runs through and extends to the rear side of adhesive storage box, the front side of slurcam rotates through the bearing and is connected with the polygon bull stick, and the one end of polygon bull stick runs through and slides in the inside of interior polygon rotation cover, the surface of polygon bull stick just is located the rear side fixedly connected with rotation cam of adhesive storage box, the equal elastic sliding in both sides of adhesive storage box rear side is provided with the swash plate that matches with rotation cam and uses, the equal elastic sliding in both sides of adhesive storage box is provided with the fly leaf that matches with the swash plate and uses, the both sides of adhesive storage box all through support fixedly connected with the sleeve, the first reset spring of front side fixedly connected with of sleeve inner chamber, the one end fixedly connected with the telescopic link, and the trigger button that the fixed block used with the pump that matches with the polygon cutting ferrule.

Preferably, the spraying mechanism includes the backup pad, the backup pad is provided with two, the homonymy the backup pad is fixed to be set up in the front side of fly leaf, the bottom of going out the liquid pipe rotates through sealed bearing and is connected with the conveyer pipe, the bottom intercommunication of conveyer pipe has the shower, the fixed surface of conveyer pipe is connected with the rolling gear, one side fixedly connected with and the tooth stopper of rolling gear engaged with of backup pad, and tooth stopper equidistance array is provided with a plurality of.

Preferably, prevent that coagulation system includes the installation cover, the installation cover is fixed to be set up in the surface that interior polygon rotated the cover, the surface of installation cover and the inside fixedly connected with third puddler that is located the adhesive storage box, the third puddler is provided with a plurality of, and a plurality of third puddler is equidistance array setting.

Preferably, drive mechanism includes the live-rollers, the live-rollers is provided with two, and two live-rollers all rotate through the bearing and set up in the both sides of mixing agitator tank front side, two the first awl transmitting gear of the equal fixedly connected with of one end that the live-rollers are relative, the fixed surface of axis of rotation is connected with the second cone transmitting gear with first awl transmitting gear engaged with, the equal fixedly connected with drive pulley in surface of (mixing) shaft and live-rollers, homonymy two the transmission is connected with driving belt between the drive pulley.

Preferably, the both sides of premixing mechanism bottom all slide and are provided with the shutoff board, the both sides of mixing agitator tank inner chamber front side all are through support fixedly connected with second electric telescopic handle, homonymy the side fixed connection of extension end and shutoff board of second electric telescopic handle.

Preferably, first chutes are formed in two sides of the rear side of the adhesive storage box, first sliding blocks are connected to the inner portions of the first chutes in a sliding mode, the rear side of each first sliding block is fixedly connected with the front side of the inclined plate through a fixing block at the same side, and second reset springs are fixedly connected between the inner wall of the inner cavity of each first chute and one side of each first sliding block.

Preferably, second sliding grooves are formed in two sides of the adhesive storage box, a second sliding block is connected to the inner portion of each second sliding groove in a sliding mode, one side of the second sliding block on the same side is fixedly connected with the side face of the movable plate through a fixing block, and a third reset spring is fixedly connected between the front side of the second sliding block and the front side of the inner cavity of the second sliding groove.

The invention also discloses a stirring and mixing process of the high-thermal-conductivity wear-resistant material, which specifically comprises the following steps:

s1, when the adhesive mixing box is used, an operator firstly injects a proper amount of solution into an adhesive storage box, then a plurality of raw materials are put into a premixing frame together, then a driving motor is started, the driving motor drives a first stirring rod to stir and premix a plurality of raw materials in the premixing frame through a rotating shaft, after premixing is finished, the operator starts a second electric telescopic rod, after the second electric telescopic rod is started, the extending end of the second electric telescopic rod is contracted and linked with a blocking plate to be pulled out from the bottom of the premixing frame, after the blocking plate is pulled out, premixed materials in the premixing frame fall into the mixing stirring box, then a proper amount of clean water source is injected into the mixing stirring box, at the moment, the blocking plate is reset, next-time mixed materials are added into the premixing frame again for premixing, and then the driving motor drives the rotating shaft and the first stirring rod to premix materials in the premixing frame, and the rotating shaft can also be meshed with a first bevel rotating gear through a second bevel rotating gear, so that a rotating roller transmission belt pulley and the second stirring rod can drive the stirring shaft to stir and mix the materials in the mixing box and the water source; s2, when the materials are mixed and prepared by adding a bonding agent and a solution, an operator firstly stops the operation of the driving motor, then the operator rotates the polygonal rotating rod, the unique appearance of the polygonal rotating rod can continuously displace after the polygonal rotating rod rotates, when the angular rotation of the polygonal rotating rod is matched with the inner polygonal clamping sleeve fixed at the end part of the rotating shaft, the operator starts the first electric telescopic rod, the extension end of the first electric telescopic rod contracts after the first electric telescopic rod is started, the first electric telescopic rod can drive the polygonal rotating rod to move forwards through the pushing plate when contracting and moving, when the extension end of the first electric telescopic rod contracts to reach the limit, the polygonal rotating rod can finally move to the inner part of the inner polygonal clamping sleeve, and when the polygonal rotating rod moves to the inner part of the inner polygonal clamping sleeve, the rotating cam on the surface of the polygonal rotating rod can finally move to a position between the two inclined plates, then, a driving motor is continuously started, after the driving motor is started, a rotating shaft is in butt joint with a polygonal rotating rod through an inner polygonal cutting sleeve, the polygonal rotating rod is linked to rotate, a rotating cam is driven to rotate when the polygonal rotating rod rotates, convex edges of the rotating cam continuously press inclined plates on two sides of the rear side of an adhesive storage box in a reciprocating mode when the rotating cam rotates, the inclined plates can move transversely after being extruded, the inclined plates can be in contact with a movable plate when moving and press the movable plate in a reciprocating mode when being extruded, the movable plate can continuously move forwards in a reciprocating mode when being extruded, a trigger button can be continuously pressed in a reciprocating mode when moving forwards, a conveying pump can be started after the trigger button is stressed and triggered, and after the conveying pump is started, the solution in the adhesive storage box can be conveyed to the interior of a liquid outlet pipe, and the solution is intermittently added to the interior of a mixing and stirring box through the liquid outlet pipe; secondly, the movable plate can drive the supporting plate to move when moving, the supporting plate can drive the tooth limiting blocks to move when moving, the tooth limiting blocks can be meshed with the rotating gears when moving, and the rotating gears can drive the spray pipes to spray rotationally through the conveying pipes when being meshed with the tooth limiting blocks; secondly, the polygon bull stick rotates the agreeing with of cover inner chamber through self unique appearance and interior polygon at the rotation in-process still, and the polygon rotates the cover in the linkage and rotates, and installation cover and the third puddler that its fixed surface set up can rotate rather than linking when interior polygon rotates the cover rotation, can continuously stir the inside solution of adhesive storage box when the third puddler rotates.

Preferably, the guide way has all been seted up to the both sides of mixing agitator tank inner chamber front side in S1, and the inside sliding connection of guide way has the guide block, the front side fixed connection of homonymy guide block rear side and shutoff board, the second electric telescopic handle extension end can pass through when the shrink removes and together drive the shutoff board with guide way and guide block sliding fit and remove, stability when improving the shutoff board and removing.

Further, the high-thermal-conductivity wear-resistant material is prepared by the stirring and mixing process of the high-thermal-conductivity wear-resistant material.

The invention provides a stirring and mixing device and a stirring and mixing process for a high-heat-conductivity wear-resistant material. Compared with the prior art, the method has the following beneficial effects:

(1) According to the stirring and mixing device for the high-heat-conductivity wear-resistant material, the intermittent discharging mechanism is arranged between the premixing mechanism and the adhesive storage box, the spraying mechanisms are arranged on two sides of the adhesive storage box, the anti-condensation mechanism is arranged in the adhesive storage box, when the adhesive is required to be added to the material in the mixing and stirring box, the intermittent discharging mechanism can be in butt joint with the premixing mechanism, the adhesive solution in the adhesive storage box can be intermittently injected into the mixing and stirring box by the intermittent discharging mechanism, the intermittent discharging mechanism can be used for intermittently injecting the adhesive solution into the mixing and stirring box, the synergistic effect of the spraying mechanism and the anti-condensation mechanism can be realized, the adhesive in the adhesive storage box can be in a stirring state all the time, the injected solution can be circumferentially sprayed, the problems that the local injection concentration of the adhesive is too high and the injection range of the adhesive is limited when the adhesive is injected by the conventional stirring equipment are avoided, the integral material is not in full contact with the adhesive, and the stirring equipment is lack of the adhesive stirring facility, so that the local stirring of the adhesive can be caused in the using process.

(2) This stirring mixing arrangement of high heat conduction wear-resisting material sets up the slurcam through the end fixing at first electric telescopic handle for the polygon bull stick that the slurcam front side set up can extend the shrink of end through first electric telescopic handle, make things convenient for it to agree with and break away from with interior polygon cutting ferrule, through the nimble agreement and the breaking away from of polygon bull stick and interior polygon cutting ferrule, make the interpolation and the stop process of mixing the inside binder solution of agitator tank, can conveniently switch.

(3) This high heat conduction wear-resistant material's stirring mixing arrangement sets up through the top at mixing agitator tank and mixes the mechanism in advance to set up drive mechanism between mixing mechanism and (mixing) shaft, make mixing agitator tank when stirring the material through (mixing) shaft and second puddler, can also will carry out the preliminary mixing in advance to the next material through mixing the mechanism in advance, thereby reduce the stirring of next material and use the time.

(4) This high heat conduction wear-resistant material's stirring mixing arrangement slides through the both sides in frame bottom in advance and sets up the shutoff board and be connected the shutoff board with second electric telescopic handle for the frame in advance can be through the drive of second electric telescopic handle to the shutoff board, can fall the inside of mixing the agitator tank fast with the material that mixes in advance inside the frame.

Drawings

FIG. 1 is an external view of the present invention;

FIG. 2 is a side view of the mixing and agitation tank configuration of the present invention;

FIG. 3 is an enlarged view of a portion of the invention at A in FIG. 2;

FIG. 4 is a bottom view of the mixing and agitation tank configuration of the present invention;

FIG. 5 is a top view of the internal structure of the adhesive storage case of the present invention;

FIG. 6 is a side view of the internal structure of the adhesive storage case of the present invention;

FIG. 7 is an expanded view of the internal structure of the sleeve of the present invention;

FIG. 8 is a schematic view of the spray mechanism configuration of the present invention;

FIG. 9 is a bottom view of the premix frame construction of the present invention;

FIG. 10 is a rear view of an adhesive storage bin construction of the present invention;

FIG. 11 is an enlarged view of a portion of the invention at B in FIG. 10;

fig. 12 is an enlarged view of a portion of the invention at C in fig. 10.

In the figure: 1. a mixing and stirring box; 2. a premixing mechanism; 201. a pre-mixing frame; 202. a drive motor; 203. a rotating shaft; 204. a first stirring rod; 3. a stirring shaft; 4. a second stirring rod; 5. a transmission mechanism; 501. a moving roller; 502. a first bevel rotation gear; 503. a second bevel rotating gear; 504. a drive pulley; 505. a drive belt; 6. an adhesive storage bin; 7. a delivery pump; 8. a liquid inlet conduit; 9. a liquid outlet conduit; 10. an intermittent discharging mechanism; 101. a first electric telescopic rod; 102. a push plate; 103. an inner polygonal rotating sleeve; 104. a polygonal rotating rod; 105. rotating the cam; 106. a sloping plate; 107. a movable plate; 108. a sleeve; 109. a first return spring; 1011. a telescopic rod; 1012. a trigger button; 1013. an inner polygonal cutting sleeve; 11. a spraying mechanism; 111. a support plate; 112. a delivery pipe; 113. a shower pipe; 114. a rotating gear; 115. a tooth limiting block; 12. an anti-condensation mechanism; 121. installing a sleeve; 122. a third stirring rod; 13. a plugging plate; 14. a second electric telescopic rod; 15. a first chute; 16. a first slider; 17. a second return spring; 18. a second chute; 19. a second slider; 20. and a third return spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

Referring to fig. 1-12, the present invention provides a technical solution: a stirring and mixing device for high-heat-conductivity wear-resistant materials comprises a mixing and stirring box 1 and a premixing mechanism 2, wherein the premixing mechanism 2 is arranged at the top of the mixing and stirring box 1, the premixing mechanism 2 comprises a premixing frame 201 and a driving motor 202, the premixing frame 201 and the driving motor 202 are fixedly arranged at the top of the mixing and stirring box 1 through a support, plugging plates 13 are arranged at two sides of the bottom of the premixing mechanism 2 in a sliding manner, two sides of the front side of an inner cavity of the mixing and stirring box 1 are fixedly connected with second electric telescopic rods 14 through supports, the extending ends of the second electric telescopic rods 14 at the same side are fixedly connected with the side faces of the plugging plates 13, an output shaft of the driving motor 202 is fixedly connected with a rotating shaft 203 through a coupler, and one end of the rotating shaft 203 penetrates through and extends to the rear side of the premixing frame 201, a plurality of first stirring rods 204 are fixedly connected to the surface of the rotating shaft 203 and positioned in the premixing frame 201, stirring shafts 3 are rotatably connected to two sides of the mixing and stirring box 1 through bearings, one end of each stirring shaft 3 penetrates through and extends into the mixing and stirring box 1, a plurality of second stirring rods 4 are fixedly connected to the surface of each stirring shaft 3 and positioned in the mixing and stirring box 1, a transmission mechanism 5 is arranged between each stirring shaft 3 and the premixing mechanism 2, an adhesive storage box 6 is fixedly connected to the rear side of the mixing and stirring box 1, conveying pumps 7 are fixedly connected to two sides of each adhesive storage box 6, a liquid inlet conduit 8 is communicated between the side surface of each adhesive storage box 6 and the inlet end of each conveying pump 7, and a liquid outlet conduit 9 is communicated with the outlet end of each conveying pump 7;

as a detailed explanation: the transmission mechanism 5 comprises two rotating rollers 501, the two rotating rollers 501 are arranged on two sides of the front side of the mixing and stirring box 1 in a rotating mode through bearings, the first bevel rotating gear 502 is fixedly connected to one end, opposite to the two rotating rollers 501, of the rotating shaft 203, the second bevel rotating gear 503 meshed with the first bevel rotating gear 502 is fixedly connected to the surface of the rotating shaft 203, the transmission belt pulleys 504 are fixedly connected to the surfaces of the stirring shaft 3 and the rotating rollers 501, and the transmission belt 505 is connected between the two transmission belt pulleys 504 on the same side in a transmission mode.

As a preferred embodiment, in order to enable the adhesive to be intermittently filled into the mixing and stirring tank 1, an intermittent discharging mechanism 10 is disposed between the adhesive storage tank 6 and the premixing mechanism 2, the intermittent discharging mechanism 10 includes a first electric telescopic rod 101, the first electric telescopic rod 101 is fixedly disposed at the rear side of the mixing and stirring tank 1, a pushing plate 102 is fixedly connected to the end of the extending end of the first electric telescopic rod 101, an inner polygonal rotating sleeve 103 is rotatably connected to the front side of the adhesive storage tank 6 through a bearing, one end of the inner polygonal rotating sleeve 103 penetrates and extends to the rear side of the adhesive storage tank 6, a polygonal rotating rod 104 is rotatably connected to the front side of the pushing plate 102 through a bearing, one end of the polygonal rotating rod 104 penetrates and slides inside the inner polygonal rotating sleeve 103, a rotating cam 105 is fixedly connected to the surface of the polygonal rotating rod 104 and located at the rear side of the adhesive storage tank 6, and inclined plates 106 used in cooperation with the rotating cam 105 are elastically slidably disposed at both sides of the rear side of the adhesive storage tank 6;

as a detailed explanation: the two sides of the rear side of the adhesive storage box 6 are both provided with first sliding grooves 15, the interior of each first sliding groove 15 is connected with a first sliding block 16 in a sliding mode, the rear side of the first sliding block 16 on the same side is fixedly connected with the front side of the inclined plate 106 through a fixing block, and a second return spring 17 is fixedly connected between the inner wall of the inner cavity of each first sliding groove 15 and one side of each first sliding block 16;

movable plates 107 matched with the inclined plates 106 are arranged on two sides of the adhesive storage box 6 in a sliding mode;

as a detailed explanation: the two sides of the adhesive storage box 6 are both provided with a second sliding chute 18, the inside of the second sliding chute 18 is connected with a second sliding block 19 in a sliding manner, one side of the second sliding block 19 on the same side is fixedly connected with the side surface of the movable plate 107 through a fixed block, and a third return spring 20 is fixedly connected between the front side of the second sliding block 19 and the front side of the inner cavity of the second sliding chute 18;

the both sides of adhesive storage box 6 all are through support fixedly connected with sleeve 108, the first reset spring 109 of front side fixedly connected with of sleeve 108 inner chamber, the one end fixedly connected with telescopic link 1011 of first reset spring 109, and the one end of telescopic link 1011 extends to the outside of sleeve 108, the one end of telescopic link 1011 is provided with the trigger button 1012 who matches and use with delivery pump 7 through the fixed block is fixed, the one end fixedly connected with that the axis of rotation 203 extends to premixing frame 201 rear side and the interior polygon cutting ferrule 1013 of polygon bull stick 104 looks adaptation.

As a preferred embodiment, in order to make the spraying range of the adhesive agent larger and the spraying effect more uniform, two sides of the intermittent discharging mechanism 10 are provided with the spraying mechanisms 11, each spraying mechanism 11 includes two supporting plates 111, the supporting plates 111 on the same side are fixedly arranged on the front side of the movable plate 107, the bottom of the liquid outlet conduit 9 is rotatably connected with a conveying pipe 112 through a sealed bearing, the bottom of the conveying pipe 112 is communicated with a spraying pipe 113, the surface of the conveying pipe 112 is fixedly connected with a rotating gear 114, one side of the supporting plate 111 is fixedly connected with a tooth limiting block 115 engaged with the rotating gear 114, and the tooth limiting blocks 115 are arranged in an equidistant array.

As a preferred embodiment, in order to prevent the solution inside the adhesive storage tank 6 from being locally coagulated, the intermittent discharge mechanism 10 is internally provided with an anti-coagulation mechanism 12, the anti-coagulation mechanism 12 includes an installation sleeve 121, the installation sleeve 121 is fixedly arranged on the surface of an inner polygonal rotating sleeve 103, a third stirring rod 122 is fixedly connected to the surface of the installation sleeve 121 and located inside the adhesive storage tank 6, the third stirring rod 122 is provided with a plurality of third stirring rods 122, and the plurality of third stirring rods 122 are arranged in an equidistant array.

The invention also discloses a stirring and mixing process of the high-thermal-conductivity wear-resistant material, which specifically comprises the following steps:

s1, when in use, an operator firstly injects a proper amount of solution into the inside of the adhesive storage box 6, then puts a plurality of raw materials into the inside of the premixing frame 201 together, then starts the driving motor 202, the driving motor 202 drives the first stirring rod 204 to stir and premix the plurality of raw materials in the premixing frame 201 through the rotating shaft 203 after being started, after the premixing is finished, the operator starts the second electric telescopic rod 14, the extending end of the second electric telescopic rod 14 retracts and is linked with the blocking plate 13 to be pulled out from the bottom of the premixing frame 201, the premixed materials in the premixing frame 201 fall into the mixing and stirring box 1 after the blocking plate 13 is pulled out, then injects a proper amount of clean water into the mixing and stirring box 1, at the moment, the blocking plate 13 is reset, next-time mixed materials are added into the premixing frame 201 again, the driving motor 202 drives the rotating shaft 203 and the first stirring rod 204 to premix the materials in the premixing frame 201, and the rotating shaft 203 can also mesh with the first bevel gear 502 through the second bevel gear 503 to enable the rotating roller 504 to mesh with the driving belt pulley 505 to mix the materials in the mixing and the second bevel gear 3 and mix the materials in the mixing and stirring box 1; s2, when the materials are mixed and prepared by adding the viscous solution, an operator firstly stops the operation of the driving motor 202, then rotates the polygonal rotating rod 104, the unique appearance of the polygonal rotating rod 104 can be continuously displaced after the polygonal rotating rod 104 rotates, when the angular rotation of the polygonal rotating rod 104 is matched with the inner polygonal cutting sleeve 1013 fixed at the end part of the rotating shaft 203, the operator starts the first electric telescopic rod 101, the extending end of the first electric telescopic rod 101 is contracted after the first electric telescopic rod 101 is started, the first electric telescopic rod 101 can drive the polygonal rotating rod 104 to move forwards through the push plate 102 when being contracted and moved, when the extending end of the first electric telescopic rod 101 is contracted to the limit, the polygonal rotating rod 104 can finally move into the inner polygonal cutting sleeve 1013, and when the polygonal rotating rod 104 moves into the inner polygonal cutting sleeve 1013, the rotating cam 105 on the surface of the polygonal rotating rod 104 can finally move between the two inclined plates 106, then, the driving motor 202 is continuously started, after the driving motor 202 is started, the rotating shaft 203 is in butt joint with the polygonal rotating rod 104 through the inner polygonal cutting sleeve 1013, so as to link the polygonal rotating rod 104 to rotate, the rotating cam 105 is driven to rotate when the polygonal rotating rod 104 rotates, the convex edge of the rotating cam 105 continuously and reciprocally presses the inclined plates 106 at two sides of the rear side of the adhesive storage box 6 when the rotating cam 105 rotates, the inclined plates 106 are squeezed and can move transversely, the inclined plates 106 are moved reciprocally when moving and are in contact with the movable plate 107, the movable plate 107 is squeezed and can continuously and reciprocally move forwards, during the forward and reciprocal movement of the movable plate 107, the trigger button 1012 is continuously and reciprocally pressed, after the trigger button is forced to trigger, the conveying pump 7 is started, the solution in the adhesive storage box 6 is conveyed to the interior of the liquid outlet pipe 9 after the conveying pump 7 is started, and intermittently adding the solution into the mixing and stirring box 1 through a liquid outlet conduit 9; secondly, the movable plate 107 can drive the supporting plate 111 to move when moving, the supporting plate 111 can drive the tooth limiting block 115 to move when moving, the tooth limiting block 115 can be engaged with the rotating gear 114 when moving, and when the rotating gear 114 is engaged with the tooth limiting block 115, the rotating gear 114 can drive the spray pipe 113 to rotate and spray through the conveying pipe 112; secondly, the polygon rotating rod 104 is matched with the inner cavity of the inner polygon rotating sleeve 103 through the unique shape of the polygon rotating rod and is linked with the inner polygon rotating sleeve 103 to rotate, the installation sleeve 121 and the third stirring rod 122 which are fixedly arranged on the surface of the inner polygon rotating sleeve 103 can be linked with the inner polygon rotating sleeve to rotate when the inner polygon rotating sleeve 103 rotates, and the third stirring rod 122 can continuously stir the solution in the adhesive storage box 6 when the third stirring rod 122 rotates.

Wherein, the guide way has all been seted up to the both sides of mixing agitator tank 1 inner chamber front side in S1, and the inside sliding connection of guide way has the guide block, the front side fixed connection of homonymy guide block rear side and shutoff board 13, and second electric telescopic handle 14 extends the end and can pass through and guide way and guide block sliding fit together drive shutoff board 13 when the shrink removes and remove, improves the stability when shutoff board 13 removes.

Claims (10)

1. The utility model provides a high heat conduction wear-resistant material's stirring mixing arrangement, is including mixing agitator tank (1) and premixing mechanism (2), and premixing mechanism (2) sets up in the top of mixing agitator tank (1), its characterized in that: premixing mechanism (2) is including premixing frame (201) and driving motor (202), premixing frame (201) and driving motor (202) all set up in the top of mixing agitator tank (1) through the support is fixed, the output shaft of driving motor (202) passes through shaft coupling fixedly connected with axis of rotation (203), and the one end of axis of rotation (203) runs through and extends to the rear side of premixing frame (201), the surface of axis of rotation (203) just is located inside fixedly connected with a plurality of first puddler (204) of premixing frame (201), the both sides of mixing agitator tank (1) all are connected with (mixing) shaft (3) through the bearing rotation, and the one end of (mixing) shaft (3) runs through and extends to the inside of mixing agitator tank (1), the surface of (mixing) just is located inside fixedly connected with a plurality of second puddler (4) of mixing agitator tank (1), be provided with drive mechanism (5) between (mixing shaft (3) and premixing mechanism (2), the rear side fixedly connected with adhesive storage box (6) of mixing effluent agitator tank (1), the both sides of adhesive storage box (6) all fixedly connected with the both sides of conveying pump (7), there is the intercommunication pipe (7) between inlet port (7) and the conveying pump (7), there is the delivery pipe (8), an intermittent discharging mechanism (10) is arranged between the adhesive storage box (6) and the premixing mechanism (2), spraying mechanisms (11) are arranged on two sides of the intermittent discharging mechanism (10), and an anti-condensation mechanism (12) is arranged inside the intermittent discharging mechanism (10).

2. The stirring and mixing device for high-thermal-conductivity wear-resistant materials as claimed in claim 1, wherein: the intermittent discharging mechanism (10) comprises a first electric telescopic rod (101), the first electric telescopic rod (101) is fixedly arranged at the rear side of the mixing and stirring box (1), the end part of the extending end of the first electric telescopic rod (101) is fixedly connected with a pushing plate (102), the front side of the adhesive storage box (6) is rotatably connected with an inner polygonal rotating sleeve (103) through a bearing, one end of the inner polygonal rotating sleeve (103) penetrates through and extends to the rear side of the adhesive storage box (6), the front side of the pushing plate (102) is rotatably connected with a polygonal rotating rod (104) through a bearing, one end of the polygonal rotating rod (104) penetrates through and slides in the inner polygonal rotating sleeve (103), the surface of the polygonal rotating rod (104) is fixedly connected with a rotating cam (105) at the rear side of the adhesive storage box (6), both sides of the rear side of the adhesive storage box (6) are both elastically and slidably provided with inclined plates (106) matched with the rotating cam (105), both sides of the adhesive storage box (6) are both elastically and slidably provided with inclined plates (107) used with the inclined plates (106), both sides of the adhesive storage box (6) are both sides are both fixedly connected with a movable plate support (108), a first return spring (109) is connected with one end of a return spring (109) of a first return sleeve (109), and the one end of telescopic link (1011) extends to the outside of sleeve (108), the one end of telescopic link (1011) is provided with trigger button (1012) that matches and use with delivery pump (7) through the fixed block, one end fixedly connected with that axis of rotation (203) extend to premixing frame (201) rear side and interior polygon cutting ferrule (1013) of polygon bull stick (104) looks adaptation.

3. The stirring and mixing device for high-thermal-conductivity wear-resistant materials as claimed in claim 1, wherein: spraying mechanism (11) is including backup pad (111), backup pad (111) is provided with two, the homonymy backup pad (111) is fixed to be set up in the front side of fly leaf (107), the bottom of going out liquid pipe (9) is rotated through sealed bearing and is connected with conveyer pipe (112), the bottom intercommunication of conveyer pipe (112) has shower (113), the fixed surface of conveyer pipe (112) is connected with rotating gear (114), one side fixedly connected with and rotating gear (114) engaged with tooth stopper (115) of backup pad (111), and tooth stopper (115) equidistance array is provided with a plurality of.

4. The stirring and mixing device for high-thermal-conductivity wear-resistant materials as claimed in claim 1, wherein: prevent mechanism (12) of condensing including installation cover (121), installation cover (121) are fixed to be set up in the surface that interior polygon rotated cover (103), the inside fixedly connected with third puddler (122) of installation cover (121) the surface and being located adhesive storage box (6), third puddler (122) are provided with a plurality of, and a plurality of third puddler (122) are the equidistance array setting.

5. The stirring and mixing device for high heat-conducting and wear-resistant materials as claimed in claim 1, wherein: drive mechanism (5) are including rotating roller (501), rotating roller (501) are provided with two, and two rotating roller (501) all rotate through the bearing and set up in the both sides of mixing agitator tank (1) front side, two the equal fixedly connected with first awl rotating gear (502) of one end that rotating roller (501) is relative, the surperficial fixedly connected with of axis of rotation (203) and the second cone rotating gear (503) of first awl rotating gear (502) engaged with, the equal fixedly connected with drive pulley (504) in surface of (mixing) shaft (3) and rotating roller (501), homonymy two the transmission is connected with drive belt (505) between drive pulley (504).

6. The stirring and mixing device for high-thermal-conductivity wear-resistant materials as claimed in claim 1, wherein: the two sides of the bottom of the premixing mechanism (2) are provided with plugging plates (13) in a sliding mode, the two sides of the front side of the inner cavity of the mixing and stirring tank (1) are fixedly connected with second electric telescopic rods (14) through supports, and the same side is fixedly connected with the extending ends of the second electric telescopic rods (14) and the side faces of the plugging plates (13).

7. The stirring and mixing device for high-thermal-conductivity wear-resistant materials as claimed in claim 2, wherein: first spout (15) have all been seted up to the both sides of adhesive storage box (6) rear side, the inside sliding connection of first spout (15) has first slider (16), the homonymy the front side fixed connection of fixed block and swash plate (106) is passed through to the rear side of first slider (16), fixedly connected with second reset spring (17) between first spout (15) inner chamber inner wall and first slider (16) one side.

8. The stirring and mixing device for high heat-conducting and wear-resistant materials as claimed in claim 2, wherein: second chutes (18) are formed in two sides of the adhesive storage box (6), second sliding blocks (19) are connected to the inner portions of the second chutes (18) in a sliding mode, one side of each second sliding block (19) is fixedly connected with the side face of the corresponding movable plate (107) through a corresponding fixed block, and third return springs (20) are fixedly connected between the front sides of the second sliding blocks (19) and the front sides of inner cavities of the second chutes (18).

9. A stirring and mixing process of a high-heat-conductivity wear-resistant material is characterized by comprising the following steps: the method specifically comprises the following steps:

s1, when in use, an operator firstly injects a proper amount of solution into an adhesive storage box (6), then puts a plurality of raw materials into a premixing frame (201) together, then starts a driving motor (202), the driving motor (202) drives a first stirring rod (204) to stir and premix a plurality of raw materials in the premixing frame (201) through a rotating shaft (203) after being started, after the premixing is finished, the operator starts a second electric telescopic rod (14), the extension end of the second electric telescopic rod (14) retracts and is linked with a plugging plate (13) to be pulled out from the bottom of the premixing frame (201), and the premixed materials in the premixing frame (201) fall into the mixing and stirring box (1) after the plugging plate (13) is pulled, then, a proper amount of clean water source is injected into the mixing and stirring box (1), at the moment, the plugging plate (13) is reset, the next mixture is added into the premixing frame (201) for premixing, then the driving motor (202) drives the rotating shaft (203) and the first stirring rod (204) to premix the materials in the premixing frame (201), and simultaneously the rotating shaft (203) can also drive the stirring shaft (3) and the second stirring rod (4) to drive the materials in the mixing and stirring box (1) and the second stirring rod (4) to be matched with each other through the transmission of the transmission belt pulley (504) and the transmission belt (505) through the meshing of the second bevel rotating gear (503) and the first bevel rotating gear (502) Stirring and mixing a water source; s2, when a viscous solution is required to be added for material mixing preparation, an operator firstly needs to pause the operation of the driving motor (202), then the operator rotates the polygonal rotating rod (104), the unique appearance of the polygonal rotating rod (104) can continuously shift after the polygonal rotating rod (104) rotates, when the angular rotation of the polygonal rotating rod (104) is inosculated with the inner polygonal cutting sleeve (1013) fixed at the end part of the rotating shaft (203), the operator starts the first electric telescopic rod (101), the extending end of the first electric telescopic rod (101) contracts after the first electric telescopic rod (101) contracts, the first electric telescopic rod (101) drives the polygonal rotating rod (104) to move forwards through the pushing plate (102) when contracting, and when the extending end of the first electric telescopic rod (101) contracts to reach the limit, the polygonal rotating rod (104) can move to the inside of the inner polygonal cutting sleeve (1013) finally, the polygonal rotating rod (104) moves to the inside of the inner polygonal cutting sleeve (1013), the rotating cam (105) on the surface of the polygonal rotating rod (104) can move to a position between the two inclined plates (106) finally, then the driving motor (202) is started continuously, after the driving motor (202) is started, the rotating shaft (203) is in butt joint with the polygonal rotating rod (104) through the inner polygonal cutting sleeve (1013), the polygonal rotating rod (104) is linked to rotate, the polygonal rotating rod (104) drives the rotating cam (105) to rotate when rotating, and the convex edge of the rotating cam (105) can continuously and repeatedly press the adhesive storage box (6) when rotating The inclined plates (106) are arranged on two sides of the rear side, the inclined plates (106) can move transversely after being squeezed, the inclined plates (106) can be in contact with the movable plate (107) when moving, the movable plate (107) can be pressed in a reciprocating mode, the movable plate (107) can move forwards in a reciprocating mode continuously in a reciprocating mode when being squeezed, the movable plate (107) can continuously press the trigger button (1012) in a reciprocating mode, the delivery pump (7) can be started after the trigger button (1012) is triggered in a stressed mode, the solution in the adhesive storage box (6) can be delivered to the interior of the liquid outlet pipe (9) after the delivery pump (7) is started, and the solution is intermittently added to the interior of the mixing and stirring box (1) through the liquid outlet pipe (9); secondly, the movable plate (107) can drive the support plate (111) to move when moving, the support plate (111) can drive the tooth limiting block (115) to move when moving, the tooth limiting block (115) can be meshed with the rotating gear (114) when moving, and the rotating gear (114) can drive the spray pipe (113) to spray rotationally through the conveying pipe (112) when the rotating gear (114) is meshed with the tooth limiting block (115); secondly, polygon bull stick (104) still can rotate through the coincidence of self unique appearance and interior polygon rotation cover (103) inner chamber in the rotation process, and interior polygon rotates cover (103) and rotates, and installation cover (121) and third puddler (122) that its fixed surface set up can rotate rather than the linkage when interior polygon rotates cover (103) is rotatory, can stir the solution of inside adhesive storage box (6) continuously when third puddler (122) rotate.

10. The process of claim 9, wherein the mixing device comprises: the guide way has all been seted up to the both sides of mixing agitator tank (1) inner chamber front side in S1, and the inside sliding connection of guide way has the guide block, the front side fixed connection of homonymy guide block rear side and shutoff board (13), second electric telescopic handle (14) extend the end can be through when the shrink removes with guide way and guide block sliding fit together drive shutoff board (13) and remove, stability when improving shutoff board (13) and remove.

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