CN109435068A

CN109435068A - A kind of high efficient production technique of masonry mortar

Info

Publication number: CN109435068A
Application number: CN201811265069.1A
Authority: CN
Inventors: 郑尚久; 熊顺伟; 詹小刚; 熊善进
Original assignee: Hubei Hengfu Energy Saving Technology Co Ltd
Current assignee: Hubei Hengfu Energy Saving Technology Co Ltd
Priority date: 2018-10-29
Filing date: 2018-10-29
Publication date: 2019-03-08

Abstract

A kind of high efficient production technique of masonry mortar, sand material is first conveyed into drying roller from sand material conveyer belt, the sand material in it is dried to obtain siccative by drying roller again, and resulting siccative is delivered on siccative conveyer belt, then by siccative conveyer belt by siccative from left charging aperture, right charging aperture is poured into outer mixing drum, while siccative enters, auxiliary material is expected spray head from inside left respectively by auxiliary material feeder, inside right forward expects to spray into the outside mixing drum of auxiliary material jet pipe in spray head, so that auxiliary material and siccative are stirred flaking together, bottom agitator disk is stirred, until siccative, the mixture of auxiliary material is fallen into a bottom to obtain product.Not only dispersion effect is stronger by the design, but also mixture homogeneity is higher, the quality of product is preferable.

Description

A kind of high efficient production technique of masonry mortar

Technical field

The present invention relates to a kind of production technologies of dry-mixed mortar, belong to construction material production field more particularly to a kind of block Build the high efficient production technique of mortar.

Background technique

Construction site is needed using many mortars, if directly configuring mortar at the construction field (site), not only takes a lot of work, is time-consuming, labour Intensity is big, and can generate a large amount of dust and noise, environment easy to pollute, therefore, the prior art mainly adopts dry-mixed mortars, and do Mortar is divided into masonry mortar, plastering mortar, ground mortar, common waterproof mortar etc. again.

Dry-mixed mortar is usually hydraulic cement mixed mortar, also referred to as dry mortar powder, dry blend, dry mixing powder etc., Refer to aggregate (such as yellow ground), inorganic coagulation material (such as cement, flyash) and additive through dry screening process (as polymerizeing Object) etc. carry out a kind of graininess made of physical mixed or flour by a certain percentage, in application, only need to by dry-mixed mortar with Packed or in bulk tank car mode is transported to building site, can be used directly after adding water to mix and stir, not only time saving, laborsaving, but also can be significantly Reduce dust, the noise pollution of construction site.But the prior art is when producing dry-mixed mortar, and mostly formula material is (siccative, auxiliary Material) simple agitation, lack dedicated mixing arrangement or hybrid technique, not only broken ability is weaker, but also it is mixed Evenness is lower, it is difficult to obtain the product of higher quality.

The information for disclosing the background technology part is merely intended to increase the understanding to the general background of present patent application, without It should be considered as recognizing or implying in any form that the information constitutes existing skill already known to those of ordinary skill in the art Art.

Summary of the invention

The purpose of the present invention is overcoming, fragmentation ability existing in the prior art is weaker, the lower defect of mixture homogeneity With problem, a kind of fragmentation ability is provided compared with strong, the higher masonry mortar of mixture homogeneity high efficient production technique.

In order to achieve the above object, the technical solution of the invention is as follows: a kind of high efficient production technique of masonry mortar, packet It includes following steps: first conveying sand material into drying roller from sand material conveyer belt, then the sand material in it is done by drying roller It is dry and resulting siccative to be delivered on siccative conveyer belt with obtaining siccative, siccative is then sent into outer stir by siccative conveyer belt It mixes in cylinder, meanwhile, auxiliary material is sent into outer mixing drum by auxiliary material feeder；Before siccative, auxiliary material enter outer mixing drum, first distinguish Driving stirs left unit, stirs the agitating shaft rotation in right unit, and the top that the top of agitating shaft is higher than outer mixing drum is arranged, stirs The inside for being extended down to outer mixing drum under the bottom end of axis is mixed, stirs the rotation direction of left unit, the right unit of stirring on the contrary, turning in agitating shaft Driving agitating shaft makes reciprocal up and down motion along agitating shaft while dynamic, and the upper limit that agitating shaft moves upwards is to net solid bearing Top is in contact with stirring bearing, and the lower limit that agitating shaft moves downward is that the bottom of the solid bearing of net connects with the top of noncoupled axle part Touching, axis to be mixed and the net being arranged thereon consolidate bearing, stir flaking, after noncoupled axle part, bottom agitator disk all work well, then by siccative It is poured into out of left charging aperture, right charging aperture, the siccative poured into is from top to bottom successively undergoing upper concave arc road, middle convex arc road, concave During arc road, lower convex arc road, be stirred flaking, bottom agitator disk is stirred, while siccative enters, auxiliary material is distinguished Expect that spray head, inside right forward expect to spray into the outside mixing drum of auxiliary material jet pipe in spray head from inside left, so that auxiliary material is stirred together with siccative Flaking, bottom agitator disk are stirred, until the mixture of siccative, auxiliary material is fallen into a bottom to obtain product, the product is from out Material mouth outflow.

The discharge port of the sand material conveyer belt is communicated with the feed inlet of drying roller, and the discharge port and siccative of drying roller are defeated The feed inlet of band is sent to communicate, the discharge port of siccative conveyer belt, the discharge port of auxiliary material feeder are communicated with the inside of agitating device； The agitating device includes outer mixing drum and interior blender, and the top that the top of interior blender is higher than outer mixing drum is arranged, inside stirs Mix the inside that outer mixing drum is extended down under the bottom end of device；The outer mixing drum includes cylinder top, cylinder side and cylinder bottom, the cylinder top The position of its nearly outer side edges offers left charging aperture, right charging aperture on the top surface in portion, offers out on the bottom surface of the cylinder bottom Material mouth, the cylinder side from top to bottom include sequentially connected upper concave arc road, middle convex arc road, middle concave arc road and lower convex arc road, institute The top for stating concave arc road is connected with the bottom surface at the top of cylinder, and the outer salient point in upper concave arc road and middle convex arc road are connected to fovea superior The bottom end in area, the lower convex arc road is connected with the top of cylinder bottom, and the lower salient point on lower convex arc road closely descends convex arc road, cylinder bottom The junction in portion is arranged；Lug boss on the middle convex arc road is vertical structure, is embedded with symmetrical inside left on lug boss Expect that spray head, inside right forward expect spray head, inside left expects that spray head, inside right forward expect that spray head includes at least two auxiliary materials of nozzle boss and its internal setting Jet pipe, the inner end of nozzle boss are located at the inside of outer mixing drum, and the outer end of nozzle boss is conveyed with the auxiliary material being located at outside outer mixing drum Cylinder is connected, and the auxiliary material tube inner chamber being arranged in auxiliary material transport tube is communicated with the inlet pipe mouth of auxiliary material jet pipe, the outlet spout of auxiliary material jet pipe It is communicated with the inner cavity of outer mixing drum；

The interior blender includes the left unit of the consistent stirring of arranged side by side and structure and stirs right unit, stirs left unit, stirs Mix between right unit that there are cell gaps；The left unit of stirring includes agitating shaft, stirring flaking and bottom agitator disk, the stirring The surface at the top of cylinder is extended down on after the stirring bearing of the top drawing-in cylinder middle top setting of axis, bottom end and the bottom of agitating shaft are stirred It mixes and is connected at the top of disk, nearly agitating shaft on agitating shaft is cased with slide with agitating shaft outside the position of junction at the top of cylinder and match The net of conjunction consolidates bearing, and the outer side wall which consolidates bearing is connected with the top for covering the stirring flaking outside it, stirs flaking Bottom end is connected with the inward flange of weight gain annulus, the surface of the supreme recessed area of outer edge extension for the annulus that increases weight, and nets solid bearing The top for the noncoupled axle part being socketed on bottom and agitating shaft is in contact, the nearly bottom agitator disk setting in the bottom end of noncoupled axle part, bottom agitator disk Outer edge closely descends the lower salient point on convex arc road to be arranged.

The area of weight gain annulus upright projection on upper recessed area is the one third of upper recessed area area to half.

The left charging aperture, right charging aperture are the arcuate structure for constituting same annulus, and left charging aperture, right charging aperture The sum of area is less than the area of same annulus where the two.

The noncoupled axle part includes noncoupled axle cylinder and multiple noncoupled axle blades, the inner wall of the noncoupled axle cylinder and agitating shaft therethrough Outer wall be fixedly connected, the outer wall of noncoupled axle cylinder is connected with the inner end of noncoupled axle blade, and the outer end of noncoupled axle blade extends outwardly, and attached Axis blade is evenly arranged on noncoupled axle cylinder.

The noncoupled axle blade is the arcuate structure of indent, and folder is at there is arc between the inner end of noncoupled axle blade and the outer wall of noncoupled axle cylinder The noncoupled axle angle of shape.

It is outer on position on the agitating shaft between noncoupled axle part, bottom agitator disk to be cased with hollow wave cylinder, the wave The top of unrestrained cylinder is connected with agitating shaft, and the bottom end of wave cylinder is connected with the top surface of bottom agitator disk, and the inside of wave cylinder opens up There is wave cavity, multiple wave bulges is provided on the outer surface of wave cylinder, and the top of wave cylinder is narrower than the setting of its bottom end.

The middle part of the bottom surface of the bottom agitator disk is connected through disk lower axle with the top of dispersion ball, and the dispersion ball includes a left side Hollow part, middle solid part and right hollow part, the left hollow part, right hollow part inside offer ball cavity, the middle reality The top of center portion is connected through disk lower axle with the bottom surface of bottom agitator disk, at left and right sides of middle solid part respectively with left hollow part, right sky The inner face of center portion is connected, left hollow part, right hollow part outer end face on respectively offer a movable mouth with corresponding ball Cavity communicates, and is provided with movable balls in ball cavity, which is connected with the inner end of the axis of cone, the outer end drawing-in activity mouth of the axis of cone It is connected afterwards with the inner end for the activity cone being located at outside dispersion ball, is evenly arranged at least two cone leaves on the side wall of activity cone Piece, and the diameter of the axis of cone, movable mouth, movable balls is sequentially increased.

The activity cone is lower than the bottom surface of bottom agitator disk, the dispersion ball and thereon around the highest point that movable mouth moves upwards The area of upright projection of two activity cones on corresponding bottom agitator disk bottom surface is less than the area of the bottom surface of bottom agitator disk.

The discharge port includes discharge left mouth and the right mouth that discharges, the cylinder bottom include left trousers portion, in several with right trousers portion, Several include several tops and several left foots, a few rights crus of diaphragm that are connected with two bottom end in described, the inner end in the left trousers portion with it is several The bottom end of left foot is connected, and the inner end in right trousers portion is connected with the bottom end of several rights crus of diaphragm, and it is left that discharging is offered on the bottom surface in left trousers portion Mouthful, offer the right mouth of discharging on the bottom surface in right trousers portion, and be vacantly provided with one the surface in left trousers portion, the top in right trousers portion is each A dispersion ball.

The bottom for stirring existing cell gap between left unit, the right unit of stirring is in contact with several tops, described The activity cone stirred in left unit is arranged in the left side on the top movable farthest point Jin Ji on right side, the work in the right unit of stirring Mantle is arranged on the right side on the top movable farthest point Jin Ji in left side；The outer view and outer view being arranged in a few top bottom surfaces are perpendicular The top of pipe is connected, and the outer bottom end depending on vertical tube is vertical with the outer inner end depending on transverse tube to be connect.

Compared with prior art, the invention has the benefit that

1, in a kind of high efficient production technique of masonry mortar of the present invention, the lug boss on middle convex arc road is vertical structure, protrusion It is embedded with symmetrical inside left in portion and expects that spray head, inside right forward expect spray head, meanwhile, cylinder is provided with left and right feed inlet on top, applies When, siccative (dry after green sand, yellow ground or remaining quartz sand) enters from left and right feed inlet, and auxiliary material (flyash, additive, Any mixture of cement or these three substances) expect that spray head, inside right forward expect that spray head enters from inside left respectively, due to the weight of siccative It is larger, thus it is inputted at the top of cylinder to extend its runing time in outer mixing drum, thus extend the time being stirred, Conducive to improving dispersion and mixed effect, and the lighter auxiliary material of relative weight expects that spray head, inside right forward expect that spray head enters from inside left, enters Mode is to spray from auxiliary material jet pipe, and not only the dispersion effect of itself is good, but also is easily mixed with running siccative, thus Promote the uniformity of siccative, auxiliary material mixing.Therefore, dispersion effect of the invention is higher, and the mixed uniformity is higher.

2, in a kind of high efficient production technique of masonry mortar of the present invention, cylinder is provided with left and right feed inlet on top, inside stirs Mixing device includes the left unit of stirring arranged side by side, the right unit of stirring, in application, raw material enters simultaneously from left and right feed inlet, stirring Left unit, the right unit of stirring rotate simultaneously, and rotation direction is on the contrary, its advantage is as follows: firstly, corresponding to one under each feed inlet The unit of a stirring, peptizaiton are stronger；Secondly, the unit backwards rotation of two stirrings, the stirring air flow pattern energy respectively driven Enough mutually head-on collisions, while further enhancing peptizaiton, moreover it is possible to increase breaking capacity, further be refined conducive to raw material, be kept away Exempt from the appearance of agglomeration raw material or relatively large raw material；Again, while stirring each autorotation of left unit, the right unit of stirring, moreover it is possible to edge It stirs bearing to move up and down, to expand the coverage area of stirring air flow pattern, increases respective dispersibility and two stirrings The head-on collision region of air flow pattern expands the coverage area of dispersion reinforcing effect.Therefore, not only fragmentation ability is stronger by the present invention, and And mixture homogeneity is higher.

3, in a kind of high efficient production technique of masonry mortar of the present invention, the outer salient point in upper concave arc road and middle convex arc road are mutual It is connected as recessed area, the middle part for netting solid bearing is slided up and down along agitating shaft, nets the outer side wall of solid bearing and the top of stirring flaking It is connected, the surface of the supreme recessed area of outer edge extension for the weight gain annulus that agitator disk net bottom end is connected, in application, feed inlet The raw material of inflow glides along upper concave arc road, and is accumulated in recessed area, forms accumulation material on the annulus that increases weight, and only seldom raw material is Middle convex arc road can be crossed to continue to glide, at this point, the stirring flaking of rotation can destroy accumulation material, so that accumulation material is in batches Continue glide, so that the downglide motion of raw material entered to feed inlet controls, it is made to glide, disperse in batches in batches, and Be not gather around and under, to enhance dispersion effect, conducive to the mixed uniformity is improved.On the basis of stirring flaking rotation, on The agitating shaft of lower movement, which can drive, nets solid bearing up and down motion, and the net moved upwards consolidates bearing can be upward to stirring flaking one Power, and the accumulation material on annulus that increases weight can give stirring one downward force of flaking, cone is pulled into the stirring flaking of upper and lower power effect Face, at this point, the stirring flaking when discrete areas of the conical surface is much larger than plane, is conducive to enhancing peptizaiton, and with agitator disk Net is constantly pulled up, and weight gain annulus is also gradually pulled out recessed area, this, which gradually detaches operation, can make the increase of accumulation material gradually Downslide amount further enhances peptizaiton to obtain an effect to glide again in batches, later, slides on solid bearing when netting Bump against with stirring bearing, when being stirred bearing one back-lash power of imparting and moving downward, the conical surface gradually becomes plane, and increase weight annulus The surface for gradually moving to recessed area again, causes the downslide amount of raw material to gradually decrease, until forming accumulation material, later, glides The solid bearing of net can bump against with the top of noncoupled axle part, and back-lash power can drive net to consolidate bearing to move upwards, circuit sequentially.Therefore, The present invention can obtain by batch effect to glide by stirring the up and down motion of flaking to control the downslide amount of raw material, be conducive to enhancing Dispersion effect improves mixture homogeneity.

4, in a kind of high efficient production technique of masonry mortar of the present invention, middle concave arc road is concave inward structure, and lower convex arc road is Interior male structure, when the downward convex arc road transition in middle concave arc road, space is become narrow gradually, meanwhile, it is convex under lower salient point on lower convex arc road is close The junction setting in arc road, cylinder bottom, the outer edge of bottom agitator disk closely descend the lower salient point on convex arc road to be arranged, when bottom agitator disk original When ground rotates, through gap between bottom agitator disk, lower salient point, the raw material of slide downward is seldom, and when bottom agitator disk is axial with stirring When upper movement, bottom agitator disk is moved through lower convex arc road to middle concave arc road, and the gap between bottom agitator disk and cylinder side is gradually increased, The raw material flowed into through the gap gradually increases, later, the gap when agitating shaft moves downward, between bottom agitator disk and cylinder side It is gradually reduced, the raw material flowed into through the gap gradually decreases, to make on the whole through gap between bottom agitator disk, cylinder side The influx of the raw material of inflow toggles between gradually increasing, gradually decreasing, and to obtain by batch effect to glide, is conducive to increase Strong dispersion effect improves mixture homogeneity.Therefore, not only dispersion effect is stronger by the present invention, but also mixture homogeneity is higher.

5, it in a kind of high efficient production technique of masonry mortar of the present invention, is provided between stirring flaking and bottom agitator disk Noncoupled axle part, wave cylinder, wherein noncoupled axle part includes multiple noncoupled axle blades of noncoupled axle cylinder and its uplink setting, belongs to and extends out type structure, Broken again and dispersion can be carried out to the raw material of downslide by the noncoupled axle blade of rotation；Wave cylinder is hollow structure, can be to sliding to The raw material of its outer wall rebounds, near bullet to noncoupled axle part, to cause twice dispersing, meanwhile, up-narrow and down-wide knot on the whole It is in step arrangement that structure, which can make wave bulge on its external wall, can make the raw material for sliding to its outer wall that can be repelled, will not omit, It avoids the occurrence of that one slides and crosses, to enhance rebound effect, and then enhances peptizaiton.Therefore, dispersion of the invention effect Fruit is stronger.

6, in a kind of high efficient production technique of masonry mortar of the present invention, dispersion ball carries out rotation and fortune up and down with agitating shaft It is dynamic, and the activity cone set by individually dispersing at left and right sides of ball can rotate and move up and down with the movement of dispersion ball, with The dispersion vortex of cone is formed, so that there are two dispersion vortex in the lower section of each bottom agitator disk, raw material can not only be carried out Last dispersion to further increase the uniformity of mixing, and is conducive to drive mixed raw material, so that it is more suitable It is smooth and to flow out respectively from the left mouth that discharges, the right mouth of discharging filling to carry out into left trousers portion, right trousers portion, it effectively prevents The defect of blocking with agglomeration easily occurs from a discharge port outflow in the prior art.In addition, the phase connected on a few top bottom surfaces Mutually vertical outer view vertical tube, outer view transverse tube, can the Dust Capacity externally in mixing drum be monitored, in order to being carried out in cylinder and Shi Qingli avoids breaking down, and can be sampled to final product, it is ensured that product quality.Therefore, the present invention not only disperses Effect is relatively strong, mixture homogeneity is higher, and is conducive to the outflow of product and filling, convenient for monitoring with sample.

Detailed description of the invention

Fig. 1 is structural schematic diagram of the invention.

Fig. 2 is that the schematic diagram of internal structure of the China and foreign countries Fig. 1 mixing drum (stirs flaking 53 and is shown as plane, the conical surface two in figure State, non-is two stirring flakings of setting on an agitating shaft 52).

Fig. 3 is the top view in Fig. 2 at the top of cylinder.

Fig. 4 be left trousers portion in Fig. 2, in several portions, right trousers portion top view.

Fig. 5 is the top view that flaking is stirred in Fig. 2.

Fig. 6 is that variation schematic diagram of the flaking from plane to the conical surface is stirred in Fig. 2.

Fig. 7 is the structural schematic diagram of noncoupled axle part in Fig. 2.

Fig. 8 is the structural schematic diagram for dispersing ball in Fig. 2.

Fig. 9 is the structural schematic diagram of activity cone in Fig. 2.

Figure 10 is the connection schematic diagram of the China and foreign countries Fig. 2 view vertical tube, outer view transverse tube.

In figure: drying roller 1, outer mixing drum 2, cylinder top 21, left charging aperture 211, right charging aperture 212, same annulus 213, cylinder side 22, outer view 221, outer view vertical tube 222, outer view transverse tube 223, cylinder bottom 23, discharge port 231, the left mouth of discharging 232, discharge right mouth 233, left trousers portion 234, in several 235, right trousers portion 236, a few tops 237, a few left foots 238, a few rights crus of diaphragm 239, Upper concave arc road 24, outer salient point 241, upper recessed area 242, middle convex arc road 25, lug boss 251, middle concave arc road 26, lower convex arc road 27, under Salient point 271, siccative conveyer belt 3, interior blender 5, the right unit 50 of stirring, cell gap 501, the left unit 51 of stirring, agitating shaft 52, It stirs bearing 521, stirring flaking 53, net solid bearing 531, weight gain annulus 532, accumulation material 533, bottom agitator disk 54, disk lower axle 541, disk stirrer gear 542, noncoupled axle part 55, noncoupled axle cylinder 551, noncoupled axle blade 552, noncoupled axle angle 553, wave cylinder 56, wave cavity 561, wave bulge 562, dispersion ball 57, left hollow part 571, middle solid part 572, right hollow part 573, ball cavity 574, movable mouth 575, activity cone 58, movable balls 581, the axis of cone 582, cone blade 583, inside left expect that spray head 6, inside right forward expect spray head 60, nozzle boss 61, auxiliary Expect jet pipe 62, inlet pipe mouth 621, outlet spout 622, auxiliary material transport tube 63, auxiliary material tube inner chamber 64, sand material conveyer belt 7, auxiliary material feeder 8。

Specific embodiment

Below in conjunction with Detailed description of the invention and specific embodiment, the present invention is described in further detail.

Referring to Fig. 1 to Figure 10, a kind of high efficient production technique of masonry mortar, comprising the following steps: first conveyed by sand material Band 7 conveys sand material into drying roller 1, then by drying roller 1 the sand material in it is dried to obtain siccative, and by gained Siccative be delivered on siccative conveyer belt 3, then siccative is sent into outer mixing drum 2 by siccative conveyer belt 3, meanwhile, auxiliary material into Auxiliary material is sent into outer mixing drum 2 by glassware 8；Before siccative, auxiliary material enter outer mixing drum 2, the left unit of stirring is first respectively driven 51, the agitating shaft 52 stirred in right unit 50 rotates, and the top that the top of agitating shaft 52 is higher than outer mixing drum 2 is arranged, agitating shaft It is extended down to the inside of outer mixing drum 2 under 52 bottom end, stirs the rotation direction of left unit 51, the right unit 50 of stirring on the contrary, stirring Driving agitating shaft 52 makees reciprocal up and down motion along stirring bearing 521 while axis 52 rotates, and agitating shaft 52 moves upwards upper The top for being limited to net solid bearing 531 is in contact with stirring bearing 521, and the lower limit that agitating shaft 52 moves downward is to net solid bearing 531 Bottom be in contact with the top of noncoupled axle part 55, axis 52 to be mixed and the net being arranged thereon consolidate bearing 531, stirring flaking 53, attached After shaft member 55, bottom agitator disk 54 all work well, then siccative poured into out of left charging aperture 211, right charging aperture 212, is poured into Siccative is during from top to bottom successively undergoing upper concave arc road 24, middle convex arc road 25, middle concave arc road 26, lower convex arc road 27, quilt Stirring flaking 53, bottom agitator disk 54 are stirred, and while siccative enters, auxiliary material is expected that spray head 6, inside right forward are expected from inside left respectively It is sprayed into the outside mixing drum 2 of auxiliary material jet pipe 62 in spray head 60, so that auxiliary material and siccative are stirred flaking 53, bottom agitator disk together 54 are stirred, until the mixture of siccative, auxiliary material is fallen into a bottom 23 to obtain product, which flows from discharge port 231 Out.

The discharge port of the sand material conveyer belt 7 is communicated with the feed inlet of drying roller 1, the discharge port of drying roller 1 and dry The feed inlet of material conveyer belt 3 communicates, and discharge port, the discharge port of auxiliary material feeder 8 of siccative conveyer belt 3 are interior with agitating device Portion communicates；The agitating device includes outer mixing drum 2 and interior blender 5, and the top of interior blender 5 is higher than the top of outer mixing drum 2 Portion is arranged, and the inside of outer mixing drum 2 is extended down under the bottom end of interior blender 5；The outer mixing drum 2 includes 21, cylinder side at the top of cylinder 22 with cylinder bottom 23, the position of its nearly outer side edges offers left charging aperture 211, right charging aperture on 21 top surface at the top of the cylinder 212, discharge port 231 is offered on the bottom surface of the cylinder bottom 23, the cylinder side 22 from top to bottom includes on sequentially connected Concave arc road 24, middle convex arc road 25, middle concave arc road 26 and lower convex arc road 27, the bottom on the top in the upper concave arc road 24 and cylinder top 21 Face is connected, and the outer salient point 241 in upper concave arc road 24 and middle convex arc road 25 are connected to recessed area 242, the lower convex arc road 27 Bottom end be connected with the top of cylinder bottom 23, and the lower salient point 271 on lower convex arc road 27 closely lower convex arc road 27, cylinder bottom 23 Junction setting；Lug boss 251 on the middle convex arc road 25 is vertical structure, is embedded on lug boss 251 symmetrical Inside left expects that spray head 6, inside right forward expect spray head 60, and it includes nozzle boss 61 and its internal setting that inside left, which expects that spray head 6, inside right forward expect spray head 60, At least two auxiliary material jet pipes 62, the inner end of nozzle boss 61 are located at the inside of outer mixing drum 2, and the outer end of nozzle boss 61 is stirred outside with being located at It mixes the auxiliary material transport tube 63 outside cylinder 2 to be connected, the auxiliary material tube inner chamber 64 being arranged in auxiliary material transport tube 63 and auxiliary material jet pipe 62 Inlet pipe mouth 621 communicates, and the outlet spout 622 of auxiliary material jet pipe 62 is communicated with the inner cavity of outer mixing drum 2；

The interior blender 5 includes the left unit 51 of the consistent stirring of arranged side by side and structure and the right unit 50 of stirring, stirs left list There are cell gaps 501 between member 51, the right unit 50 of stirring；The left unit 51 of stirring includes agitating shaft 52, stirring flaking 53 Cylinder top is extended down on after the stirring bearing 521 being arranged with bottom agitator disk 54,21 middle part of top drawing-in cylinder top of the agitating shaft 52 The bottom end of the surface in portion 21, agitating shaft 52 is connected with the top of bottom agitator disk 54, nearly agitating shaft 52, cylinder top on agitating shaft 52 It is cased with the net being slidably matched with agitating shaft 52 outside the position of 21 junction of portion and consolidates bearing 531, which consolidates the outside of bearing 531 It encloses and is connected with the top for covering the stirring flaking 53 outside it, stir the bottom end of flaking 53 and the inward flange of weight gain annulus 532 It is connected, bottom and the agitating shaft 52 of solid bearing 531 are netted in the surface of the supreme recessed area 242 of outer edge extension for the annulus 532 that increases weight The top of the noncoupled axle part 55 of upper socket is in contact, and the nearly bottom agitator disk 54 in the bottom end of noncoupled axle part 55 is arranged, the outside of bottom agitator disk 54 Edge closely descends the lower salient point 271 on convex arc road 27 to be arranged.

It is described weight gain the upright projection on upper recessed area 242 of annulus 532 area be upper 242 area of recessed area one third extremely Half.

The left charging aperture 211, right charging aperture 212 are the arcuate structure for constituting same annulus 213, and left charging aperture 211, the sum of area of right charging aperture 212 is less than the area of same annulus 213 where the two.

The noncoupled axle part 55 includes noncoupled axle cylinder 551 and multiple noncoupled axle blades 552, the inner wall of the noncoupled axle cylinder 551 and wears it And the outer wall for the agitating shaft 52 crossed is fixedly connected, the outer wall of noncoupled axle cylinder 551 is connected with the inner end of noncoupled axle blade 552, noncoupled axle leaf The outer end of piece 552 extends outwardly, and noncoupled axle blade 552 is evenly arranged on noncoupled axle cylinder 551.

The noncoupled axle blade 552 is the arcuate structure of indent, the outer wall of the inner end of noncoupled axle blade 552 and noncoupled axle cylinder 551 it Between folder at the noncoupled axle angle 553 for having arc.

It is outer on position on the agitating shaft 52 between noncoupled axle part 55, bottom agitator disk 54 to be cased with hollow wave cylinder 56, the top of the wave cylinder 56 is connected with agitating shaft 52, and the bottom end of wave cylinder 56 is connected with the top surface of bottom agitator disk 54, The inside of wave cylinder 56 offers wave cavity 561, and multiple wave bulges 562, and wave are provided on the outer surface of wave cylinder 56 The top of unrestrained cylinder 56 is narrower than the setting of its bottom end.

The middle part of the bottom surface of the bottom agitator disk 54 is connected through disk lower axle 541 with the top of dispersion ball 57, the dispersion Ball 57 includes left hollow part 571, middle solid part 572 and right hollow part 573, the left hollow part 571, right hollow part 573 it is interior Portion offers ball cavity 574, and the top of the middle solid part 572 is connected through disk lower axle 541 with the bottom surface of bottom agitator disk 54, Middle 572 left and right sides of solid part is connected with the inner face of left hollow part 571, right hollow part 573 respectively, left hollow part 571, the right side A movable mouth 575 is offered on the outer end face of hollow part 573 respectively to communicate with corresponding ball cavity 574, set in ball cavity 574 Be equipped with movable balls 581, which is connected with the inner end of the axis of cone 582, after the outer end drawing-in activity mouth 575 of the axis of cone 582 with The inner end of activity cone 58 outside dispersion ball 57 is connected, and is evenly arranged at least two cone leaves on the side wall of activity cone 58 Piece 583, and the diameter of the axis of cone 582, movable mouth 575, movable balls 581 is sequentially increased.

The activity cone 58 is lower than the bottom surface of bottom agitator disk 54, the dispersion around the highest point that movable mouth 575 moves upwards Ball 57 and the thereon area of upright projection of two activity cones 58 on corresponding 54 bottom surface of bottom agitator disk are less than bottom agitator disk 54 Bottom surface area.

The discharge port 231 includes discharge left mouth 232 and the right mouth 233 that discharges, the cylinder bottom 23 include left trousers portion 234, In several 235 with right trousers portion 236, it is described in several 235 include several tops 237 and several left foots for being connected with two bottom end 238, the inner end of several rights crus of diaphragm 239, the left trousers portion 234 is connected with the bottom end of several left foots 238, the inner end in right trousers portion 236 with it is several The bottom end of right crus of diaphragm 239 is connected, and the left mouth 232 of discharging is offered on the bottom surface in left trousers portion 234, is opened up on the bottom surface in right trousers portion 236 There is a right mouth 233 of discharging, and be vacantly provided with a dispersion ball 57 the surface in left trousers portion 234, the top in right trousers portion 236 is each.

It is described to stir the bottom of existing cell gap 501 and a few 237 phases of top between left unit 51, the right unit 50 of stirring Contact, the left side setting on movable farthest point Jin Ji top 237 of the activity cone 58 stirred in left unit 51 on right side are described The activity cone 58 stirred in right unit 50 is arranged on the right side on the top movable farthest point Jin Ji 237 in left side；A few tops 237 The outer view 221 being arranged in bottom surface is connected with the outer top depending on vertical tube 222, the bottom end of outer view vertical tube 222 and outer view transverse tube 223 Inner end vertically connect, and a few tops 237, outer view 221, outer view vertical tube 222 coaxial arrangement.

The principle of the present invention is described as follows:

Sand material conveyer belt 7: conveying original sand material into drying roller 1, such as yellow ground, green sand or other quartz sand.

Drying roller 1: being dried the original sand material of feeding, such as convertible drying, to obtain siccative, and siccative is defeated It send to siccative conveyer belt 3.

Siccative conveyer belt 3: the siccative that will be fed into continuously is sent into agitating device.

Auxiliary material feeder 8: using the raw material other than sand material as auxiliary material, such as flyash, additive, cement, auxiliary material The siccative sent with siccative conveyer belt 3 is sent into agitating device together.

Nozzle boss 61 in the present invention is fixed structure, and the auxiliary material jet pipe 62 being arranged inside both can be fixed structure, It may be bascule, such as middle shaft rotation of multiple auxiliary material jet pipes 62 around nozzle boss 61.Due to the lighter weight of auxiliary material, thus Auxiliary material can be sprayed into the outside mixing drum 2 of auxiliary material jet pipe 62, form the air-flow group of auxiliary material in such a way that air-flow conveys, To be mixed with running siccative, mixed effect is promoted, in addition, the air-flow group of auxiliary material can also be stirred left unit 51, stir It mixes right unit 50 to be stirred, to expand the overlay area of auxiliary material, further increases mixed effect.

In the present invention, when agitating shaft 52 moves up and down, while with the rotation of itself, rotation direction can be interval Clockwise, switch counterclockwise, the interval switching of this kind of rotation direction can make to stir flaking 53 carry out upwards, cutting of moving downward It changes, makes to stir the switching between the realization of flaking 53 plane, the conical surface.

Bottom agitator disk 54 in the present invention is provided with the disk stirrer gear 542 of annular on its side wall to enhance broken and dispersion Effect.

Embodiment 1:

Referring to Fig. 1 to Figure 10, a kind of high efficient production technique of masonry mortar, comprising the following steps: first from sand material conveyer belt 7 to Sand material is conveyed in drying roller 1, then the sand material in it is dried by drying roller 1 to obtain siccative, and will be resulting dry Material is delivered on siccative conveyer belt 3, and then siccative is sent into outer mixing drum 2 by siccative conveyer belt 3, meanwhile, auxiliary material feeder 8 Auxiliary material is sent into outer mixing drum 2；Before siccative, auxiliary material enter outer mixing drum 2, first respectively drives the left unit 51 of stirring, stirs The agitating shaft 52 mixed in right unit 50 rotates, and the top that the top of agitating shaft 52 is higher than outer mixing drum 2 is arranged, the bottom of agitating shaft 52 It is extended down to the inside of outer mixing drum 2 under end, stirs the rotation direction of left unit 51, the right unit 50 of stirring on the contrary, at 52 turns of agitating shaft Driving agitating shaft 52 makees reciprocal up and down motion along stirring bearing 521 while dynamic, and the upper limit that agitating shaft 52 moves upwards is net Gu the top of bearing 531 is in contact with stirring bearing 521, the lower limit that agitating shaft 52 moves downward is the bottom for netting solid bearing 531 Be in contact with the top of noncoupled axle part 55, axis 52 to be mixed and the net being arranged thereon consolidate bearing 531, stirring flaking 53, noncoupled axle part 55, After bottom agitator disk 54 all works well, then siccative poured into out of left charging aperture 211, right charging aperture 212, the siccative poured into by During successively undergoing upper concave arc road 24, middle convex arc road 25, middle concave arc road 26, lower convex arc road 27 under, it is stirred flaking 53, bottom agitator disk 54 is stirred, and while siccative enters, auxiliary material is expected that spray head 6, inside right forward are expected in spray head 60 from inside left respectively The outside mixing drum 2 of auxiliary material jet pipe 62 in spray into so that auxiliary material is stirred flaking 53 with siccative together, bottom agitator disk 54 is stirred It mixes, until the mixture of siccative, auxiliary material is fallen into a bottom 23 to obtain product, which flows out from discharge port 231.

The special equipment of above-mentioned manufacturing method are as follows: the feed inlet phase of the discharge port and drying roller 1 of the sand material conveyer belt 7 Logical, the discharge port of drying roller 1 is communicated with the feed inlet of siccative conveyer belt 3, discharge port, the auxiliary material feeder 8 of siccative conveyer belt 3 Discharge port communicated with the inside of agitating device；The agitating device includes outer mixing drum 2 and interior blender 5, interior blender 5 Top be higher than the top of outer mixing drum 2 and be arranged, the inside of outer mixing drum 2 is extended down under the bottom end of interior blender 5；The outer stirring Cylinder 2 includes 21, cylinder side 22 and cylinder bottom 23 at the top of cylinder, and the position of its nearly outer side edges offers on the top surface at the cylinder top 21 Left charging aperture 211, right charging aperture 212, offer discharge port 231 on the bottom surface of the cylinder bottom 23, and the cylinder side 22 is by upper To lower including sequentially connected upper concave arc road 24, middle convex arc road 25, middle concave arc road 26 and lower convex arc road 27, the upper concave arc road 24 Top and cylinder at the top of 21 bottom surface be connected, the outer salient point 241 in upper concave arc road 24 and middle convex arc road 25 are connected to fovea superior The bottom end in area 242, the lower convex arc road 27 is connected with the top of cylinder bottom 23, and the lower salient point 271 on lower convex arc road 27 is close The junction setting in lower convex arc road 27, cylinder bottom 23；Lug boss 251 on the middle convex arc road 25 is vertical structure, lug boss It is embedded with symmetrical inside left on 251 and expects that spray head 6, inside right forward expect spray head 60, inside left expects that spray head 6, inside right forward expect that spray head 60 includes Nozzle boss 61 and its at least two auxiliary material jet pipes 62 of internal setting, the inner end of nozzle boss 61 are located at the inside of outer mixing drum 2, spray The outer end of headstock 61 is connected with the auxiliary material transport tube 63 being located at outside outer mixing drum 2, the auxiliary material being arranged in auxiliary material transport tube 63 Tube inner chamber 64 is communicated with the inlet pipe mouth 621 of auxiliary material jet pipe 62, the inner cavity phase of the outlet spout 622 of auxiliary material jet pipe 62 and outer mixing drum 2 It is logical；The interior blender 5 includes the left unit 51 of the consistent stirring of arranged side by side and structure and the right unit 50 of stirring, stirs left list There are cell gaps 501 between member 51, the right unit 50 of stirring；The left unit 51 of stirring includes agitating shaft 52, stirring flaking 53 Cylinder top is extended down on after the stirring bearing 521 being arranged with bottom agitator disk 54,21 middle part of top drawing-in cylinder top of the agitating shaft 52 The bottom end of the surface in portion 21, agitating shaft 52 is connected with the top of bottom agitator disk 54, nearly agitating shaft 52, cylinder top on agitating shaft 52 It is cased with the net being slidably matched with agitating shaft 52 outside the position of 21 junction of portion and consolidates bearing 531, which consolidates the outside of bearing 531 It encloses and is connected with the top for covering the stirring flaking 53 outside it, stir the bottom end of flaking 53 and the inward flange of weight gain annulus 532 It is connected, bottom and the agitating shaft 52 of solid bearing 531 are netted in the surface of the supreme recessed area 242 of outer edge extension for the annulus 532 that increases weight The top of the noncoupled axle part 55 of upper socket is in contact, and the nearly bottom agitator disk 54 in the bottom end of noncoupled axle part 55 is arranged, the outside of bottom agitator disk 54 Edge closely descends the lower salient point 271 on convex arc road 27 to be arranged, and the preferably weight gain area of upright projection on upper recessed area 242 of annulus 532 is The one third of upper 242 area of recessed area is to half.

Embodiment 2:

Basic content with embodiment 1, the difference is that:

The noncoupled axle part 55 includes noncoupled axle cylinder 551 and multiple noncoupled axle blades 552, the inner wall of the noncoupled axle cylinder 551 with therethrough The outer wall of agitating shaft 52 be fixedly connected, the outer wall of noncoupled axle cylinder 551 is connected with the inner end of noncoupled axle blade 552, noncoupled axle blade 552 Outer end extend outwardly, and noncoupled axle blade 552 is evenly arranged on noncoupled axle cylinder 551.The noncoupled axle blade 552 is the arc of indent Structure, folder is at the noncoupled axle angle 553 for having arc between the inner end of noncoupled axle blade 552 and the outer wall of noncoupled axle cylinder 551.

Embodiment 3:

Basic content with embodiment 1, the difference is that:

It is outer on position on the agitating shaft 52 between noncoupled axle part 55, bottom agitator disk 54 to be cased with hollow wave cylinder 56, institute The top for stating wave cylinder 56 is connected with agitating shaft 52, and the bottom end of wave cylinder 56 is connected with the top surface of bottom agitator disk 54, wave The inside of cylinder 56 offers wave cavity 561, and multiple wave bulges 562, and wave cylinder are provided on the outer surface of wave cylinder 56 56 top is narrower than the setting of its bottom end.

Embodiment 4:

Basic content with embodiment 1, the difference is that:

The middle part of the bottom surface of the bottom agitator disk 54 is connected through disk lower axle 541 with the top of dispersion ball 57, the dispersion ball 57 Including left hollow part 571, middle solid part 572 and right hollow part 573, the left hollow part 571, the inside of right hollow part 573 are equal Ball cavity 574 is offered, the top of the middle solid part 572 is connected through disk lower axle 541 with the bottom surface of bottom agitator disk 54, middle reality 572 left and right sides of center portion is connected with the inner face of left hollow part 571, right hollow part 573 respectively, and left hollow part 571, the right side are hollow A movable mouth 575 is offered on the outer end face in portion 573 respectively to communicate with corresponding ball cavity 574, be provided in ball cavity 574 Movable balls 581, the movable balls 581 are connected with the inner end of the axis of cone 582, after the outer end drawing-in activity mouth 575 of the axis of cone 582 be located at The inner end of activity cone 58 outside dispersion ball 57 is connected, and is evenly arranged at least two cone blades on the side wall of activity cone 58 583, and the diameter of the axis of cone 582, movable mouth 575, movable balls 581 is sequentially increased.The activity cone 58 is transported upwards around movable mouth 575 Dynamic highest point is lower than the bottom surface of bottom agitator disk 54, and the dispersion ball 57 and thereon two activity cones 58 are in corresponding bottom agitator disk The area of upright projection on 54 bottom surfaces is less than the area of the bottom surface of bottom agitator disk 54.

Embodiment 5:

Basic content with embodiment 4, the difference is that:

The discharge port 231 includes discharge left mouth 232 and the right mouth 233 that discharges, the cylinder bottom 23 include left trousers portion 234, in it is several Portion 235 and right trousers portion 236, it is described in several 235 include several tops 237 and several left foots 238 being connected with two bottom end, it is several The inner end of right crus of diaphragm 239, the left trousers portion 234 is connected with the bottom end of several left foots 238, the inner end in right trousers portion 236 and several rights crus of diaphragm 239 Bottom end be connected, the left mouth 232 of discharging is offered on the bottom surface in left trousers portion 234, it is right to offer discharging on the bottom surface in right trousers portion 236 Mouthfuls 233, and a dispersion ball 57 is vacantly provided with the surface in left trousers portion 234, the top in right trousers portion 236 is each.

Embodiment 6:

Basic content with embodiment 5, the difference is that:

The bottom for stirring existing cell gap 501 between left unit 51, the right unit 50 of stirring connects with several tops 237 Touching, the left side setting on movable farthest point Jin Ji top 237 of the activity cone 58 stirred in left unit 51 on right side are described to stir The activity cone 58 mixed in right unit 50 is arranged on the right side on the top movable farthest point Jin Ji 237 in left side；237 bottom of a few tops The outer view 221 being arranged in face is connected with the outer top depending on vertical tube 222, the bottom end of outer view vertical tube 222 and outer view transverse tube 223 Inner end vertically connects, and a few tops 237, outer view 221, the coaxial arrangement of outer view vertical tube 222.

The foregoing is merely better embodiment of the invention, protection scope of the present invention is not with above embodiment Limit, as long as those of ordinary skill in the art's equivalent modification or variation made by disclosure according to the present invention, should all be included in power In the protection scope recorded in sharp claim.

Claims

1. a kind of high efficient production technique of masonry mortar, it is characterised in that: the manufacturing process is the following steps are included: first by sand Expect that conveyer belt (7) convey sand material into drying roller (1), then the sand material in it is dried to obtain by drying roller (1) Siccative, and resulting siccative is delivered on siccative conveyer belt (3), siccative is then sent into outer stirring by siccative conveyer belt (3) In cylinder (2), meanwhile, auxiliary material is sent into outer mixing drum (2) by auxiliary material feeder (8)；Enter outer mixing drum (2) in siccative, auxiliary material Before, the agitating shaft (52) for first respectively driving and stirring left unit (51), stir in right unit (50) rotates, the top of agitating shaft (52) The top that end is higher than outer mixing drum (2) is arranged, and the inside of outer mixing drum (2) is extended down under the bottom end of agitating shaft (52), stirs left list The rotation direction of first (51), the right unit (50) of stirring is on the contrary, driving agitating shaft (52) edge is stirred while agitating shaft (52) rotate It mixes bearing (521) and makees reciprocal up and down motion, the upper limit that agitating shaft (52) moves upwards is to net the top of solid bearing (531) and stir It mixes bearing (521) to be in contact, the lower limit that agitating shaft (52) moves downward is the bottom and noncoupled axle part (55) for netting solid bearing (531) Top is in contact, and axis (52) to be mixed and the net being arranged thereon consolidate bearing (531), stirring flaking (53), noncoupled axle part (55), bottom are stirred It mixes after disk (54) all works well, then siccative is poured into out of left charging aperture (211), right charging aperture (212), the siccative poured into exists During from top to bottom successively undergoing upper concave arc road (24), middle convex arc road (25), middle concave arc road (26), lower convex arc road (27), Be stirred flaking (53), bottom agitator disk (54) is stirred, while siccative enters, by auxiliary material respectively from inside left expect spray head (6), inside right forward expects the interior penetrating of mixing drum (2) outward of the auxiliary material jet pipe (62) in spray head (60), so that auxiliary material is stirred together with siccative Mix flaking (53), bottom agitator disk (54) is stirred, until the mixture of siccative, auxiliary material is fallen into a bottom (23) to be produced Product, the product are flowed out from discharge port (231).

2. a kind of high efficient production technique of masonry mortar according to claim 1, it is characterised in that: the sand material conveying The discharge port of band (7) is communicated with the feed inlet of drying roller (1), the discharge port of drying roller (1) and siccative conveyer belt (3) into Material mouth communicates, and the discharge port of siccative conveyer belt (3), the discharge port of auxiliary material feeder (8) are communicated with the inside of agitating device；Institute Stating agitating device includes outer mixing drum (2) and interior blender (5), and the top of interior blender (5) is higher than the top of outer mixing drum (2) It is arranged, the inside of outer mixing drum (2) is extended down under the bottom end of interior blender (5)；The outer mixing drum (2) include (21) at the top of cylinder, Cylinder side (22) and cylinder bottom (23), the position of its nearly outer side edges offers left charging aperture on the top surface of (21) at the top of the cylinder (211), right charging aperture (212) offer discharge port (231) on the bottom surface of the cylinder bottom (23), the cylinder side (22) by It is described up to lower including sequentially connected upper concave arc road (24), middle convex arc road (25), middle concave arc road (26) and lower convex arc road (27) The top of upper concave arc road (24) is connected with the bottom surface of (21) at the top of cylinder, the outer salient point (241) and middle convex arc of upper concave arc road (24) Road (25) is connected to recessed area (242), and the bottom end of the lower convex arc road (27) is connected with the top of cylinder bottom (23), and The junction setting of lower salient point (271) closely lower convex arc road (27), cylinder bottom (23) on lower convex arc road (27)；The middle convex arc road (25) lug boss (251) on is vertical structure, and symmetrical inside left is embedded on lug boss (251) and expects spray head (6), inside right forward Expect spray head (60), it includes at least two of nozzle boss (61) and its internal setting that inside left, which expects that spray head (60) are expected in spray head (6), inside right forward, Auxiliary material jet pipe (62), the inner end of nozzle boss (61) are located at the inside of outer mixing drum (2), and the outer end of nozzle boss (61) is stirred outside with being located at It mixes the external auxiliary material transport tube (63) of cylinder (2) to be connected, the auxiliary material tube inner chamber (64) and auxiliary material being arranged in auxiliary material transport tube (63) The inlet pipe mouth (621) of jet pipe (62) communicates, and the outlet spout (622) of auxiliary material jet pipe (62) is communicated with the inner cavity of outer mixing drum (2)；

The interior blender (5) includes the left unit (51) of the consistent stirring of arranged side by side and structure and stirs right unit (50), is stirred Mix between left unit (51), the right unit (50) of stirring that there are cell gap (501)；The left unit (51) of stirring includes agitating shaft (52), stirring flaking (53) and bottom agitator disk (54), what top drawing-in cylinder top (21) middle part of the agitating shaft (52) was arranged The surface of (21) at the top of cylinder, the bottom end of agitating shaft (52) and the top of bottom agitator disk (54) are extended down in stirring bearing (521) afterwards It is connected, nearly agitating shaft (52) on agitating shaft (52) is cased with outside the position of (21) junction and agitating shaft (52) progress at the top of cylinder The net being slidably matched is consolidated bearing (531), which consolidates the outer side wall of bearing (531) and the top for covering the stirring flaking (53) outside it End is connected, and the bottom end for stirring flaking (53) is connected with the inward flange of weight gain annulus (532), the outside of weight gain annulus (532) The noncoupled axle part (55) being socketed on the bottom and agitating shaft (52) of solid bearing (531) is netted in the surface of the supreme recessed area of edge extension (242) Top be in contact, the nearly bottom agitator disk (54) in the bottom end of noncoupled axle part (55) setting, the outer edge of bottom agitator disk (54) closely descends convex arc Lower salient point (271) setting on road (27).

3. a kind of high efficient production technique of masonry mortar according to claim 2, it is characterised in that: the left charging aperture (211), right charging aperture (212) is the arcuate structure for constituting same annulus (213), and left charging aperture (211), right charging aperture (212) the sum of area is less than the area of same annulus (213) where the two.

4. a kind of high efficient production technique of masonry mortar according to claim 2, it is characterised in that: the noncoupled axle part It (55) include noncoupled axle cylinder (551) and multiple noncoupled axle blades (552), the inner wall of the noncoupled axle cylinder (551) and stirring therethrough The outer wall of axis (52) is fixedly connected, and the outer wall of noncoupled axle cylinder (551) is connected with the inner end of noncoupled axle blade (552), noncoupled axle blade (552) outer end extends outwardly, and noncoupled axle blade (552) is evenly arranged on noncoupled axle cylinder (551).

5. a kind of high efficient production technique of masonry mortar according to claim 4, it is characterised in that: the noncoupled axle blade (552) be indent arcuate structure, press from both sides between the inner end of noncoupled axle blade (552) and the outer wall of noncoupled axle cylinder (551) at there is arc Noncoupled axle angle (553).

6. a kind of high efficient production technique of masonry mortar according to claim 2, it is characterised in that: the agitating shaft (52) outer on the position between noncoupled axle part (55), bottom agitator disk (54) to be cased with hollow wave cylinder (56), the wave The top of cylinder (56) is connected with agitating shaft (52), and the bottom end of wave cylinder (56) is connected with the top surface of bottom agitator disk (54), wave The inside of unrestrained cylinder (56) offers wave cavity (561), and multiple wave bulges are provided on the outer surface of wave cylinder (56) (562), and the top of wave cylinder (56) is narrower than the setting of its bottom end.

7. a kind of high efficient production technique of masonry mortar according to claim 2, it is characterised in that: the bottom agitator disk (54) middle part of bottom surface is connected through disk lower axle (541) with the top of dispersion ball (57), and the dispersion ball (57) includes left sky Center portion (571), middle solid part (572) and right hollow part (573), the left hollow part (571), right hollow part (573) inside It offers ball cavity (574), bottom surface of the top through disk lower axle (541) Yu bottom agitator disk (54) of the middle solid part (572) It is connected, is connected respectively with the inner face of left hollow part (571), right hollow part (573) at left and right sides of middle solid part (572), Left hollow part (571), right hollow part (573) outer end face on respectively offer a movable mouth (575) with corresponding ball cavity (574) it communicates, is provided with movable balls (581) in ball cavity (574), which is connected with the inner end of the axis of cone (582) It connects, the outer end drawing-in activity mouth (575) of the axis of cone (582) is connected with the inner end for the activity cone (58) for being located at dispersion ball (57) outside afterwards It connects, at least two cone blades (583), and the axis of cone (582), movable mouth (575), work is evenly arranged on the side wall of activity cone (58) The diameter of dynamic ball (581) is sequentially increased.

8. a kind of high efficient production technique of masonry mortar according to claim 7, it is characterised in that: the activity cone (58) it is lower than the bottom surface of bottom agitator disk (54), the dispersion ball (57) and thereon around the highest point that movable mouth (575) moves upwards The area of upright projection of two activity cones (58) on corresponding bottom agitator disk (54) bottom surface is less than the bottom of bottom agitator disk (54) The area in face.

9. a kind of high efficient production technique of masonry mortar according to claim 7, it is characterised in that: the discharge port (231) include discharge left mouth (232) and the right mouth (233) that discharges, the cylinder bottom (23) include left trousers portion (234), in several portions (235) with right trousers portion (236), it is described in several (235) several left foots for including several tops (237) and being connected with two bottom end (238), the inner end of several rights crus of diaphragm (239), the left trousers portion (234) is connected with the bottom end of several left foots (238), right trousers portion (236) Inner end be connected with the bottom end of several rights crus of diaphragm (239), the left mouth (232) of discharging, right trousers portion are offered on the bottom surface of left trousers portion (234) (236) the right mouth (233) of discharging is offered on bottom surface, and the surface on the top in left trousers portion (234), right trousers portion (236) is each Vacantly it is provided with a dispersion ball (57).

10. a kind of high efficient production technique of masonry mortar according to claim 9, it is characterised in that: the stirring is left The bottom of existing cell gap (501) is in contact with several tops (237) between unit (51), the right unit (50) of stirring, described The activity cone (58) stirred in left unit (51) is arranged in the left side on the top movable farthest point Jin Ji (237) on right side, described to stir The activity cone (58) mixed in right unit (50) is arranged on the right side on the top movable farthest point Jin Ji (237) in left side；A few tops The outer view (221) being arranged in (237) bottom surface of end is connected with the outer top depending on vertical tube (222), the bottom end of outer view vertical tube (222) It is vertical with the outer inner end depending on transverse tube (223) to connect.