CN109079993A - Architectural engineering mortar stirring device - Google Patents

Abstract

The present invention relates to a kind of architectural engineering mortar stirring devices, including cam part, piston-cylinder component, mortar teeter chamber, water supply component, feed chute and blow tank.By carrying out the setting of specific structure to cam, cooperates the set-up mode of mortar agitating shaft, so that mortar stirs evenly, without dead angle, and can be filled with uniformly tiny bubble in mortar, improve the quality of stirring mortar.

Description

Architectural engineering mortar stirring device

Technical field

The invention belongs to building machinery fields, and in particular to a kind of architectural engineering mortar stirring device.

Background technique

Mortar stirring is very common in construction projects, and mixing plant general at present is mixer truck, but this kind of stirring The uniformity of equipment stirring cannot be guaranteed, can only stir conventional local-style dwelling houses mortar, and spy higher for some intensity requirements For different building, after preparing relatively high-grade mortar, this conventional mixing plant exist stir it is uneven, overly moist or There is the problems such as stirring dead angle in overdrying, whipping process, therefore for high-grade mortar blending device, needs to overcome above-mentioned lack It falls into.

Summary of the invention

In view of the above technical problems, of the invention to propose a kind of architectural engineering mortar stirring device.

It is realized by following technological means:

A kind of architectural engineering mortar stirring device, including cam part, piston-cylinder component, mortar teeter chamber, water supply component, Feed chute and blow tank.

The cam part includes cam, camshaft and actuated by cams motor, and the construction of the cam is bull wheel and steamboat And the intermediate of connection bull wheel and steamboat, the bull wheel and steamboat are the half of horizontal cylindrical body, the intermediate is ladder Shape platform, the upper bottom surface of bucking ladder are respectively the side plane of the cylindrical body of steamboat and bull wheel, wherein the bull wheel radius of cam be R, The steamboat radius of cam is r, cam distance of shaft centers is L, and the relationship of three meets R=(2.5 ~ 3) r and 2R+r < L < 2R+2r, Axle center the distance between of the middle camshaft heart away from axle center and steamboat for bull wheel；The camshaft is fixedly arranged on the axle center of bull wheel, institute The output shaft for stating actuated by cams motor is connected with the camshaft and drives the cam axle.

The piston-cylinder component includes movable pressing board, elastomeric element, vertical supporting rod, piston plate, cylinder, outer unidirectional opening Valve, interior unidirectional opening valve and snorkel；The movable pressing board is horizontally placed on the cam bottom, and with the cam contact, in institute It is affixed in the piston plate for being located at cylinder interior by 1 or 2 or more vertical supporting rod being vertically arranged to state movable pressing board bottom, The vertical supporting rod inside and outside cylinder, is being provided between the movable pressing board by the roof of cylinder outside the roof of cylinder Elastomeric element is provided with interior unidirectional opening valve in cylinder bottom, the entrance of the gas for suction stroke, cylinder side most Bottom end is provided with outer unidirectional opening valve, the discharge of the gas for gas pressuring stroke, the snorkel and the outer unidirectional opening valve Connection.

The mortar teeter chamber includes U-shaped shell, pan feeding open closure, discharge openings baffle, the first stirring tube, first stirs Mix branch pipe, humidity sensor, upper protruding block, lower protruding block, sealing bearing, second stirring tube, second stirring branch pipe, driving motor with And aeration opening.

The U-shaped shell is horizontal, the open end top of U-shaped shell is provided with pan feeding open closure, lower part is provided with discharging Open closure, the pan feeding open closure and discharge openings baffle form vertical sealing surface when closing, and with the U-shaped shell It is integrally formed the shell of mortar teeter chamber.

The first stirring tube and the second stirring tube are vertically arranged in U-shaped shell, and the first stirring tube With the second stirring tube be hollow structure and top opening bottom is closed, and passes through the roof of sealing bearing and U-shaped shell up and down It is rotatablely connected with bottom wall, the first stirring tube top opening is connected to the snorkel, is arranged on the first stirring tube There is the first stirring branch pipe that three rows are horizontal, the first stirring branch pipe is also hollow structure and one end and the first stirring tube Inside connection, the setting of other end pyramidal structure, and the outer wall of the first stirring branch pipe is through-hole structure setting of gathering.

Two rows of the second horizontal stirring branch pipes are provided on the second stirring tube, during the second stirring branch pipe is also It is connected to inside hollow structure and one end and the second stirring tube, the setting of other end pyramidal structure, and the second stirring branch pipe Outer wall be through-hole structure setting of gathering, the first stirring branch pipe and the second stirring branch interval setting, described the One stirring tube and the second stirring tube bottom are connected with driving motor, and the revolving speed of two driving motors is set as phase Together, it is provided with convex block in the U-shaped shell inner roof wall between the first stirring tube and the second stirring tube and inner bottom wall, in U-shaped It is provided with aeration opening on the roof of shell, is provided with humidity sensor on the first stirring tube.

The water supply component is set to the top of the mortar teeter chamber, including water supply tank, water supply pipe and water supply valve, institute It states in water supply tank full of water, water supply tank bottom is provided with water supply pipe, described water supply pipe one end is connected to the water supply tank, another It holds and is connected with the top end opening of the second stirring tube, be provided with water supply valve on water supply pipe, the water supply valve is used It is opened or closed in due course in the data according to the humidity sensor, realizes and carry out moisturizing into the mortar teeter chamber and stop The only operation of moisturizing.

The feed chute is set to the outer top of the mortar teeter chamber, and at a distance from the mortar teeter chamber for less than Equal to the length of the pan feeding open closure, when the pan feeding open closure is opened, the pan feeding open closure it is upper End is in contact with the opening of the feed chute, and material is poured into mortar teeter chamber by the gradient of pan feeding open closure.

The blow tank is set to the outer lower part of the mortar teeter chamber, and at a distance from the mortar teeter chamber for less than Equal to the length of the discharge openings baffle, when the discharge openings baffle is opened, under the discharge openings baffle End is in contact with the opening of the blow tank, and material is imported into blow tank by the gradient of discharge openings baffle.

Further, the elastomeric element is spring, and the spring is arranged in outside the vertical supporting rod.

Further, the elastomeric element is aeroelasticity bar.

Further, the inner corner of the U-shaped shell is set as smooth fillet.

Further, the first stirring branch pipe is close to the bottom of the U-shaped shell, and the second stirring branch pipe is close to described Pan feeding open closure and discharge openings baffle.

Further, the first stirring branch pipe described in every row is 3.

Further, the second stirring branch pipe described in every row is 3.

Further, in the outside of the pan feeding open closure and the discharge openings baffle and U-shaped shell joint It is additionally provided with perpendicular plate, (pan feeding opening is kept off for sealing against each other pan feeding open closure and the discharge openings baffle and U-shaped shell Plate and the discharge openings baffle will perpendicular plate insertions after closing).

Further, the aeration opening setting is in the second stirring tube and pan feeding open closure and the discharge openings (as far as possible far from the first stirring branch pipe) on U-shaped shell roof between baffle.

Effect of the invention is that:

1, by mortar teeter chamber be arranged two stirring tubes, by by first stir tube be set as 3 row's branch pipes and Periodic intensity jet and the second stirring tube is set as the settings of 2 row's branch pipes with interval so that sand in the mixing chamber Slurry has inhomogeneities due to two tubes but has periodicity simultaneously while being stirred by each branch pipe, so that Mortar be stirred it is more uniform while made due to disorder shell edge stirring dead angle at mortar it is frequent It impacts and avoids the static enrichment of dead angle mortar, to also avoid the unevenness in the mortar of the mortar and mixing center of edge Even property.

Fillet is arranged by edge inside the shell simultaneously, avoids right angle that from retaining dead angle caused by mortar, to strengthen Turbulence effect, since the region between two tubes is lateral side-to-side movement region the most frequent, the top at this Convex block is arranged in wall and bottom wall, the generation of top and bottom percussion movement is enhanced while transversely acting movement, thus also strong Up and down motion is changed, to also provide enhanced turbulence effect.

2, by the way that the cam of specific itself mutual ratio is arranged so that from impacted in cylinder in the first stirring tube (after And be ejected into mortar by branch pipe) gas periodicity and strength coordination reach best.If the ratio of L is excessive, prolong Each period has been grown, but intensity does not increase too much, so that the intensity of the first stirring branch pipe jet does not reach most preferably, if The ratio of L is too small, then under the revolving speed of same motor, shortens the period, i.e., increase in the number of unit time inner piston movement , but the single pressure in cylinder does not reach requirement, so that but also jet effect does not reach most preferably, by multiple Optimal jet effect may be implemented in comparative experiments, the ratio for being set as of the invention.

Tube and branch pipe can be stirred with the first of jet by setting, can also be sprayed into mortar during stirring Bubble tiny and with certain kinetic energy, this bubble can be evenly distributed in mortar that (gas of floating can be arranged by aeration opening Out, to avoid forming the bubble being relatively large in diameter in the mortar on top), certain work is not only played to the uniformity of mortar With reducing the density of mortar to a certain extent also under the premise of proof strength.

3, by the way that humidity sensor is arranged on the tube of jet, when detect the humidity in mortar lower than setting threshold value Afterwards, then water supply valve is opened, water is added during stirring into mortar by the second stirring branch pipe, to improve the wet of mortar It spends and meets the requirements.Since humidity sensor is arranged far from the first stirring tube of water spray tube, what is measured is wet Degree can be more objective.

Water spray and jet are realized by the stirring branch pipe of rotation, enable the gentle body of water being added with fine uniform Form enter in mortar, and can also strengthen the stirring action of agitating shaft.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of architectural engineering mortar stirring device of the present invention.

Fig. 2 is the structural schematic diagram of cam in apparatus of the present invention.

Wherein: 1- cam, 2- camshaft, 3- movable pressing board, 4- elastomeric element, 5- vertical supporting rod, 6- piston plate, 7- gas Cylinder, unidirectional opening valve outside 8-, unidirectional opening valve in 9-, 10- snorkel, 11- first stir tube, and 12- first stirs branch pipe, 13- humidity sensor, fillet under 14-, the upper fillet of 15-, 16- upper protruding block, 17- lower protruding block, 18- seal bearing, and 19- second is stirred Tube, 20- second stir branch pipe, 21- driving motor, 22- water supply tank, 23- water supply valve, 24- aeration opening, 25- pan feeding opening Baffle, 26- feed chute, 27- discharge openings baffle, 28- blow tank, L- cam distance of shaft centers, R- cam bull wheel radius, r- cam are small Take turns radius.

Specific embodiment

Embodiment 1

As shown in Figure 1:

A kind of architectural engineering mortar stirring device, including cam part, piston-cylinder component, mortar teeter chamber, water supply component, Feed chute and blow tank.

The cam part includes cam, camshaft and actuated by cams motor, and the construction of the cam is bull wheel and steamboat And the intermediate of connection bull wheel and steamboat, the bull wheel and steamboat are the half of horizontal cylindrical body, the intermediate is ladder Shape platform, the upper bottom surface of bucking ladder are respectively the side plane of the cylindrical body of steamboat and bull wheel, wherein the bull wheel radius of cam be R, The steamboat radius of cam is r, cam distance of shaft centers is L, and the relationship of three meets R=2.85r and L=2R+1.52r, wherein cam Distance of shaft centers is the distance between axle center and axle center of steamboat of bull wheel；The camshaft is fixedly arranged on the axle center of bull wheel, the cam The output shaft of driving motor is connected with the camshaft and drives the cam axle.

The piston-cylinder component includes movable pressing board, elastomeric element, vertical supporting rod, piston plate, cylinder, outer unidirectional opening Valve, interior unidirectional opening valve and snorkel；The movable pressing board is horizontally placed on the cam bottom, and with the cam contact, in institute It is affixed in the piston plate for being located at cylinder interior by 2 vertical supporting rods being vertically arranged to state movable pressing board bottom, the support is perpendicular Bar inside and outside cylinder, is being provided with elastomeric element between the movable pressing board outside the roof of cylinder by the roof of cylinder, Cylinder bottom is provided with interior unidirectional opening valve, the entrance of the gas for suction stroke, the lowermost end in cylinder side is arranged There are outer unidirectional opening valve, the discharge of the gas for gas pressuring stroke, the snorkel is connected to the outer unidirectional opening valve.

The mortar teeter chamber includes U-shaped shell, pan feeding open closure, discharge openings baffle, the first stirring tube, first stirs Mix branch pipe, humidity sensor, upper protruding block, lower protruding block, sealing bearing, second stirring tube, second stirring branch pipe, driving motor with And aeration opening.

The U-shaped shell is horizontal, the open end top of U-shaped shell is provided with pan feeding open closure, lower part is provided with discharging Open closure, the pan feeding open closure and discharge openings baffle form vertical sealing surface when closing, and with the U-shaped shell It is integrally formed the shell of mortar teeter chamber.

The first stirring tube and the second stirring tube are vertically arranged in U-shaped shell, and the first stirring tube With the second stirring tube be hollow structure and top opening bottom is closed, and passes through the roof of sealing bearing and U-shaped shell up and down It is rotatablely connected with bottom wall, the first stirring tube top opening is connected to the snorkel, is arranged on the first stirring tube There is the first stirring branch pipe that three rows are horizontal, the first stirring branch pipe is also hollow structure and one end and the first stirring tube Inside connection, the setting of other end pyramidal structure, and the outer wall of the first stirring branch pipe is through-hole structure setting of gathering.

Two rows of the second horizontal stirring branch pipes are provided on the second stirring tube, during the second stirring branch pipe is also It is connected to inside hollow structure and one end and the second stirring tube, the setting of other end pyramidal structure, and the second stirring branch pipe Outer wall be through-hole structure setting of gathering, the first stirring branch pipe and the second stirring branch interval setting, described the One stirring tube and the second stirring tube bottom are connected with driving motor, and the revolving speed of two driving motors is set as phase Together.

It is provided with convex block on U-shaped shell inner roof wall and inner bottom wall between the first stirring tube and the second stirring tube, It is provided with aeration opening on the roof of U-shaped shell, is provided with humidity sensor on the first stirring tube.

The water supply component is set to the top of the mortar teeter chamber, including water supply tank, water supply pipe and water supply valve, institute It states in water supply tank full of water, water supply tank bottom is provided with water supply pipe, described water supply pipe one end is connected to the water supply tank, another It holds and is connected with the top end opening of the second stirring tube, be provided with water supply valve on water supply pipe, the water supply valve is used It is opened or closed in due course in the data according to the humidity sensor, realizes and carry out moisturizing into the mortar teeter chamber and stop The only operation of moisturizing.

The feed chute is set to the outer top of the mortar teeter chamber, and at a distance from the mortar teeter chamber for less than The length of the pan feeding open closure, when the pan feeding open closure is opened, the upper end of the pan feeding open closure is It is in contact with the opening of the feed chute, material is poured into mortar teeter chamber by the gradient of pan feeding open closure.

The blow tank is set to the outer lower part of the mortar teeter chamber, and at a distance from the mortar teeter chamber for less than The length of the discharge openings baffle, when the discharge openings baffle is opened, the lower end of the discharge openings baffle is It is in contact with the opening of the blow tank, material is imported into blow tank by the gradient of discharge openings baffle.

The elastomeric element is spring, and the spring is arranged in outside the vertical supporting rod.

The inner corner of the U-shaped shell is set as smooth fillet, and top is upper fillet, and lower part is lower fillet.

The first stirring branch pipe is open close to the bottom of the U-shaped shell, the second stirring branch pipe close to the pan feeding Baffle and discharge openings baffle.

The first stirring branch pipe is 3 described in every row.

The second stirring branch pipe is 3 described in every row.

It is additionally provided in the outside of the pan feeding open closure and the discharge openings baffle and U-shaped shell joint perpendicular Plate, for pan feeding open closure and the discharge openings baffle and U-shaped shell are sealed against each other (pan feeding open closure and it is described go out Material open closure will perpendicular plate insertion after closing).

The aeration opening setting is between the second stirring tube and pan feeding open closure and the discharge openings baffle U-shaped shell roof on (as far as possible far from first stirring branch pipe).

Comparative example 1

This comparative example is not provided with cam, but to replace cam with the ellipsoid of bull wheel same radius, other set-up modes with Embodiment 1 is identical, compares under identical condition and under conditions of revolving speed motor same as Example 1 rotation by 18 hours After test, mortar stirring chamber interior walls are detected, obtaining still remaining static mortar at the fillet of mortar teeter chamber (does not have Participate in stirring and evenly mixing the mortar of operation), and embodiment 1 does not detect static mortar.It is obtained after being sampled detection to mortar To the 92% of the mortar uniformity average out to embodiment 1 of this comparative example.

Comparative example 2

Cam part and piston-cylinder component are replaced into water supply component by this comparative example, by the first stirring branch pipe and the second stirring branch Pipe is set as identical structure.After 18 hours comparative tests, detection is sampled to mortar, obtains this comparative example sand The 81% of the uniformity average out to embodiment 1 of slurry, and mortar is connected in stirring chamber interior walls, and embodiment 1 is without this existing As.

Claims (9)

1. a kind of architectural engineering mortar stirring device, which is characterized in that stirred including cam part, piston-cylinder component, mortar Mix room, water supply component, feed chute and blow tank；

The cam part includes cam, camshaft and actuated by cams motor, the construction of the cam be bull wheel and steamboat and The intermediate of bull wheel and steamboat is connected, the bull wheel and steamboat are the half of horizontal cylindrical body, and the intermediate is bucking ladder, The upper bottom surface of bucking ladder is respectively the side plane of the cylindrical body of steamboat and bull wheel, and wherein the bull wheel radius of cam is R, cam Steamboat radius is r, cam distance of shaft centers is L, and the relationship of three meets R=(2.5 ~ 3) r and 2R+r < L < 2R+2r, wherein cam Distance of shaft centers is the distance between axle center and axle center of steamboat of bull wheel；The camshaft is fixedly arranged on the axle center of bull wheel, the cam The output shaft of driving motor is connected with the camshaft and drives the cam axle；

The piston-cylinder component include movable pressing board, elastomeric element, vertical supporting rod, piston plate, cylinder, outer unidirectional opening valve, Interior unidirectional opening valve and snorkel；The movable pressing board is horizontally placed on the cam bottom, and with the cam contact, in the work Dynamic pressure plate bottom is affixed in the piston plate for being located at cylinder interior by 1 or 2 or more vertical supporting rod being vertically arranged, described Vertical supporting rod is run through inside and outside cylinder by the roof of cylinder, flexible being arranged between the movable pressing board outside the roof of cylinder Component is provided with interior unidirectional opening valve, the entrance of the gas for suction stroke, the lowermost end in cylinder side in cylinder bottom It is provided with outer unidirectional opening valve, the discharge of the gas for gas pressuring stroke, the snorkel is connected to the outer unidirectional opening valve；

The mortar teeter chamber includes U-shaped shell, pan feeding open closure, discharge openings baffle, the first stirring tube, the first stirring branch Pipe, humidity sensor, upper protruding block, lower protruding block, sealing bearing, the second stirring tube, the second stirring branch pipe, driving motor and exposure Port；The U-shaped shell is horizontal, the open end top of U-shaped shell is provided with pan feeding open closure, lower part is provided with discharge openings Baffle, the pan feeding open closure and discharge openings baffle form vertical sealing surface when closing, and whole with the U-shaped shell The shell of mortar teeter chamber is constituted, the first stirring tube and the second stirring tube are vertically arranged in U-shaped shell, and described First stirring tube and the second stirring tube are that hollow structure and top opening bottom are closed, up and down by sealing bearing with The roof and bottom wall of U-shaped shell are rotatablely connected, and the first stirring tube top opening is connected to the snorkel, in the first stirring It is provided with the first horizontal stirring branch pipe of three rows on tube, the first stirring branch pipe is also hollow structure and one end and described the Connection inside one stirring tube, the setting of other end pyramidal structure, and the outer wall of the first stirring branch pipe is the through-hole structure that gathers It is arranged, two rows of the second horizontal stirring branch pipes is provided on the second stirring tube, the second stirring branch pipe is also hollow It is connected to inside structure and one end and the second stirring tube, the setting of other end pyramidal structure, and the second stirring branch pipe Outer wall is through-hole structure setting of gathering, the first stirring branch pipe and the second stirring branch interval setting, described first Stirring tube and the second stirring tube bottom are connected with driving motor, and the revolving speed of two driving motors is set as identical, It is provided with convex block on U-shaped shell inner roof wall and inner bottom wall between the first stirring tube and the second stirring tube, in U-shaped shell It is provided with aeration opening on roof, is provided with humidity sensor on the first stirring tube；

The water supply component is set to the top of the mortar teeter chamber, including water supply tank, water supply pipe and water supply valve, the benefit In water tank be full of water, water supply tank bottom is provided with water supply pipe, described water supply pipe one end is connected to the water supply tank, the other end and The top end opening of the second stirring tube is connected, and is provided with water supply valve on water supply pipe, and the water supply valve is used for root It is opened or closed in due course according to the data of the humidity sensor, realizes and carry out moisturizing into the mortar teeter chamber and stop mending The operation of water；

The feed chute is set to the outer top of the mortar teeter chamber, and at a distance from the mortar teeter chamber for less than or equal to The length of the pan feeding open closure, when the pan feeding open closure is opened, the upper end of the pan feeding open closure is It is in contact with the opening of the feed chute, material is poured into mortar teeter chamber by the gradient of pan feeding open closure；

The blow tank is set to the outer lower part of the mortar teeter chamber, and at a distance from the mortar teeter chamber for less than or equal to The length of the discharge openings baffle, when the discharge openings baffle is opened, the lower end of the discharge openings baffle is It is in contact with the opening of the blow tank, material is imported into blow tank by the gradient of discharge openings baffle.

2. architectural engineering mortar stirring device according to claim 1, which is characterized in that the elastomeric element is bullet Spring, and the spring is arranged in outside the vertical supporting rod.

3. architectural engineering mortar stirring device according to claim 1, which is characterized in that the elastomeric element is pneumatic Elastic rod.

4. architectural engineering mortar stirring device according to claim 1, which is characterized in that the inside of the U-shaped shell turns Angle is set as smooth fillet.

5. architectural engineering mortar stirring device according to claim 1, which is characterized in that the first stirring branch pipe leans on The bottom of the nearly U-shaped shell, the second stirring branch pipe is close to the pan feeding open closure and discharge openings baffle.

6. architectural engineering mortar stirring device according to claim 1, which is characterized in that the first stirring branch described in every row Pipe is 3.

7. architectural engineering mortar stirring device according to claim 1, which is characterized in that the second stirring branch described in every row Pipe is 3.

8. architectural engineering mortar stirring device according to claim 1, which is characterized in that in the pan feeding open closure Be additionally provided with perpendicular plate with the outside of the discharge openings baffle and U-shaped shell joint, for by pan feeding open closure and The discharge openings baffle and U-shaped shell seal against each other that (pan feeding open closure and the discharge openings baffle be willed after closing should Perpendicular plate insertion).

9. architectural engineering mortar stirring device according to claim 1, which is characterized in that the aeration opening is arranged in institute It states on the U-shaped shell roof between the second stirring tube and pan feeding open closure and the discharge openings baffle (as far as possible far from first Stir branch pipe).