CN108656357B - Annular jet type multistage blanking mortar stirring device - Google Patents

Abstract

The invention discloses an annular jet type multistage blanking mortar stirring device which comprises a vertically arranged shuttle type stirring installation cylinder, wherein the lower end of the shuttle type stirring installation cylinder is obliquely provided with a plurality of supporting installation columns at equal angles, the lower end of the shuttle type stirring installation cylinder extends to the right lower part to be provided with a transmission guide installation plate, the middle position of the shuttle type stirring installation cylinder is vertically provided with a driving rotating shaft in a penetrating way, the upper end of the shuttle type stirring installation cylinder is matched with the driving rotating shaft and is provided with feeding guide installation columns at equal angles horizontally through a limiting transmission disc, the driving rotating shaft is matched with the limiting transmission disc to be embedded with a limiting rotary disc, and the lower end of the shuttle type stirring installation cylinder is matched with the supporting installation columns to be provided with a vibration transmission structure.

Description

Annular jet type multistage blanking mortar stirring device

Technical Field

The invention relates to construction machinery, in particular to an annular jet type multistage blanking mortar stirring device.

Background

The mortar agitating unit is common production facility among the construction machinery, and traditional mortar stirring is owing to adopt old individual layer stirring structure, causes the single volume of stirring to be few, can not stir in succession, stirs inhomogeneous and can not control scheduling problem according to the mobility of mortar in the stirring process.

In order to solve the problems, the invention provides the mortar stirring device, and solves the problems that the single stirring amount is small, continuous stirring cannot be performed, stirring is not uniform, control cannot be performed according to the fluidity of mortar in the stirring process and the like due to the adoption of a single-layer stirring structure, and the like of the currently used mortar stirring device.

Disclosure of Invention

The invention aims to provide an annular jet type multistage blanking mortar stirring device to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

an annular jet type multistage discharged mortar stirring device comprises a vertically arranged shuttle type stirring installation barrel, wherein a plurality of supporting installation columns are obliquely arranged at equal angles at the lower end of the shuttle type stirring installation barrel, a transmission guide installation plate extends out from the lower end of the shuttle type stirring installation barrel to the right lower part, an active rotating shaft vertically penetrates through the middle position of the shuttle type stirring installation barrel, the upper end of the shuttle type stirring installation barrel is matched with the active rotating shaft and is provided with feeding guide installation columns through a limiting transmission disc in an equal angle manner horizontally, the active rotating shaft is matched with the limiting transmission disc to be embedded with a limiting turntable, the lower end of the shuttle type stirring installation barrel is matched with the supporting installation columns to be provided with a vibration transmission structure, the vibration transmission structure comprises a motor installation barrel horizontally embedded towards the right half at the middle position of the left supporting installation column, and a master controller is embedded in the upper end of the motor installation barrel in a, the inside of the motor installation barrel is horizontally embedded with a driving motor, the right end of the motor installation barrel is matched with the shuttle-type stirring installation barrel to be provided with a transmission installation cover, the driving motor is vertically and coaxially provided with a synchronous driving gear rightwards through a motor rotating shaft extending into the transmission installation cover, the synchronous driving gear comprises a straight gear arranged on the left half section and a driving bevel gear arranged on the right half section, the lower end of the driving rotating shaft extends into the transmission installation cover and is matched with the synchronous driving gear to be provided with a transmission bevel gear, the upper right corner of the motor installation barrel horizontally extends rightwards to be provided with a limiting rotating shaft, the right end of the limiting rotating shaft is matched with the synchronous driving gear to be provided with a transmission gear, the middle position of the limiting rotating shaft is vertically provided with a vibration cam, the inside of the shuttle-type stirring installation barrel is matched with the driving rotating shaft to be vertically provided with conical surface buffering guide plates, the intermediate position that the conical surface slowed down the material guide plate all cooperates the initiative pivot to be provided with the transmission bearing housing, and all inlays in the transmission bearing housing and be provided with pressure sensitive sensor, the inside of the left end of shuttle type stirring installation section of thick bamboo is inlayed and is provided with main flow tube, and the equal coaxial half of downside that the conical surface slowed down the material guide plate of shuttle type stirring installation section of thick bamboo cooperation is inlayed and is provided with cyclic annular shunt tubes, and the left end of cyclic annular shunt tubes all communicates with main flow tube through the branch.

As a further scheme of the invention: the right-hand member of transmission guide mounting panel is provided with through the pivot that resets and rotates the fender material guide plate.

As a further scheme of the invention: the upper end of the transmission guide mounting plate is provided with a guide chute in a downward embedding mode, and the lower right corner of the shuttle-shaped stirring mounting cylinder is matched with the transmission guide mounting plate to be provided with an arc-shaped discharging gate downwards.

As a further scheme of the invention: the upper end of the shuttle-shaped stirring installation cylinder is provided with a conical surface feeding cylinder in a matching manner with the feeding flow guide installation column, and the inner side of the conical surface feeding cylinder is provided with feeding guide grooves at equal angles.

As a further scheme of the invention: the middle position of the transmission bevel gear is downwards matched with the transmission mounting cover to be vertically provided with a stable rotating shaft.

As a further scheme of the invention: the main flow guide pipe extends out from the lower left corner of the shuttle-shaped stirring installation cylinder and is provided with an airtight installation sleeve in a matching mode, electromagnetic valves are embedded in the branch pipes, and a one-way flow guide valve is embedded at the lower end of the main flow guide pipe.

As a still further scheme of the invention: the annular shunt pipes extend downwards at equal angles and are provided with jet pipes.

Compared with the prior art, the invention has the beneficial effects that: the invention solves the problems that the stirring efficiency is low and the stirring amount of the mortar is small because the mortar is adhered to the cylinder wall in stirring, and the like in the currently used mortar stirring device, so that the invention has the advantages of compact structural design, continuous stirring process, high transmission efficiency, good stirring effect, quick discharging and the like.

Drawings

Fig. 1 is a schematic structural diagram of an annular jet type multistage blanking mortar stirring device.

Fig. 2 is a schematic structural diagram of a vibration transmission structure in an annular jet type multistage blanking mortar stirring device.

Fig. 3 is a schematic view of a partial structure of a main flow guide pipe in an annular jet type multistage blanking mortar stirring device.

Fig. 4 is a schematic structural diagram of an annular shunt tube in an annular jet type multistage blanking mortar stirring device.

Fig. 5 is a top view of a shuttle-shaped stirring installation barrel in the annular jet type multistage blanking mortar stirring device.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 5, in the embodiment of the present invention, an annular jet type multistage discharged mortar mixing device includes a vertically arranged shuttle type mixing installation cylinder 8, a plurality of support installation pillars 4 are obliquely arranged at equal angles at the lower end of the shuttle type mixing installation cylinder 8, a transmission guide installation plate 3 is extended from the lower end of the shuttle type mixing installation cylinder 8 to the right lower side, a rotary material blocking and guiding plate 5 is arranged at the right end of the transmission guide installation plate 3 through a reset rotation shaft, a material guiding groove 7 is inlaid at the upper end of the transmission guide installation plate 3 to the right lower side, an arc discharging gate 6 is arranged at the right lower corner of the shuttle type mixing installation cylinder 8 in a downward direction in cooperation with the transmission guide installation plate 3, a driving rotation shaft 11 is vertically penetrated through the middle position of the shuttle type mixing installation cylinder 8, a feeding guide installation pillar 13 is horizontally arranged at equal angles in cooperation with the driving rotation shaft 11 at the upper end of the shuttle type mixing installation, a limiting rotary disc 14 is embedded and arranged on the driving rotary shaft 11 in a matching manner with a limiting transmission disc, a conical surface feeding cylinder 12 is arranged at the upper end of the shuttle-shaped stirring installation cylinder 8 in a matching manner with a feeding guide installation column 13, a feeding guide groove is arranged at the inner side of the conical surface feeding cylinder 12 at equal angles, a vibration transmission structure is arranged at the lower end of the shuttle-shaped stirring installation cylinder 8 in a matching manner with a supporting installation column 4 and comprises a motor installation cylinder horizontally embedded towards the right half at the middle position of the supporting installation column 4 at the left side, a master controller 1 is embedded and arranged at the upper end of the motor installation cylinder in a matching manner with the supporting installation column 4, a driving motor 2 is horizontally embedded and arranged in the motor installation cylinder, a transmission installation cover 18 is arranged at the right end of the motor installation cylinder in a matching manner with the shuttle-shaped stirring installation cylinder 8, and a synchronous, the synchronous driving gear 19 comprises a spur gear arranged on the left half section and a driving bevel gear arranged on the right half section, the lower end of a driving rotating shaft 11 extends into a transmission installation cover 18 and is matched with the synchronous driving gear 19 to be provided with a transmission bevel gear 21, the middle position of the transmission bevel gear 21 is downwards matched with the transmission installation cover 18 to be vertically provided with a stable rotating shaft 22, the upper right corner of the motor installation cylinder horizontally extends rightwards to be provided with a limiting rotating shaft, the right end of the limiting rotating shaft is matched with the synchronous driving gear 19 to be provided with a transmission gear 16, the middle position of the limiting rotating shaft is vertically provided with a vibration cam 17, the interior of the shuttle-shaped stirring installation cylinder 8 is matched with the driving rotating shaft 11 to be vertically provided with conical surface buffering guide plates 9 at equal intervals, the adjacent conical surface buffering guide plates 9 and the conical surface buffering guide, the intermediate position of conical surface buffer material guide plate 9 all cooperates initiative pivot 11 to be provided with the transmission bearing housing, and all inlays in the transmission bearing housing and be provided with pressure sensitive sensor, the inside of the left end of shuttle type stirring installation section of thick bamboo 8 is inlayed and is provided with main flow tube 15, and the downside of shuttle type stirring installation section of thick bamboo 8 cooperation conical surface buffer material guide plate 9 is all coaxial half to inlay and is provided with cyclic annular shunt tubes 25, and the left end of cyclic annular shunt tubes 25 all communicates with main flow tube 15 through the branch pipe, main flow tube 15 stretches out and the cooperation is provided with airtight installation cover 20 from the lower left corner of shuttle type stirring installation section of thick bamboo 8, and the inside of branch pipe is all inlayed and is provided with solenoid valve 26, and main flow tube 15's lower extreme is inlayed and is provided with one.

The working principle of the invention is as follows: pouring materials into a shuttle-shaped stirring installation cylinder 8 from a conical surface feeding cylinder 12, starting water adding through an electromagnetic valve 26 at the upper end, starting a driving motor 2 to drive a synchronous driving gear 19, enabling each stirring impeller group 10 to rotate through transmission, enabling the stirred mortar to fall down from a conical surface buffering guide plate 9 step by step along with stirring, repeatedly stirring, accumulating in the conical surface buffering guide plate 9 when the fluidity of the mortar is poor, controlling the corresponding electromagnetic valve to start through a pressure-sensitive sensor and a master controller 1, enabling high-pressure water flow to be ejected from a jet pipe 24, adding water along the cylinder wall, enabling the mortar to continuously fall down in a matching stirring manner, finally falling on the upper end of a transmission guide installation plate 3 under the action of gravity, completing rightward sliding discharging under the vibration of a vibration cam 17, fully opening the electromagnetic valve 26 for cleaning, overcoming the currently used mortar stirring device, and adopting a single-layer stirring structure, the problems that the single stirring amount is small, continuous stirring cannot be carried out, stirring is not uniform, control cannot be carried out according to the fluidity of mortar in the stirring process and the like are solved, and the problems that the stirring efficiency is low, the stirring amount of mortar is small and the like due to the fact that mortar is adhered to the cylinder wall in stirring of a currently used mortar stirring device are solved, so that the stirring device has the advantages of compact structural design, coherent stirring process, high transmission efficiency, good stirring effect, quick discharging and the like.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. The utility model provides a multistage blanking mortar agitating unit of annular efflux formula, shuttle type stirring installation section of thick bamboo (8) including vertical setting, a serial communication port, the lower extreme equal angle slope of shuttle type stirring installation section of thick bamboo (8) is provided with a plurality of support erection columns (4), and the lower extreme of shuttle type stirring installation section of thick bamboo (8) is stretched out to the right below and is provided with transmission guide mounting panel (3), and the intermediate position of shuttle type stirring installation section of thick bamboo (8) is vertical to be run through and is provided with initiative pivot (11), upper end cooperation initiative pivot (11) of shuttle type stirring installation section of thick bamboo (8) are provided with feeding water conservancy diversion erection column (13) through angle such as spacing driving disc level, and initiative pivot (11) cooperation spacing driving disc is inlayed and is provided with spacing carousel (14), the lower extreme cooperation support erection column (4) of shuttle type stirring installation section of thick bamboo (8) is provided with vibrations transmission structure, vibrations transmission structure includes that left support erection column (4) The motor installation cylinder, the upper end cooperation support erection column (4) of motor installation cylinder are inlayed and are provided with total controller (1), the inside level of motor installation cylinder is inlayed and is provided with driving motor (2), the right-hand member cooperation shuttle type stirring installation cylinder (8) of motor installation cylinder is provided with transmission installation cover (18), driving motor (2) is right through stretching into the vertical coaxial synchronous driving gear (19) that is provided with of motor shaft of transmission installation cover (18), synchronous driving gear (19) are including the spur gear that the left half section set up and the initiative bevel gear that the right half section set up, and the lower extreme of initiative pivot (11) stretches into transmission installation cover (18) and cooperation synchronous driving gear (19) is provided with transmission bevel gear (21), the upper right corner level of motor installation cylinder stretches out to be provided with spacing pivot, and the right-hand member cooperation synchronous driving gear (19) of spacing pivot is provided with drive gear (, and a vibration cam (17) is vertically arranged in the middle of the limiting rotating shaft, conical surface buffering guide plates (9) are vertically arranged in the shuttle-shaped stirring installation cylinder (8) in a manner of matching with the driving rotating shaft (11) at equal intervals, stirring impeller groups (10) are arranged above the adjacent conical surface buffering guide plates (9) and the conical surface buffering guide plate (9) at the uppermost end in a manner of matching with the shuttle-shaped stirring installation cylinder (8), the middle position of the conical surface buffer material guide plate (9) is provided with a transmission bearing sleeve matched with the driving rotating shaft (11), and pressure-sensitive sensors are embedded in the transmission bearing sleeves, a main flow guide pipe (15) is embedded in the left end of the shuttle-type stirring installation barrel (8), an annular flow dividing pipe (25) is coaxially and semi-embedded at the lower side of the shuttle-type stirring installation barrel (8) matched with the conical surface buffering flow guide plate (9), and the left end of the annular flow dividing pipe (25) is communicated with the main flow guide pipe (15) through a branch pipe.

2. The annular jet type multistage blanking mortar stirring device according to claim 1, wherein a rotary material blocking and guiding plate (5) is arranged at the right end of the transmission material guiding mounting plate (3) through a reset rotating shaft.

3. The annular jet flow type multistage blanking mortar stirring device as claimed in claim 1, wherein a guide chute (7) is embedded at the upper end of the transmission guide mounting plate (3) to the right and downwards, and an arc-shaped discharge gate (6) is arranged downwards at the right lower corner of the shuttle-shaped stirring mounting cylinder (8) in cooperation with the transmission guide mounting plate (3).

4. The annular jet flow type multistage blanking mortar stirring device according to claim 1, wherein the upper end of the shuttle-shaped stirring installation cylinder (8) is provided with a conical feeding cylinder (12) in cooperation with the feeding guide installation column (13), and the inner side of the conical feeding cylinder (12) is provided with feeding guide grooves at equal angles.

5. The annular jet type multistage blanking mortar stirring device as claimed in claim 1, wherein a stable rotating shaft (20) is vertically arranged at the middle position of the transmission bevel gear (21) and is matched with the transmission mounting cover (18) downwards.

6. The annular jet flow type multistage blanking mortar stirring device according to claim 1, wherein the main flow guide pipe (15) extends out from the lower left corner of the shuttle-shaped stirring installation cylinder (8) and is provided with an airtight installation sleeve (22) in a matching manner, electromagnetic valves (26) are embedded in the branch pipes, and a one-way flow guide valve (23) is embedded at the lower end of the main flow guide pipe (15).

7. The annular jet type multistage blanking mortar stirring device according to claim 1, wherein the annular shunt tubes (25) are provided with jet tubes (24) extending downwards at equal angles.

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