Disclosure of Invention
The invention aims to provide a dustproof composite mortar mixing tank which can achieve the purpose of effectively mixing composite mortar by arranging a mixing unit, a driving unit and a dustproof unit on a tank body. The invention has the advantages of convenient and rapid stirring operation, uniform and flexible stirring, high stirring efficiency, convenient and flexible dustproof operation and comprehensive and thorough dustproof effect.
The technical scheme adopted by the invention for solving the problems is as follows: a dustproof composite mortar mixing tank comprises a tank body, a stirring unit which is hinged on the inner wall of the tank body and used for stirring in a reciprocating manner, a driving unit which is arranged on the tank body and used for driving a plurality of stirring units in sequence in a repulsive magnetic jacking manner, a dustproof unit which is used for covering and protecting composite mortar is arranged on the tank body, the dustproof unit comprises an installation column which is arranged on the upper ring surface of the tank body, a dustproof plate which is arranged on the installation column and used for sealing the tank body, an annular barrier plate which is arranged on the dustproof plate and used for blocking dust, a dust holding tank which is arranged on the upper surface of the dustproof plate, and a holding tank cover plate which is arranged on the dust holding tank, wherein the holding tank cover plate is fixed on the dust holding tank in a manner of mutual magnetic attraction with a holding tank peripheral magnet ring, and a holding ring for taking and placing is arranged on the containing groove cover plate.
The further preferred technical scheme is as follows: the stirring unit is in including setting up articulated seat on the staving inner wall, the rotatory setting is in stirring post on the articulated seat, and set up on the medial surface of stirring post upper end and be used for receiving the stirring post magnet of drive unit repulsion magnetic force.
The further preferred technical scheme is as follows: the driving unit comprises a driving base arranged on the inner wall of the barrel body, a driving motor arranged on the driving base, a rotating column arranged on the driving motor, and a magnet part arranged at the position outside the rotating column and used for repelling and jacking the magnet of the stirring column.
The further preferred technical scheme is as follows: the length of one side of the stirring column provided with the stirring column magnet is smaller than the length of one side of the stirring column extending into the composite mortar for stirring.
The further preferred technical scheme is as follows: the drive base is in including setting up base mounting panel on the staving inner wall, and set up installation cell body on the base mounting panel, driving motor and motor battery top-down set gradually in the fluting of installation cell body.
The further preferred technical scheme is as follows: the magnet part comprises an installation frame body, an electrified solenoid and a solenoid battery, wherein the installation frame body is arranged on the end face of the outer side of the rotary column and is provided with an outward opening, the electrified solenoid is arranged in the installation frame body and is used for repelling and jacking the magnet of the stirring column, the solenoid battery is arranged on the rotary column and is used for supplying power to the electrified solenoid, and a current adjusting part used for controlling the size of the reciprocating turning angle of the stirring column by adjusting the current of the electrified solenoid is arranged on a connecting circuit between the solenoid battery and the electrified solenoid.
The further preferred technical scheme is as follows: the installation frame body is internally provided with an installation core body for winding the electrified solenoid, and the installation frame body is provided with an inner side hole for a connecting wire to pass through.
The further preferred technical scheme is as follows: the current regulation portion is including setting up support body on the column spinner, the embedding sets up on the support body and with the arc conducting strip that the solenoid battery passes through the wire and connects, and with circular telegram solenoid wire connection and through the rotatory slip mode is in order to be used for adjusting on the arc conducting strip circular telegram solenoid electric current size's rotatory conducting plate.
The further preferred technical scheme is as follows: rotatory current conducting plate one end is articulated to be set up on the rotation axis, be equipped with on the rotation axis be used for with the spliced pole that the circular telegram solenoid carries out the wire and connects, be equipped with on the rotatory current conducting plate be used for on the arc current conducting plate carry out sliding connection's connection bulb.
The further preferred technical scheme is as follows: the frame body is arranged on the rotary column through a support, and the support is provided with a wire hole for a wire to pass through and be connected with the arc-shaped conducting strip embedded in the wire hole.
According to the invention, the purpose of effectively stirring the composite mortar is achieved by arranging the stirring unit, the driving unit and the dustproof unit on the barrel body. The invention has the advantages of convenient and rapid stirring operation, uniform and flexible stirring, high stirring efficiency, convenient and flexible dustproof operation and comprehensive and thorough dustproof effect.
Example (b): as shown in fig. 1, 2, 3, 4 and 5, a dustproof composite mortar mixing tank comprises a tank body 1, a mixing unit 2 hinged to the inner wall of the tank body 1 and used for mixing and stirring in a reciprocating manner, and a driving unit 3 arranged on the tank body 1 and used for driving a plurality of mixing units 2 in sequence in a repulsive magnetic jacking manner, wherein the tank body 1 is provided with a dustproof unit 4 used for covering and protecting composite mortar, the dustproof unit 4 comprises a mounting column 401 arranged on the upper surface of the tank body 1, a dustproof plate 402 arranged on the mounting column 401 and used for sealing the tank body 1, an annular blocking plate 403 arranged on the dustproof plate 402 and used for blocking dust, a dust holding tank 404 arranged on the upper surface of the dustproof plate 402, and a holding tank cover plate 405 arranged on the dust holding tank 404, the receiving cover plate 405 is fixed to the dust receiving groove 404 by a magnetic attraction with the receiving peripheral magnet ring 406, and the receiving cover plate 405 is provided with a holding ring 407 for taking and placing.
In this embodiment, a plurality of the even circumference of stirring unit 2 sets up on 1 inner wall of staving, drive unit 3 is rotatory in-process, jack-up in proper order stirring unit 2 makes stirring unit 2 is through the mode of stirring in vertical face is reciprocal, in order to be used for the stirring compound mortar guarantees the validity and the convenience of stirring operation.
On the other hand, the dust-proof unit 4 has the following advantages:
firstly, the dustproof unit 4 is integrally arranged on the upper ring surface of the barrel body 1, so that the use of the stirring unit 2 and the driving unit 3 is not influenced, and the effectiveness of a basic stirring effect is ensured;
secondly, the dust-proof plate 402 completely covers the barrel body 1, so that the composite mortar has the advantages of complete and thorough coverage protection, and the effectiveness of a dust-proof effect is ensured;
thirdly, the dust accommodating groove 404 is used for accommodating and collecting a certain amount of dust, and the dust guard 402 is inserted and arranged on the mounting column 401 to facilitate the ash removal operation, so as to ensure that the dust guard 402 has the advantages of long-term use and one-time ash removal;
fourth, holding tank apron 405 with the peripheral magnet ring 406 mutual magnetic attraction of holding tank guarantees that the dust that temporarily holds is difficult for kicking up once more, guarantees to hold the validity of effect, wherein holding tank apron 405 is ferrous material.
The stirring unit 2 comprises a hinged seat 201 arranged on the inner wall of the barrel body 1, a stirring column 202 rotatably arranged on the hinged seat 201, and a stirring column magnet 203 arranged on the inner side surface of the upper end of the stirring column 202 and used for receiving the repulsive magnetic force of the driving unit 3. The driving unit 3 includes a driving base 301 disposed on an inner wall of the tub 1, a driving motor 302 disposed on the driving base 301, a rotary column 303 disposed on the driving motor 302, and a magnet part 304 disposed at a position outside the rotary column 303 and serving to repel and lift up the agitating column magnet 203.
In the present embodiment, the stirring unit 2 and the driving unit 3 are used as follows:
firstly, before the driving motor 302 rotates, a plurality of rotating columns 303 all freely fall and keep vertical;
secondly, after the driving motor 302 rotates, the magnet part 304 repels and jacks up the stirring column magnet 203, so that the stirring part at the lower end of the stirring column 202 swings towards the center and approaches, two times of effective stirring are completed in a swinging and falling process, and the stirring comprehensiveness and effectiveness are ensured;
thirdly, according to the period that the stirring column 202 is swung up and falls down, adjust driving motor 302's rotation rate, make the column spinner 303 is rotatory extremely when stirring column magnet 203 corresponds the position, stirring column 202 just in time accomplishes the stirring period that turns, guarantees the maximum efficiency of rotatory stirring, consequently stirring unit 2 has stirring convenient operation swiftly to and stir thoroughly comprehensive advantage.
The length of the side of the stirring column 202 provided with the stirring column magnet 203 is smaller than the length of the side of the stirring column 202 extending into the composite mortar for stirring.
In this embodiment, the effect of the magnet portion 304 to jack up the mixing column 202 is equivalent to a "hard lever", so that the mixing column 202 has the advantages of small jacking distance at the upper end and small mixing angle at the lower end, but on the other hand, the angle at the lower end of the mixing column 202 is not too large, and it is sufficient to ensure that the mixing columns 202 do not touch each other.
Drive base 301 is including setting up base mounting panel 301a on the staving 1 inner wall, and set up installation cell body 301b on the base mounting panel 301a, driving motor 302 and motor battery 305 set gradually in top-down the fluting of installation cell body 301 b. The magnet part 304 includes a mounting frame 304a disposed on the outer end surface of the rotating column 303 and having an opening facing outward, an energizing solenoid 304b disposed in the mounting frame 304a for repelling and lifting the stirring column magnet 203, and a solenoid battery 304c disposed on the rotating column 303 for supplying power to the energizing solenoid 304b, wherein a current adjusting part 306 for controlling the reciprocating flipping angle of the stirring column 202 by adjusting the current of the energizing solenoid 304b is disposed on the connection circuit between the solenoid battery 304c and the energizing solenoid 304 b. The mounting frame 304a is provided with a mounting core 304d for winding the energized solenoid 304b, and the mounting frame 304a is provided with an inner opening 304e for passing a connecting wire.
In this embodiment, the magnet portion 304 has the advantage of adjustable magnetic force by means of the current adjustment portion 306, so as to ensure that the stirring rod 202 performs a reciprocating flipping operation flexibly and effectively.
On the other hand, the mounting core 304d is made of non-magnetic material and is only used for fixing the energized solenoid 304b to ensure jacking effectiveness and jacking strength, and the mounting structure of the energized solenoid 304b with the inner opening 304e is more compact, so that the problem of accidental pulling of connecting wires is avoided.
The current adjusting part 306 includes a frame body 306a disposed on the rotary column 303, an arc-shaped conductive plate 306b embedded in the frame body 306a and connected to the solenoid battery 304c by a wire, and a rotary conductive plate 306c connected to the energized solenoid 304b by a wire and rotatably sliding on the arc-shaped conductive plate 306b for adjusting the magnitude of the current of the energized solenoid 304 b. One end of the rotating conductive plate 306c is hinged to a rotating shaft 306d, a connecting post 306h for conducting wire connection with the energized solenoid 304b is arranged on the rotating shaft 306d, and a connecting ball head 306e for conducting sliding connection on the arc-shaped conductive plate 306b is arranged on the rotating conductive plate 306 c. The frame body 306a is disposed on the rotating column 303 through a bracket 306f, and the bracket 306f is provided with a wire guide hole 306g for a wire to pass through and be connected with the arc-shaped conductive sheet 306b embedded therein.
In this embodiment, the current adjusting part 306 has the following advantages:
firstly, the solenoid battery 304c is electrically connected with the electrified solenoid 304b sequentially through the arc-shaped conducting plate 306b, the connecting ball head 306e, the transduction electric plate 306c and the connecting column 306h, so that the magnetic force generation effectiveness of the electrified solenoid 304b is ensured;
secondly, the rotating conductive plate 306c drives the connecting ball head 306e to slide on the arc-shaped conductive plate 306b, the resistance of the access circuit is small when the connecting ball head is close to the lower end of the arc-shaped conductive plate 306b, the current of the electrified solenoid 304b is large, the magnetic force is large, the purpose of improving the reciprocating turning angle of the stirring column 202 is finally achieved, otherwise, the opposite is true, and the stirring operation flexibility is ensured;
thirdly, when the connecting ball head 306e slides out of the arc-shaped conducting strip 306b, the current of the energized solenoid 304b is cut off, and the stirring column 202 stops stirring operation, so that the stirring operation is enabled to have start-stop flexibility.
The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various modifications can be made within the knowledge of those skilled in the art without departing from the gist of the present invention. These are non-inventive modifications, which are intended to be protected by patent laws within the scope of the claims appended hereto.