CN111993592A

CN111993592A - Concrete elastic stirrer

Info

Publication number: CN111993592A
Application number: CN202010926028.3A
Authority: CN
Inventors: 杨淑芬
Original assignee: Individual
Current assignee: Hebei Changxin Electric Power Equipment Co.,Ltd.
Priority date: 2020-09-07
Filing date: 2020-09-07
Publication date: 2020-11-27
Anticipated expiration: 2040-09-07
Also published as: CN111993592B

Abstract

The invention discloses a concrete elastic stirrer, which belongs to the field of concrete and comprises a stirring bin, a power system, a stirring rod and stirring blades, wherein the power system is arranged at the upper part of the stirring bin, the power system is connected with the stirring rod and drives the stirring rod to rotate, the stirring rod is provided with a plurality of stirring blades, the side surface of the stirring rod is provided with a plurality of mounting cavities for mounting the stirring blades, the tail end parts of the stirring blades are positioned in the mounting cavities, spring cavities are formed between the tail ends of the stirring blades and the bottoms of the mounting cavities, and first springs are arranged in the spring cavities.

Description

Concrete elastic stirrer

Technical Field

The invention relates to the field of concrete.

Background

Concrete mixing is an operation method for uniformly mixing cement, lime, water and other materials. Concrete mixing is divided into two types, manual mixing and mechanical mixing. The mixture is premixed once, namely the chamber is rinsed firstly, so as to avoid influencing the mixing ratio of the mixture during formal mixing. Starting the stirrer, sequentially adding the stones, the sand and the cement into the stirrer, uniformly stirring the stones, the sand and the cement in a dry mode, and slowly adding the water. Stirring through stirring vane in some blenders, stirring vane will receive the great shearing force of concrete, and under some inhomogeneous circumstances, local shearing force too big influence stirring vane for stirring vane is easy to be out of shape.

Disclosure of Invention

The invention provides a concrete elastic stirrer, which comprises a stirring bin, a power system, a stirring rod and stirring blades, wherein the power system is arranged at the upper part of the stirring bin, the power system is connected with the stirring rod and drives the stirring rod to rotate, the stirring rod is provided with a plurality of stirring blades, the stirring device is characterized in that a plurality of mounting cavities for mounting stirring blades are arranged on the side face of the stirring rod, the end parts of the stirring blades are positioned in the mounting cavities, spring cavities are formed between the ends of the stirring blades and the bottoms of the mounting cavities, first springs are arranged in the spring cavities, ear cavities are symmetrically distributed on two sides of the mounting cavities, ear parts positioned in the ear cavities are arranged on two sides of the stirring blades, the ear parts can move in the ear cavities along the axial direction of the stirring blades, the first springs are in a compression state, and the ear parts are extruded to the extreme edges of the ear cavities by the first springs so that the stirring blades cannot move towards the first spring direction when being subjected to small force; the stirring blade is provided with a cavity, the cavity comprises a small air cavity and an atmosphere cavity, the section of the small air cavity is smaller than that of the atmosphere cavity, the small air cavity extends to the spring cavity along the axial distribution of the stirring blade, and the side surface of the atmosphere cavity is provided with a plurality of induction components; the induction assembly comprises a first movable cavity positioned outside, a first magnetic block and a contact head connected with the first magnetic block are arranged in the first movable cavity, a second spring is arranged between the first magnetic block and the bottom of the first movable cavity, one part of the contact head extends out of the edge of the stirring blade, and when the contact head is impacted by concrete, the contact head can drive the first magnetic block to move towards the direction of the second spring and extrude the second spring; the induction assembly further comprises a second movable cavity, the second movable cavity is communicated with the atmosphere cavity, a first piston is arranged in the second movable cavity, a channel capable of being communicated with two sides of the first piston is arranged on the first piston, a second magnetic block is arranged on the first piston, a third spring is arranged between the first piston and the bottom of the second movable cavity, and the first magnetic block and the second magnetic block are mutually repelled; the sensing assembly further comprises a third movable cavity, a second piston is arranged in the third movable cavity, the first piston and the second piston are connected through a rod body, the third movable cavity corresponds to the second movable cavity in position, and the second piston can move in the third movable cavity and can divide the third movable cavity into an outer cavity communicated with the outside and an inner cavity communicated with the atmosphere cavity. When stirring vane is driven to rotate by the stirring rod, the contact head on the induction assembly drives the first magnetic block to move when the contact head is enlarged by the concrete extrusion force, and forms repulsion force for the second magnetic block to drive the first piston to move, the first piston drives the second piston to move so as to reduce the air pressure of the atmosphere cavity, so that the air pressure of the spring cavity is further reduced, the stirring vane is further contracted towards the inside of the stirring rod, the stirring force on the stirring vane is reduced, and the stirring vane is protected.

In a preferred embodiment, the bottom of the stirring bin is provided with a feeding port, and the bottom of the stirring bin is provided with a discharging port.

In a preferred embodiment, the stirring bin is externally connected with a rotating shaft, the rotating shaft is connected with a support, and the stirring bin can be driven to rotate around the support relative to the rotating shaft.

Drawings

FIG. 1 is a schematic structural view;

FIG. 2 is a schematic view of a stirring blade;

FIG. 3 is a diagram of a sensing assembly;

FIG. 4 is a schematic illustration of a powertrain;

FIG. 5 is a schematic view of an active stirring rod;

FIG. 6 is a cross-sectional view of the stirring rod;

FIG. 7 is a schematic view of a follower link;

the labels in the figure are: the labels in the figure are: 100-stirring bin, 110-discharging port, 120-charging port, 300-power system, 400-stirring rod, 410-driving stirring rod, 411-curve cavity, 412-limit magnetic block, 420-driven stirring rod, 421-center rod, 422-curve rod, 423-connecting part, 424-movable magnetic block, 500-stirring blade, 510-cavity, 511-spring cavity, 512-small air cavity, 513-atmosphere cavity, 520-mounting cavity, 521-ear cavity, 530-first spring, 540-induction component, 541-first movable cavity, 542-contact head, 543-first magnetic block, 544-second spring, 545-second movable cavity, 546-third spring, 547-first piston, 548-second magnetic block, 549-third movable cavity, 5491-outer cavity, 5492-inner cavity, 5410-rod body, 5411-second piston, 550-ear part, 600-rotating shaft, 700-bracket, 810-first magnetic induction piece, 811-first electromagnetic piece, 812-second electromagnetic piece, 813-guide rail, 814-wire, 815-magnetic block, 816-guide rod, 820-second magnetic induction piece, 830-rotating rod, 831-guide groove and 832-bearing.

Detailed Description

Example 1: the utility model provides a concrete elastic mixing ware, including stirring storehouse 100, driving system 300, puddler 400, stirring vane 500, driving system installs the upper portion at the stirring storehouse, driving system 300 and puddler 400 are connected and drive the puddler and rotate, be equipped with a plurality of stirring vane 500 on the puddler, the bottom of stirring storehouse 110 is equipped with charge door 120, the charge door is arranged in adding the concrete material to the stirring storehouse, the charge door is equipped with usually and can opens and closed door, the bottom of stirring storehouse is equipped with discharge gate 110, discharge gate 110 can release the material that the stirring is good, discharge gate 110 is equipped with can open and closed door. The stirring storehouse is externally connected with axis of rotation 600, and the axis of rotation is connected with support 700, and the stirring storehouse can be driven relative axis of rotation and rotate around support 700, and the support is fixed mounting usually on the concrete truck, and the axis of rotation rotates around support 700 and makes the stirring storehouse rotate in order to assist the stirring round the axis of rotation.

Fig. 2 is an enlarged view of the mixing blade 500 of fig. 1, and as shown in fig. 2, the side of the mixing rod 400 is provided with a plurality of mounting cavities 511 for mounting the mixing blade 500, the mounting cavities are generally in a concave structure, the end portions of the mixing blades are located in the mounting cavities 511, most of the mixing blades are located outside the mixing rod, the outer portions of the mixing blades contact with concrete for mixing, the structure of the mixing blades located in the mounting cavities 511 is generally in a cylindrical structure so as to be capable of better matching with the mounting cavities, and the outer portions of the mixing blades located on the mixing rod are generally in a blade structure so as to be capable of more fully mixing the concrete. A spring cavity 511 is formed between the tail end of the stirring blade and the bottom of the mounting cavity, a first spring 530 is arranged in the spring cavity, ear cavities 521 which are symmetrically distributed are arranged on two sides of the mounting cavity 520, ear parts 550 which are positioned in the ear cavities are arranged on two sides of the stirring blade, the ear parts can move in the ear cavities along the axial direction of the stirring blade, the first spring 530 is in a compression state, and the ear parts are extruded to the extreme edge of the ear cavities by the first spring so that the stirring blade cannot move towards the first spring when being subjected to small force; the stirring blade is provided with a cavity 510, the cavity comprises a small air cavity 512 and an atmosphere cavity 513, the section of the small air cavity is smaller than that of the atmosphere cavity, the small air cavity extends to the spring cavity 511 along the axial distribution of the stirring blade, and the side surface of the atmosphere cavity is provided with a plurality of induction components 540; the sensing assembly 540 comprises a first movable cavity 541 located outside, a first magnetic block 543 and a contact 542 connected with the first magnetic block are arranged in the first movable cavity, a second spring 544 is arranged between the first magnetic block and the bottom of the first movable cavity, a part of the contact extends out of the edge of the stirring blade, and when the contact is impacted by concrete, the contact can drive the first magnetic block 543 to move towards the direction of the second spring and extrude the second spring 544; the induction assembly further comprises a second movable cavity 545 which is communicated with the atmosphere cavity, a first piston 547 is arranged in the second movable cavity, a channel capable of being communicated with two sides of the first piston is arranged on the first piston, a second magnetic block 548 is arranged on the first piston, a third spring 546 is arranged between the bottom of the first piston and the bottom of the second movable cavity, and the first magnetic block and the second magnetic block are mutually repelled; the sensing assembly further comprises a third movable cavity 549, a second piston 5411 is arranged in the third movable cavity, the first piston and the second piston are connected through a rod body 5410, the third movable cavity corresponds to the second movable cavity in position, and the second piston can move in the third movable cavity and can divide the third movable cavity into an outer cavity 5491 communicated with the outside and an inner cavity 5492 communicated with the atmosphere cavity.

When stirring vane is driven to rotate by the stirring rod, the concrete is too big to the stirring vane resistance, contact head 542 on the sensing assembly 540 drives the first magnetic block 543 to move when the contact head is enlarged by the concrete extrusion force, and form repulsion force to the second magnetic block, drive the first piston to move, the first piston drives the second piston to move and then reduce the atmospheric pressure of atmospheric cavity, further make the atmospheric pressure of spring chamber 511 reduce, and further make stirring vane contract towards the inside of the stirring rod, reduce the stirring power of concrete on the stirring vane, protect stirring vane. On the contrary, when the concrete resistance is reduced, the stirring blades are extended, and the stirring can be better performed.

Example 2: the embodiment is improved, the invention discloses a concrete mixer, which comprises a mixer body, wherein a mixing bin 100 is arranged on the mixer body, a power system 300 and a mixing rod 400 connected with the power system 300 are arranged on the mixing bin, a mixing blade 500 is arranged at the tail end of the mixing rod, a first magnetic induction element 810 and a second magnetic induction element 820 are arranged in the power system, the first magnetic induction element and the second magnetic induction element comprise a first electromagnetic element 811 and a second electromagnetic element 812, a guide rail 813 connecting the first electromagnetic element and the second electromagnetic element is a straight line, a magnetic block 813 is arranged on the guide rail, the acting forces of the first electromagnetic element and the second electromagnetic element on the magnetic block are in the same direction at the same time point, the magnetic force directions of the first electromagnetic element and the second electromagnetic element can be changed to drive the magnetic block to reciprocate along the guide rail, a guide rod 816 is arranged on the magnetic block, and a rotatable guide rod 830 is arranged between the first magnetic induction element and the second magnetic induction element, be equipped with guide slot 831 on the dwang, in the middle of the guide slot is inserted to the guide slot, the guide arm can remove along the guide slot, and the center of dwang is equipped with bearing 832, and the bearing is connected with puddler 400, and the axial is one-way axial. The magnetic block is driven by the first electromagnetic piece and the second electromagnetic piece to do reciprocating motion, so that the rotating rod swings in a reciprocating mode, and the stirring rod rotates. The first electromagnetic part 811 and the second electromagnetic part 812 are in a straight line, so that a larger magnetic force can be improved, and meanwhile, the two magnetic sensing parts drive the rotating rod to rotate, so that a larger torque is provided for the rotating rod, and the rotating rod can provide a larger torque for the stirring rod.

The stirring rod comprises a driving stirring rod 410 and a driven stirring rod 420, the driving stirring rod is connected with the rotating rod, the driven stirring rod is provided with stirring blades, at least one part of the driving stirring rod is hollow, the driving stirring rod is provided with a curve cavity 411, the bottom of the curve cavity is provided with a limiting magnetic block 412, the driven stirring rod is provided with 2 connecting parts 423, the 2 connecting parts are connected with a curve rod 422, one part of the curve rod is inserted into the curve cavity 411, the curve rod is matched with the curve cavity so that the curve rod can rotate in the curve cavity around the axial direction of the driven stirring rod, the tail end of the curve rod, which is inserted into the curve cavity, is provided with a movable magnetic block 424, the other tail end of the curve rod is propped against by the driving stirring rod so that the movable magnetic block and the limiting magnetic block have certain repulsion force, when the radial rotating force between the driving stirring rod and the driven stirring rod is large, the movable magnetic block can move towards the limiting magnetic block so that the driving stirring rod and the driven stirring rod can rotate radially. The first and second

electromagnetic members

811 and 820 are provided with wires 814, the direction of current flow of which can be changed. As shown in fig. 5, at least a portion of the active stirring rod has a semicircular ring shape in section. The center of the magnetic block 815 is provided with a through channel through which the guide rail 813 passes. As shown in fig. 6, when the driving mixing rod rotates around the arrow direction in the figure, since the position limiting magnetic block 412 and the movable magnetic block 424 have a certain pre-loading repulsive force, when the torque force between the driving mixing rod and the driven mixing rod is small, the driving mixing rod and the driven mixing rod do not rotate, so as to provide rigidity, and when the torque force between the driving mixing rod and the driven mixing rod is large, the driving mixing rod and the driven mixing rod rotate, so as to improve elasticity, and protect the mixing rod while providing sufficient mixing force.

Claims

1. The utility model provides a concrete elastic mixer, including stirring storehouse (100), driving system (300), puddler (400), stirring vane (500), driving system installs the upper portion in the stirring storehouse, driving system (300) and puddler (400) are connected and are driven the puddler and rotate, be equipped with a plurality of stirring vane (500) on the puddler, a serial communication port, puddler (400) side is equipped with installation cavity (511) of a plurality of installation stirring vane (500), stirring vane tip portion is located installation cavity (511), form spring cavity (511) between stirring vane's the end and the bottom of installation cavity, be equipped with first spring (530) in the spring cavity, the both sides of installation cavity (520) are equipped with ear cavity (521) of symmetric distribution, stirring vane's both sides are equipped with ear (550) that are located the ear cavity, the ear can be in the ear cavity along stirring vane's axial direction removal, the first spring (530) is in a compressed state, and the ear part is pressed to the most edge of the ear cavity by the first spring so that the stirring blade cannot move towards the first spring when being subjected to small force; the stirring blade is provided with a cavity (510), the cavity comprises a small air cavity (512) and an atmosphere cavity (513), the section of the small air cavity is smaller than that of the atmosphere cavity, the small air cavity extends to the spring cavity (511) along the axial distribution of the stirring blade, and the side surface of the atmosphere cavity is provided with a plurality of induction components (540); the induction assembly (540) comprises a first movable cavity (541) located outside, a first magnetic block (543) and a contact head (542) connected with the first magnetic block are arranged in the first movable cavity, a second spring (544) is arranged between the first magnetic block and the bottom of the first movable cavity, one part of the contact head extends out of the edge of the stirring blade, and when the contact head is impacted by concrete, the contact head can drive the first magnetic block (543) to move towards the direction of the second spring and extrude the second spring (544); the induction assembly further comprises a second movable cavity (545) which is communicated with the atmosphere cavity, a first piston (547) is arranged in the second movable cavity, a channel capable of being communicated with two sides of the first piston is arranged on the first piston, a second magnetic block (548) is arranged on the first piston, a third spring (546) is arranged between the bottom of the first piston and the bottom of the second movable cavity, and the first magnetic block and the second magnetic block are mutually repelled; the sensing assembly further comprises a third movable cavity (549), a second piston (5411) is arranged in the third movable cavity, the first piston and the second piston are connected through a rod body (5410), the third movable cavity corresponds to the second movable cavity in position, and the second piston can move in the third movable cavity and can divide the third movable cavity into an outer cavity (5491) communicated with the outside and an inner cavity (5492) communicated with the atmosphere cavity.

2. The concrete elastic mixer according to claim 1, characterized in that the bottom of the mixing bin (110) is provided with a feed inlet (120), and the bottom of the mixing bin is provided with a discharge outlet (110).

3. Concrete elastic mixer according to claim 2, characterized in that a rotating shaft (600) is connected to the outside of the mixing silo, a bracket (700) is connected to the rotating shaft, and the mixing silo can be driven to rotate around the bracket (700) relative to the rotating shaft.