CN112873541B - Concrete prefabricated section production facility - Google Patents

Abstract

The invention discloses a concrete precast block production device, which structurally comprises: the invention discloses a concrete mixer, which comprises a frame, a mixing tank, a hopper and a swing device, wherein the mixing tank is internally provided with a mixing shaft, a mixing blade and a magnet strip, the swing device is arranged on the top surface of the mixing blade and consists of a pressure receiving plate, an upper spring column, a lower biting clamp, a pushing frame and a hitting mechanism, the upper spring column and the lower biting clamp are propped against the bottom end of the pressure receiving plate and the inside of the mixing blade together, the pushing frame is fixedly connected with the arched end of the lower biting clamp, the hitting mechanism is arranged at the outer end of the mixing blade, the invention leads the concrete stirred to a high position to impact the pressure receiving plate in advance when hitting the mixing blade, the pressed plate is further pressed downwards through lower biting belt, and the pressed plate and the upper elastic column are driven to be pressed upwards and downwards, so that the pressed plate can shake up and down when being impacted by concrete, the concrete is shaken off as soon as possible, and the concrete is prevented from solidifying on the stirring blade to influence the concrete stirring effect.

Description

Concrete prefabricated section production facility

Technical Field

The invention relates to the field of concrete equipment, in particular to concrete precast block production equipment.

Background

When the concrete precast block is produced, the concrete is stirred by a stirrer for production, and then the concrete is placed into a precast block grinding tool for forming;

but agitated vessel is at the during operation, stirs the operation through the end in the stirring leaf outside to the concrete, when stirring leaf rotation was slow, receives the rotatory concrete that drives the top of stirring leaf, because the speed falls inadequately, smashes on the stirring leaf of next-level, in the concrete that can flow back to the concrete material naturally of surface one deck, and smash the concrete on the stirring leaf at first and adhere on the stirring leaf easily, influence the weight of stirring leaf and produce when rotatory and rock, cause the influence to the shaping of concrete.

Disclosure of Invention

In order to solve the problems, the invention provides a concrete precast block production device.

In order to achieve the purpose, the invention is realized by the following technical scheme: a concrete precast block production facility, its structure includes: the stirring device comprises a frame, a stirring barrel, a hopper and a swinging device, wherein the stirring barrel is installed on the frame, the hopper is arranged at the rear part of the stirring barrel, a stirring shaft, a stirring blade and a magnet strip are arranged in the stirring barrel, the stirring shaft is arranged in the stirring barrel along the axial direction of the stirring barrel, the stirring blade is in a bent plate shape and is arranged on the stirring shaft, the magnet strip is arranged at the right side of the stirring barrel, the inclination amplitude of the magnet strip is matched with the bending radian of the stirring blade, the swinging device is arranged on the top surface of the stirring blade, the swinging device comprises a pressure plate, an upper bouncing post, a lower biting clamp, a pushing frame and a hitting mechanism, the pressure plate is arranged on the top surface of the stirring blade, the pressure plate is in soft connection with the top surface of the stirring blade, the upper bouncing post and the lower biting clamp are together propped against the bottom end of the pressure plate and the inside of the stirring blade, the lower biting clamp is in an arc shape and the arching end is arranged towards the horizontal direction, and the pushing frame is fixedly connected with the arching end of the lower biting clamp, the vibration mechanism is arranged at the tail end of the outer side of the stirring blade.

Preferably, the compression plate is arranged on the upper surface of the stirring blade along the length direction of the stirring blade, the upper elastic columns and the lower biting clamps are arranged in four rows in the front view direction, and the upper elastic columns and the lower biting clamps are distributed between the compression plate and the stirring blade along the length direction of the stirring blade.

Preferably, it comprises vertical bar, cross brace to go up the bullet post, the vertical bar is equipped with two and for the laminating state, the vertical bar middle part is the structure of slotting, the cross brace is horizontal setting at the middle part of last bullet post, the cross brace both ends are connected with the vertical bar, the cross brace provides centripetal pulling force between the vertical bar, compresses the vertical bar through the compression board pushes down, makes the vertical bar middle part strut to both sides, provides centripetal pulling force through the brace simultaneously and pulls the vertical bar towards the centre for go up the bullet post and can produce elasticity when the compression board pushes down, will receive the board jack-up.

Preferably, sting down and pressing from both sides both ends and providing the central elasticity that stings the clamp downwards, sting the clamp down and move the compression plate and push down to with last bullet post drive compression plate and go up the bullet, make the compression plate can produce when receiving the concrete striking and rock, will still be in the concrete of flow state and shake off as soon as possible, avoid the concrete to solidify on the stirring leaf, influence concrete mixing effect.

Preferably, hit and shake mechanism by hitting the round pin, inhale the piece, the spring is constituteed, hit round pin block at stirring leaf outside end, hit the head direction directional (mixing) shaft centre of a circle of round pin, inhale the piece and fix the afterbody of hitting the round pin, the spring supports and hits the round pin and strike the frame through the spring drive and strike the round pin and strike, make down sting the clamp and upwards prop up, will hit the striking of round pin and pass through the rigidity transmission and give the pressure receiving plate, shake loose and shake the concrete that falls on the pressure receiving plate, avoid the concrete to solidify on the stirring leaf.

Preferably, push away the frame and the mechanism that shocks is equipped with a plurality ofly and set up along the length direction of stirring leaf with the correspondence, it all is equipped with eight in every fixed range who pushes away the frame to sting the clamp down.

Preferably, the movement locus of the suction block is in the adsorption range of the magnet strip, and the magnetic force of the magnet strip is greater than the elastic force of the spring, so that the magnet strip can attract the hitting pin, and the hitting pin can be ejected out after being separated from the adsorption range of the magnet strip to impact the pushing frame.

Preferably, inhale the piece and be the iron material, stirring leaf outside end is the aluminum alloy material, avoids the magnet strip to take place the magnetic screen, has guaranteed that the magnet strip is to the adsorption of piece.

Advantageous effects

Compared with the prior art, the invention has the following beneficial effects:

1. according to the invention, the swinging device is arranged on the upper end surface of the stirring blade, so that when the concrete stirred to a high position is hit and falls on the stirring blade, the concrete is impacted on the pressure receiving plate in advance, the pressure receiving plate is further pressed downwards by the downward biting belt, and the pressure receiving plate is driven by the upper elastic column to be upwards and downwards bounced, so that the pressure receiving plate can generate vertical swinging when being impacted by the concrete, the concrete still in a flowing state is shaken off as soon as possible, and the concrete is prevented from being solidified on the stirring blade to influence the concrete stirring effect;

2. according to the invention, the shock-absorbing mechanism is arranged in the tail end of the outer side of the stirring blade and is matched with the magnet strip on the right side of the stirring barrel, the magnet strip attracts the absorbing block to drive the shock pin, the shock pin can be ejected out by the elastic force of the spring after being separated from the absorption range of the magnet strip, the push frame is impacted, the lower biting clamp is upwards supported, the impact of the shock pin is transmitted to the pressure receiving plate through rigidity, the concrete on the pressure receiving plate is shaken loose and dropped, and the concrete is prevented from being solidified on the stirring blade.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic front sectional view of the stirring barrel of the present invention.

Fig. 3 is a schematic front sectional view of the swing device of the present invention.

Fig. 4 is a schematic front view of the upper bullet column of the present invention.

FIG. 5 is a schematic front view of the shock mechanism of the present invention.

Fig. 6 is a schematic three-dimensional structure of a lower bite clamp and a push frame of the present invention.

In the figure: the device comprises a frame-1, a stirring barrel-2, a hopper-3, a swing device-4, a stirring shaft-21, a stirring blade-22, a magnet strip-23, a pressure receiving plate-41, an upper elastic column-42, a lower snap clamp-43, a push frame-44, a shock hitting mechanism-45, a vertical strip-421, a cross pull strip-422, a shock hitting pin-451, a suction block-452 and a spring-453.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Example one

As shown in fig. 1 to 3, the present invention provides a concrete precast block production apparatus, which structurally comprises: frame 1, agitator 2, hopper 3, swing device 4 that falls, agitator 2 installs in frame 1, hopper 3 is established at agitator 2's rear, be equipped with (mixing) shaft 21, stirring leaf 22, magnet strip 23 in agitator 2, stirring shaft 21 is established in agitator 2 along 2 axis directions of agitator, stirring leaf 22 is crooked platelike and establishes on (mixing) shaft 21, magnet strip 23 is established on the right side of agitator 2 and the crooked radian phase-match of range of slope and stirring leaf 22, swing device 4 and establish on the top surface of stirring leaf 22, swing device 4 comprises pressure receiving plate 41, last spring prop 42, lower bite 43, push frame 44, impact mechanism 45 of falling, pressure receiving plate 41 is established on the top surface of stirring leaf 22, pressure receiving plate 41 is soft connection with the top surface of stirring leaf 22, go up spring prop 42 and lower bite 43 and together support the bottom at pressure receiving plate 41 and the inside of stirring leaf 22, the lower biting clamp 43 is arc-shaped, the arched end of the lower biting clamp is arranged towards the horizontal direction, the pushing frame 44 is fixedly connected with the arched end of the lower biting clamp 43, and the shock-absorbing mechanism 45 is arranged at the tail end of the outer side of the stirring blade 22.

As shown in fig. 3, the pressure receiving plate 41 is disposed on the upper surface of the stirring blade 22 along the length direction of the stirring blade 22, the upper spring columns 42 and the lower snap clips 43 are arranged in four rows in the front view direction, and the upper spring columns 42 and the lower snap clips 43 are distributed between the pressure receiving plate 41 and the stirring blade 22 along the length direction of the stirring blade 22.

As shown in fig. 4, the pop-up column 42 is composed of vertical bars 421 and cross braces 422, the vertical bars 421 are two and are in a fit state, the middle of the vertical bars 421 is in a slotted structure, the cross braces 422 are transversely arranged in the middle of the pop-up column 42, two ends of the cross braces 422 are connected with the vertical bars 421, the cross braces 422 provide centripetal tension between the vertical bars 421, the vertical bars 421 are compressed by the compression of the compression plate 41, the middle of the vertical bars 421 are spread to two sides, and the vertical bars 421 are pulled towards the middle by the centripetal tension provided by the braces 422, so that the pop-up column 42 can generate elastic force when the compression plate 41 is pressed down, and the compression plate 41 is lifted up.

As shown in fig. 3, the two ends of the lower biting clamp 43 provide central elastic force for the lower biting clamp 43, the lower biting clamp 43 drives the pressure receiving plate 41 to press down, and the upper elastic column 42 drives the pressure receiving plate 41 to pop up, so that the pressure receiving plate 41 can shake when being impacted by concrete, the concrete still in a flowing state can be shaken off as soon as possible, and the concrete is prevented from solidifying on the stirring blades, and the concrete stirring effect is not affected.

The working principle of the present invention is explained as follows:

when the device is used, concrete raw materials are put into the stirring barrel 2 through the hopper 3, the stirring shaft 21 is driven to work to drive the stirring blades 22 to rotate, the concrete in the stirring barrel 2 is stirred, when the stirring blades 22 rotate to drive the concrete at the top to fall due to insufficient speed and hit the top of the next-stage stirring blades 22, the concrete is hit on the pressure receiving plate 41 in advance, downward pulling force is provided through the lower biting clamp 43 to drive the pressure receiving plate 41 to further press down, the pressed upper elastic columns 42 are propped open to two sides through the middle of the upright strip 421, meanwhile, centripetal pulling force is provided through the pull strip 422 to pull the upright strip 421 towards the middle, so that the upper elastic columns 42 can generate elastic force when the pressure receiving plate 41 is pressed down, the pressure receiving plate 41 is propped up, the pressure receiving plate 41 can generate vertical shaking when being impacted by the concrete, the concrete still in a flowing state can be shaken off as soon as possible, and the concrete is prevented from being solidified on the stirring blades, affecting the concrete mixing effect.

Example two

As shown in fig. 1 to 3, the present invention provides a concrete precast block production apparatus, which structurally comprises: frame 1, agitator 2, hopper 3, swing device 4 that falls, agitator 2 installs in frame 1, hopper 3 is established at agitator 2's rear, be equipped with (mixing) shaft 21, stirring leaf 22, magnet strip 23 in agitator 2, stirring shaft 21 is established in agitator 2 along 2 axis directions of agitator, stirring leaf 22 is crooked platelike and establishes on (mixing) shaft 21, magnet strip 23 is established on the right side of agitator 2 and the crooked radian phase-match of range of slope and stirring leaf 22, swing device 4 and establish on the top surface of stirring leaf 22, swing device 4 comprises pressure receiving plate 41, last spring prop 42, lower bite 43, push frame 44, impact mechanism 45 of falling, pressure receiving plate 41 is established on the top surface of stirring leaf 22, pressure receiving plate 41 is soft connection with the top surface of stirring leaf 22, go up spring prop 42 and lower bite 43 and together support the bottom at pressure receiving plate 41 and the inside of stirring leaf 22, the lower biting clamp 43 is arc-shaped, an arched end of the lower biting clamp 43 faces to the horizontal direction, the pushing frame 44 is fixedly connected with the arched end of the lower biting clamp 43, and the impact mechanism 45 is arranged at the outer end of the stirring blade 22.

As shown in fig. 3, the pressure receiving plate 41 is disposed on the upper surface of the stirring blade 22 along the length direction of the stirring blade 22, the upper spring columns 42 and the lower snap clips 43 are arranged in four rows in the front view direction, and the upper spring columns 42 and the lower snap clips 43 are distributed between the pressure receiving plate 41 and the stirring blade 22 along the length direction of the stirring blade 22.

As shown in fig. 4, the pop-up column 42 is composed of vertical bars 421 and cross braces 422, the vertical bars 421 are two and are in a fit state, the middle of the vertical bars 421 is in a slotted structure, the cross braces 422 are transversely arranged in the middle of the pop-up column 42, two ends of the cross braces 422 are connected with the vertical bars 421, the cross braces 422 provide centripetal tension between the vertical bars 421, the vertical bars 421 are compressed by the compression of the compression plate 41, the middle of the vertical bars 421 are spread to two sides, and the vertical bars 421 are pulled towards the middle by the centripetal tension provided by the braces 422, so that the pop-up column 42 can generate elastic force when the compression plate 41 is pressed down, and the compression plate 41 is lifted up.

As shown in fig. 3, the two ends of the lower biting clamp 43 provide central elastic force for the lower biting clamp 43, the lower biting clamp 43 drives the pressure receiving plate 41 to press down, and the upper elastic column 42 drives the pressure receiving plate 41 to pop up, so that the pressure receiving plate 41 can shake when being impacted by concrete, the concrete still in a flowing state can be shaken off as soon as possible, and the concrete is prevented from solidifying on the stirring blades, and the concrete stirring effect is not affected.

As shown in fig. 5, the impact mechanism 45 comprises a striking pin 451, an absorbing block 452, and a spring 453, wherein the striking pin 451 is engaged with the outer end of the stirring blade 22, the head direction of the striking pin 451 points to the center of the stirring shaft 21, the absorbing block 452 is fixed at the tail of the striking pin 451, the spring 453 is abutted against the tail of the striking pin 451 and the inner wall end of the stirring blade 22, the striking pin 451 is driven by the spring 453 to impact the pushing frame 44, the lower engaging clip 43 is upwards supported, the impact of the striking pin 451 is transmitted to the pressure receiving plate 41 through rigidity, and the concrete on the pressure receiving plate 41 is loosened and dropped by vibration, so that the concrete is prevented from being solidified on the stirring blade.

As shown in fig. 6, a plurality of pushing frames 44 and a plurality of knocking mechanisms 45 are correspondingly arranged along the length direction of the stirring blade 22, and eight lower biting clamps 43 are arranged in the fixed range of each pushing frame 44.

As shown in fig. 5, the movement locus of the suction block 452 is within the suction range of the magnet bar 23, and the magnetic force of the magnet bar 23 is larger than the elastic force of the spring 453, so that the magnet bar 23 can attract the striking pin 451, and the striking pin 451 can be ejected after being out of the suction range of the magnet bar 23 to strike the holder 44.

As shown in fig. 5, the suction block 452 is made of iron, and the outer end of the stirring blade 22 is made of aluminum alloy, so that the magnetic shielding of the magnet strip 23 is avoided, and the adsorption of the magnet strip 23 on the suction block 452 is ensured.

The working principle of the present invention is explained as follows:

when the stirring shaft 21 drives the stirring blade 22 to rotate, and the head part rotates to the adsorption range of the magnet strip 23, the stirring mechanism 45 is adsorbed by the magnet strip 23, and then the stirring pin 451 is driven to compress the spring 453, when the stirring blade 22 leaves the adsorption range of the magnet strip 23, the spring 453 drives the stirring pin 451 to impact the pushing frame 44, so that the lower biting clamp 43 is upwards supported, the impact of the stirring pin 451 is transmitted to the pressure receiving plate 41 through rigidity, the concrete on the pressure receiving plate 41 is loosened and fallen by vibration, and the solidification of the concrete on the stirring blade is avoided.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

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.

Claims (7)

1. A concrete precast block production facility, its structure includes: frame (1), agitator (2), hopper (3), swing device (4) that falls, its characterized in that:

the stirring barrel (2) is mounted on the frame (1), the hopper (3) is arranged at the rear of the stirring barrel (2), a stirring shaft (21), a stirring blade (22) and a magnet strip (23) are arranged in the stirring barrel (2), the stirring shaft (21) is arranged in the stirring barrel (2) along the axis direction of the stirring barrel (2), the stirring blade (22) is in a bent plate shape and is arranged on the stirring shaft (21), the magnet strip (23) is arranged on the right side of the stirring barrel (2), the inclination amplitude of the magnet strip is matched with the bending radian of the stirring blade (22), and the swinging device (4) is arranged on the top surface of the stirring blade (22);

swing and fall device (4) by receive pressure plate (41), go up bullet post (42), sting down and press from both sides (43), push away frame (44), hit and shake mechanism (45) and constitute, receive pressure plate (41) and establish on the top surface of stirring leaf (22), the top surface that receives pressure plate (41) and stirring leaf (22) is soft to be connected, it plays post (42) and stings down to press from both sides (43) and together support in the bottom of receiving pressure plate (41) and the inside of stirring leaf (22), sting down and press from both sides (43) and be circular-arc and hunch end towards the horizontal direction setting, push away frame (44) fixed connection and sting the hunch end of pressing from both sides (43) down, hit and shake mechanism (45) and establish at the outside end of stirring leaf (22).

2. The apparatus for producing a concrete precast block according to claim 1, wherein: the length direction that receives pressure plate (41) along stirring leaf (22) sets up the upper surface at stirring leaf (22), it presss from both sides (43) with stinging down to go up bullet post (42) is equipped with four rows on the direction of looking, it presss from both sides (43) with stinging down to go up bullet post (42) and stinging down and distributes between pressure plate (41) and stirring leaf (22) along the length direction of stirring leaf (22).

3. The apparatus for producing a concrete precast block according to claim 1, wherein: go up bullet post (42) by founding strip (421), cross brace (422) and constitute, found strip (421) are equipped with two and for the laminating state, found strip (421) middle part is the structure of slotting, cross brace (422) are horizontal setting at the middle part of last bullet post (42), cross brace (422) both ends are connected with founding strip (421), cross brace (422) provide centripetal pulling force between founding strip (421).

4. The apparatus for producing a concrete precast block according to claim 1, wherein: the two ends of the lower biting clamp (43) provide central elastic force for the lower biting clamp (43).

5. The apparatus for producing a concrete precast block according to claim 1, wherein: the shock-absorbing mechanism (45) is composed of a hitting pin (451), a suction block (452) and a spring (453), the hitting pin (451) is clamped at the outer end of the stirring blade (22), the head direction of the hitting pin (451) points to the circle center of the stirring shaft (21), the suction block (452) is fixed at the tail part of the hitting pin (451), and the spring (453) abuts against the tail part of the hitting pin (451) and the tail end of the inner wall of the stirring blade (22).

6. The apparatus for producing a concrete precast block according to claim 1, wherein: the pushing frame (44) and the shock beating mechanism (45) are correspondingly provided with a plurality of pushing frames and shock beating mechanisms, the number of the pushing frames is eight, and the number of the lower biting clamps (43) is eight in the fixed range of each pushing frame (44).

7. The apparatus for producing a concrete precast block according to claim 5, wherein: the motion trail of the suction block (452) is in the adsorption range of the magnet bar (23), and the magnetic force of the magnet bar (23) is larger than the elastic force of the spring (453).

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