CN110696188B

CN110696188B - Concrete device

Info

Publication number: CN110696188B
Application number: CN201911067594.7A
Authority: CN
Inventors: 武玲玲
Original assignee: Suzhou Zhongli Thermal Insulation And Energy Saving Materials Co ltd
Current assignee: Suzhou Zhongli Thermal Insulation And Energy Saving Materials Co ltd
Priority date: 2019-11-04
Filing date: 2019-11-04
Publication date: 2020-11-20
Anticipated expiration: 2039-11-04
Also published as: CN110696188A

Abstract

The invention discloses a concrete device which comprises a main machine body, wherein a water inlet control valve is arranged at the top of the left end face of the main machine body, a movable cavity is arranged in the main machine body, a mixing cavity is arranged at the bottom of the left side of the movable cavity, a mixing and stirring mechanism is arranged in the mixing cavity, a material guide cavity is communicated between the mixing cavity and the movable cavity, the concrete device also comprises a lifting and feeding mechanism arranged in the main machine body, and a power control mechanism in power fit connection with the mixing and stirring mechanism and the lifting and feeding mechanism.

Description

Concrete device

Technical Field

The invention relates to the technical field of concrete, in particular to a concrete device.

Background

Along with the development of the times, people's standard of living constantly improves, concrete building is more and more, it is indispensable to stir the concrete in building work progress, the material of concrete is by cement more, sand and water mix the stirring together according to a certain proportion and form, present mixer simple structure, it is reinforced to need artifical hopper, degree of automation is not high, be unfavorable for practicing thrift the resource of using manpower sparingly, waste time and energy, whole work efficiency is low, high labor strength, the function is single, the practicality is not good enough, can not satisfy modernized building engineering's needs.

Disclosure of Invention

The object of the present invention is to provide a concrete arrangement which overcomes the above-mentioned drawbacks of the prior art.

The concrete device comprises a main machine body, wherein a water inlet control valve is arranged at the top of the left end face of the main machine body, a movable cavity is arranged in the main machine body, a mixing cavity is arranged at the bottom of the left side of the movable cavity, a mixing and stirring mechanism is arranged in the mixing cavity, a material guide cavity is communicated between the mixing cavity and the movable cavity,

the lifting feeding mechanism is arranged in the main body, and the power control mechanism is in power fit connection with the mixing and stirring mechanism and the lifting feeding mechanism;

wherein, the lifting and feeding mechanism comprises a lifting cavity which is communicated with the right end wall of the bottom of the movable cavity and a lifting chute which is communicated with the left end wall of the lifting cavity, an open slot is arranged in the right end face of the main body and communicated with the lifting cavity, a lifting sliding table is connected in the lifting cavity in a sliding fit manner, a through chute which is arranged in a through manner from left to right is arranged in the top end wall of the lifting sliding table, a storage slider is connected in the through chute in a sliding fit manner, a storage trough which is arranged in a through manner from top to bottom is arranged in the storage slider, first chutes are symmetrically arranged in the front end wall of the through chute in a sliding fit manner, a first slider which is fixedly connected with the storage slider in a matching manner is connected in the first chute in a sliding fit manner, and a jacking spring is connected between the left end face, a second sliding chute is communicated with the right side position of the top end wall of the lifting cavity, a second sliding block with the bottom end extending into the movable cavity is connected in the second sliding chute in a sliding fit manner, a first screw rod extending leftwards and rightwards is connected in the second sliding block in a matching manner, the left end of the first screw rod is in power fit connection with a first motor fixedly embedded in the left end wall of the second sliding chute, the right end of the first screw rod is in rotating fit connection with the right end wall of the second sliding chute, a first cavity extending leftwards is arranged at the bottom of the lifting sliding chute, a second screw rod extending upwards and downwards is connected between the lifting sliding chute and the first cavity in a rotating fit manner, the top extending end of the second screw rod extends into the lifting sliding chute and is in rotating fit connection with the top end wall of the lifting sliding chute, and a first gear positioned in the first cavity is fixedly arranged at the bottom end of the second screw rod, a third sliding block in threaded fit connection with the second screw is connected in the lifting sliding groove in a sliding fit manner, and the right end of the third sliding block is fixedly connected with the left end face of the lifting sliding table in a fit manner;

wherein the power control mechanism comprises a second cavity arranged at the bottom of the mixing cavity and extending to the right and an adjusting slide block arranged in the second cavity in a sliding fit connection manner, the right section of the second cavity is positioned at the upper side position of the left section of the first cavity, the adjusting slide block is connected with a third screw rod extending up and down in a matching manner in a threaded manner, the bottom end of the third screw rod is connected with a second motor fixedly embedded in the bottom end wall of the second cavity in a power fit manner, the top end of the third screw rod is connected with the top end wall of the second cavity in a rotating fit manner, the adjusting slide blocks positioned at the left and right sides of the third screw rod are connected with guide slide rods extending up and down in a sliding fit manner, the upper and lower ends of the guide slide rods are respectively connected with the upper and lower end walls of the second cavity in a fixed fit manner, and third motors are fixedly arranged in the left and right end surfaces of the, the third motor is kept away from the terminal power connection of adjusting slider one side has and is located first cone pulley in the second cavity, the second cavity with running fit is connected with first pivot between the first cavity, the top end of first pivot sets firmly and is located second cone pulley in the second cavity, the bottom end of first pivot sets firmly and is located in the first cavity and with the second gear that first gear power fit is connected, the second cone pulley is located the right side the right downside position of first cone pulley.

A further technical scheme is that the mixing and stirring mechanism comprises a second rotating shaft which is connected and arranged between the mixing cavity and the second cavity in a rotating fit manner and a sliding cavity which is arranged on the right side of the mixing cavity, the top end of the second rotating shaft extends into the mixing cavity, a spiral mixing and stirring blade is fixedly arranged on the outer surface of the second rotating shaft in the mixing cavity, a third cone pulley which is arranged in the second cavity is fixedly arranged at the bottom end of the second rotating shaft, the third cone pulley is arranged at the left side of the upper left side of the first cone pulley, an electric control discharge valve is arranged in the left side wall of the mixing cavity, the sliding cavity is arranged at the upper side of the right side section of the second cavity, a sliding blocking and connecting block is connected in a sliding fit manner in the sliding cavity, a communicating pipe is communicated between the mixing cavity and the sliding cavity, and a water supply opening which is communicated with the water inlet control valve is fixedly arranged in the top end wall of the sliding cavity, the sliding cavity and the second cavity are connected with a fourth screw in a rotating fit mode, the top end of the fourth screw extends into the sliding cavity and is in threaded fit connection with the bottom end face of the sliding blocking block, a fourth cone pulley located in the second cavity is fixedly arranged at the bottom end of the fourth screw, and the fourth cone pulley is located on the right side and on the upper right side of the first cone pulley.

Drawings

FIG. 1 is a schematic view of the external structure of a concrete apparatus according to the present invention;

FIG. 2 is a schematic view showing the internal structure of a concrete apparatus according to the present invention;

fig. 3 is a top view of the lift slide of the present invention.

Detailed Description

The present invention is described in detail below with reference to fig. 1-3.

Referring to fig. 1 to 3, a concrete apparatus according to an embodiment of the present invention includes a main body 6, a water inlet control valve 7 is disposed at a top position of a left end surface of the main body 6, a movable cavity 61 is disposed in the main body 6, a mixing cavity 63 is disposed at a left bottom of the movable cavity 61, a mixing and stirring mechanism is disposed in the mixing cavity 63, a material guiding cavity 636 is communicated between the mixing cavity 63 and the movable cavity 61,

the device also comprises a lifting feeding mechanism arranged in the main machine body 6 and a power control mechanism in power fit connection with the mixing and stirring mechanism and the lifting feeding mechanism;

wherein, go up and down to add material mechanism including be linked together set up in the lift cavity 62 of activity cavity 61 bottom end wall right side position and be linked together set up in lift spout 624 in the end wall of lift cavity 62 left side, be equipped with in the right side end face of host computer body 6 with lift cavity 62 is linked together and is equipped with open slot 621, sliding fit is connected with lift slip table 622 in lift cavity 62, it link up logical spout 6221 that sets up to link up about being equipped with in the top end wall of lift slip table 622, it is connected with storage slider 623 to link up sliding fit in the spout 6221, be equipped with the storage silo 6231 that link up the setting from top to bottom in the storage slider 623, the symmetry is equipped with first spout 6222 in the front side end wall of logical spout 6221, sliding fit is connected with in the first spout 6222 with the first slider 6223 that storage slider 623 fixed fit is connected, the left side terminal surface of first slider 6223 with roof pressure cooperation is connected with roof pressure spring 6224 between, a second sliding groove 611 is communicated with the right side position of the top end wall of the lifting cavity 62, a second sliding block 612 with the bottom end extending into the movable cavity 61 is connected in the second sliding groove 611 in a sliding fit manner, a first screw 614 extending left and right is connected in the second sliding block 612 in a threaded fit manner, the left end of the first screw 614 is connected with a first motor 613 fixedly embedded in the left end wall of the second sliding groove 611 in a power fit manner, the right end of the first screw 614 is connected with the right end wall of the second sliding groove 611 in a rotating fit manner, a first cavity 66 extending to the left side is arranged at the bottom of the lifting sliding groove 624, a second screw 661 extending up and down is connected between the lifting sliding groove 624 and the first cavity 66 in a rotating fit manner, the top extending end of the second screw 661 extends into the lifting sliding groove 624 and is connected with the top end wall of the lifting sliding groove 624 in a rotating fit manner, a first gear 662 positioned in the first cavity 66 is fixedly arranged at the tail end of the bottom of the second screw 661, a third sliding block 6241 in threaded fit connection with the second screw 661 is connected in the lifting sliding groove 624 in a sliding fit manner, and the right tail end of the third sliding block 6241 is fixedly connected with the left end face of the lifting sliding table 622 in a fit manner;

wherein, the power control mechanism includes a second cavity 64 disposed at the bottom of the mixing cavity 63 and extending to the right, and an adjusting slider 641 disposed in the second cavity 64 in a sliding fit manner, the right section of the second cavity 64 is located at the upper side of the left section of the first cavity 66, the adjusting slider 641 is connected with a third screw 642 extending up and down in a matching manner, the bottom end of the third screw 642 is connected with a second motor 643 fixedly embedded in the bottom end wall of the second cavity 64 in a power fit manner, the top end of the third screw 642 is connected with the top end wall of the second cavity 64 in a rotating fit manner, the adjusting sliders 641 disposed at the left and right sides of the third screw 642 are connected with slide guide rods 644 extending up and down in a sliding fit manner, and the upper and lower ends of the slide guide rods 644 are respectively connected with the upper and lower end walls of the second cavity 64 in a fixed fit manner, a third motor 645 is fixedly arranged in the end faces of the left side and the right side of the adjusting slide block 641, the end of the third motor 645, which is far away from the adjusting slide block 641, is dynamically connected with a first bevel wheel 646 located in the second cavity 64, a first rotating shaft 663 is connected between the second cavity 64 and the first cavity 66 in a rotating fit manner, a second bevel wheel 665 located in the second cavity 64 is fixedly arranged at the end of the top of the first rotating shaft 663, a second gear 664 which is located in the first cavity 66 and is dynamically connected with the first gear 662 in a matching manner is fixedly arranged at the end of the bottom of the first rotating shaft 663, and the second bevel wheel 665 is located at the lower right side of the first bevel wheel 646.

Beneficially or exemplarily, the mixing and stirring mechanism includes a second rotating shaft 633 rotatably and fittingly connected and disposed between the mixing chamber 63 and the second chamber 64, and a sliding chamber 65 disposed at the right side of the mixing chamber 63, a top end of the second rotating shaft 633 extends into the mixing chamber 63, a spiral mixing blade 634 is fixedly disposed on an outer surface of the second rotating shaft 633 disposed in the mixing chamber 63, a bottom end of the second rotating shaft 633 is fixedly disposed with a third cone pulley 635 disposed in the second chamber 64, the third cone pulley 635 is disposed at an upper left side of the first cone pulley 646, an electrically controlled discharge valve 632 is disposed in a left side wall of the mixing chamber 63, the sliding chamber 65 is disposed at an upper right side of the second chamber 64, a sliding block 651 is slidably and fittingly connected in the sliding chamber 65, a communicating pipe 653 is communicated between the mixing chamber 63 and the sliding chamber 65, a water supply port 652 communicated with the water inlet control valve 7 is fixedly arranged in the top end wall of the sliding cavity 65, a fourth screw 654 is connected between the sliding cavity 65 and the second cavity 64 in a rotating fit manner, the top end of the fourth screw 654 extends into the sliding cavity 65 and is in threaded fit connection with the bottom end face of the sliding blocking block 651, a fourth cone pulley 656 positioned in the second cavity 64 is fixedly arranged at the bottom end of the fourth screw 654, and the fourth cone pulley 656 is positioned at the upper right side of the first cone pulley 646 at the right side, so that the power driving work of automatically controlling water feeding and mixing stirring is realized, and the working efficiency and the safety are greatly improved.

In an initial state, the second slider 612 is located at the rightmost position in the second sliding groove 611 and the movable cavity 61, at this time, the third slider 6241 is located at the bottommost position in the lifting sliding groove 624, the lifting sliding table 622 is driven by the third slider 6241 to be located at the bottommost position in the lifting cavity 62, at this time, the top end surface of the lifting sliding table 622 and the bottom end wall of the opening groove 621 are located on the same horizontal plane, the adjusting slider 641 is located at the bottommost position in the second cavity 64, at this time, the first cone pulley 646 on the left side is furthest away from the third cone pulley 635 and the first cone pulley 646 on the right side is furthest away from the fourth cone pulley 656, and the first cone pulley 646 on the right side is completely meshed with the second cone pulley 665, at this time, the sliding blocking block 651 is located at the topmost position in the sliding cavity 65, and the communicating pipe 653 is further in a closed state;

when the working is needed, the concrete raw material is loaded into the storage trough 6231 through the open slot 621, then the third motor 645 on the right side drives the first bevel wheel 646 on the right side to rotate, and then the first bevel wheel 646 on the right side drives the second bevel wheel 665 to rotate, at this time, the first gear 662 drives the second screw 661 to rotate, and then the second screw 661 drives the third slide block 6241 to slide towards the top direction in the lifting chute 624, and the third slide block 6241 drives the lifting slide table 622 to slide towards the top direction in the lifting cavity 62 until the third slide block 6241 slides to the topmost position in the lifting chute 624, at this time, the third slide block 6241 drives the top section of the lifting slide table 622 to maximally extend into the movable cavity 61, and the bottom end wall of the through chute 6221 and the bottom end wall of the movable cavity 61 are in the same horizontal plane position, and the storage slide block 623 is located at the left opposite position of the bottom section of the second slide block 612, then, the first screw 614 is controlled by the first motor 613 to rotate, the first screw 614 drives the second slider 612 to slide towards the left direction in the second sliding groove 611, so that the second slider 612 abuts against the right end surface of the storage slider 623, the storage slider 623 and the first slider 6223 are driven to slide towards the left direction against the pressing force of the pressing spring 6224, so that the left section of the storage slider 623 slides away from the bottom end wall of the through sliding groove 6221, the storage slider 623 is positioned at the upper side position of the material guiding cavity 636, so that the concrete material in the storage slider 623 slides into the mixing cavity 63 through the material guiding cavity 636, then the third screw 642 is controlled by the second motor 643 to rotate, the adjusting slider 641 is driven by the third screw 642 to slide to the topmost position in the second cavity 64, so that the left first cone pulley 646 and the right first cone pulley 646 are respectively and completely meshed with the third cone pulley 635 and the fourth cone pulley 656, the first cone pulley 646 and the third cone pulley 635 on the left side are controlled to rotate by the third motor 645 on the left side, so that the mixing and stirring work of the spiral mixing and stirring blade 634 is realized, the first cone pulley 646 and the fourth cone pulley 656 on the right side are controlled to rotate by the third motor 645 on the right side, and then the fourth screw 654 drives the sliding blocking block 651 to slide towards the bottom direction in the sliding cavity 65 until the sliding blocking block 651 slides to the bottommost position in the sliding cavity 65, at this time, the top end of the sliding blocking block 651 is far away from the communicating pipe 653 and the water supply port 652, so that the communicating pipe 653 is communicated with the water supply port 652 through the sliding cavity 65, then the water inlet control valve 7 is opened, so that water is added into the mixing cavity 63, and after the stirring is finished, the discharging work can be realized by opening the electric control discharge valve 632; after stirring is completed, the first motor 613 controls the first screw 614 to rotate reversely, so that the second sliding block 612 is restored to the initial position, the first sliding block 6223 is pressed by the pressing spring 6224, so that the pressing spring 6224 drives the first sliding block 6223 and the material storage sliding block 623 to be restored to the initial position, the second motor 643 controls the third screw 642 to rotate reversely, so that the adjusting sliding block 641 is restored to the initial position, the right third motor 645 controls the right first conical wheel 646 and the right fourth conical wheel 656 to rotate reversely, and further the third sliding block 6241 and the lifting sliding table 622 are controlled to be restored to the initial position.

The invention has the beneficial effects that: the automatic control device is simple in structure and convenient to operate, the lifting sliding table drives the material storage sliding block to lift, low-level materials are conveniently conveyed to a high level, the raw materials are quickly added, the labor capacity of workers is reduced, the adjusting work of the raw materials can be automatically controlled through the push fit connection of the second sliding block and the material storage sliding block, the adjusting control work of automatic control of mixing and stirring, water inlet switch and lifting driving is realized through the power control mechanism, the labor force is reduced, and the operation efficiency and the mixing quality are improved.

It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. All falling within the scope of protection of the present invention. The protection scheme of the invention is subject to the appended claims.

Claims

1. The utility model provides a concrete device, includes the host computer body, the top position department of host computer body left side terminal surface is equipped with into water control valve, the internal movable cavity that is equipped with of host computer, the left side bottom of activity cavity is equipped with mixed cavity, be equipped with mixed rabbling mechanism in the mixed cavity, mixed cavity with be linked together between the activity cavity and be equipped with guide chamber, its characterized in that:

wherein, the lifting and feeding mechanism comprises a lifting cavity which is communicated with the right end wall of the bottom of the movable cavity and a lifting chute which is communicated with the left end wall of the lifting cavity, an open slot which is communicated with the lifting cavity is arranged in the right end face of the main body, a lifting sliding table is connected in the lifting cavity in a sliding fit manner, a through chute which is arranged in a through manner from left to right is arranged in the top end wall of the lifting sliding table, a storage slider is connected in the through chute in a sliding fit manner, a storage trough which is arranged in a through manner from top to bottom is arranged in the storage slider, first chutes are symmetrically arranged in the front end wall of the through chute in a sliding fit manner, a first slider which is fixedly connected with the storage slider in a matching manner is connected in the first chute in a sliding fit manner, and a jacking spring is connected between the left end, a second sliding chute is communicated with the right side position of the top end wall of the lifting cavity, a second sliding block with the bottom end extending into the movable cavity is connected in the second sliding chute in a sliding fit manner, a first screw rod extending leftwards and rightwards is connected in the second sliding block in a matching manner, the left end of the first screw rod is in power fit connection with a first motor fixedly embedded in the left end wall of the second sliding chute, the right end of the first screw rod is in rotating fit connection with the right end wall of the second sliding chute, a first cavity extending leftwards is arranged at the bottom of the lifting sliding chute, a second screw rod extending upwards and downwards is connected between the lifting sliding chute and the first cavity in a rotating fit manner, the top extending end of the second screw rod extends into the lifting sliding chute and is in rotating fit connection with the top end wall of the lifting sliding chute, and a first gear positioned in the first cavity is fixedly arranged at the bottom end of the second screw rod, a third sliding block in threaded fit connection with the second screw is connected in the lifting sliding groove in a sliding fit manner, and the right end of the third sliding block is fixedly connected with the left end face of the lifting sliding table in a fit manner;

2. A concrete unit according to claim 1 wherein: the mixing and stirring mechanism comprises a second rotating shaft which is arranged between the mixing cavity and the second cavity in a rotating fit connection manner and a sliding cavity which is arranged on the right side of the mixing cavity, the top end of the second rotating shaft extends into the mixing cavity and is positioned in the mixing cavity, a spiral mixing and stirring blade is fixedly arranged on the outer surface of the second rotating shaft in the mixing cavity, the bottom end of the second rotating shaft is fixedly provided with a third cone pulley which is positioned in the second cavity, the third cone pulley is positioned on the left side, the upper left side position of the first cone pulley is arranged, an electric control discharge valve is arranged in the left side wall of the mixing cavity, the sliding cavity is positioned on the upper side position of the right side section of the second cavity, a sliding blocking block is connected in the sliding cavity in a sliding fit manner, a communicating pipe is communicated between the mixing cavity and the sliding cavity, and a water supply opening communicated with the water inlet control valve is fixedly arranged in the top end wall, the sliding cavity and the second cavity are connected with a fourth screw in a rotating fit mode, the top end of the fourth screw extends into the sliding cavity and is in threaded fit connection with the bottom end face of the sliding blocking block, a fourth cone pulley located in the second cavity is fixedly arranged at the bottom end of the fourth screw, and the fourth cone pulley is located on the right side and on the upper right side of the first cone pulley.