Disclosure of Invention
The utility model provides a sand and stone stirring device for building construction, which aims at the problems existing in the prior art, and the sand and stone stirring device for building construction has the advantages that when stirred materials are poured, the sand and stone stirring device can avoid overflow of the materials when the materials are poured, so that physical sealing can be automatically carried out when a storage is full, the materials can be prevented from overflowing from the storage and falling on the ground, and waste of the materials can be avoided.
The utility model discloses a gravel stirring device for building construction, which comprises a supporting frame, wherein a stirring barrel is fixedly arranged on the upper surface of the supporting frame, a control assembly is fixedly arranged on the upper surface of the stirring barrel, two groups of feeding ports are formed in the outer surface of the stirring barrel, the control assembly is movably arranged on the upper surface of the feeding ports, a discharging port is formed in the lower end of the stirring barrel, a storage assembly is fixedly arranged on the outer surface of the stirring barrel, a first motor is fixedly arranged at one end of the stirring barrel, stirring blades are fixedly arranged at one end of an output shaft of the first motor, and the stirring blades are movably arranged in the stirring barrel.
As the preferable mode of the utility model, the control component comprises an electric push rod which is fixedly arranged at the upper end of the stirring cylinder, one end of a piston rod of the electric push rod is movably provided with a rotating shaft, the outer surface of the rotating shaft is movably provided with a closing plate, and the closing plate can be attached to the upper surface of the feeding hole.
As the preferable mode of the utility model, one end of the feeding hole is fixedly provided with a guide rail block, the guide rail block moves in a guide rail groove, and the guide rail groove is arranged at one end of the closing plate.
As the preferred mode of the utility model, the storage component comprises a second motor, the second motor is fixedly arranged at one end of the stirring cylinder, a connecting column is fixedly arranged at one end of an output shaft of the second motor, and a rotating disc is fixedly arranged on the outer surface of the connecting column.
As preferable in the utility model, the upper surface of the rotating disc is provided with a sealing plate groove, the sealing plate groove can be attached to the lower end of the discharge hole, and the upper surface of the sealing plate groove is provided with a communication hole.
As the preferred mode of the utility model, the outer surface of the connecting column is fixedly provided with the chassis, the lower surface of the rotating disc and the upper surface of the chassis can be provided with the storage cylinder, and the storage cylinder is correspondingly communicated with the communication port up and down.
As the preferable mode of the utility model, the outer surface of the connecting column is fixedly provided with the locating clamp, the locating clamp is positioned on the lower surface of the rotating disc and the upper surface of the chassis, and the storage cylinder can be placed in the locating clamp in a fit way.
Compared with the prior art, the utility model has the following beneficial effects:
1. according to the utility model, through the design of the stirring barrel, the control assembly, the feed inlet, the first motor, the stirring blades and the storage assembly, when the sand and stone are stirred, the control assembly can be started to slide downwards, the control assembly can be separated from the feed inlet, the sand and stone can be poured into the feed inlet, the sand and stone enter the stirring barrel, then the first motor is started to drive the stirring blades to rotate, so that the sand and stone are stirred and mixed, when the sand and stone are stirred and the stone is poured, the storage assembly is started to rotate, the storage in the storage assembly is horizontally opposite to the discharge outlet, so that the stirred material in the stirring barrel can be poured into the storage assembly from the discharge outlet for collecting, the storage assembly can be used for sealing the storage box only by rotating, and the storage assembly can avoid overflow caused when the material in the stirring barrel is poured out, and waste can be avoided.
2. According to the utility model, through the design of the electric push rod, the stirring cylinder, the rotating shaft, the closing plate and the feeding hole, when the feeding hole is unfolded, the piston rod is driven to slide downwards by starting the electric push rod, the piston rod of the electric push rod drives the rotating shaft to slide downwards, the closing plate is movably arranged on the outer surface of the rotating shaft, and the closing plate can incline on the feeding hole through the rotating shaft, so that the feeding hole can be unfolded, and materials can be poured into the stirring cylinder.
3. According to the utility model, when the feeding hole is unfolded, the electric push rod is started to drive the piston rod to slide downwards, the electric push rod can drive the rotating shaft to slide downwards, the closing plate is movably arranged on the outer surface of the rotating shaft and can be pulled to be inclined on the feeding hole through the rotating shaft, and the closing plate can slide on the outer surface of the guide rail block fixedly arranged at one end of the feeding hole through the guide rail groove arranged on the lower surface, so that the closing plate can rotate around the guide rail block to be unfolded while sliding on the outer surface of the guide rail block, and the material can be poured into the stirring barrel.
4. According to the utility model, through the design of the second motor, the stirring cylinder, the connecting column and the rotating disc, when the stirred sand is dumped, the second motor can be started to drive the connecting column fixedly arranged at one end of the output shaft to rotate, the rotating disc is fixedly arranged on the outer surface of the connecting column, and the sealing plate groove is formed in the upper surface of the rotating disc, so that the sealing plate groove can be driven to be attached to and rotate at the discharge hole formed in the lower end of the stirring cylinder when the rotating disc is driven to rotate, the discharge hole can be sealed when the sealing plate groove is attached to the discharge hole, and the discharge hole can be communicated with the communication hole until the second motor is started to drive the communication hole formed in the upper surface of the sealing plate groove formed in the upper surface of the rotating disc to be horizontally opposite, so that materials in the stirring cylinder can flow out from the communication hole, and the dumping operation of the materials can be achieved.
5. According to the utility model, through the design of the rotating disc, the sealing plate groove, the discharge port and the communication port, when the stirred sand is dumped, the second motor is started to drive the connecting column fixedly arranged at one end of the output shaft to rotate, the rotating disc is fixedly arranged on the outer surface of the connecting column, the sealing plate groove is arranged on the upper surface of the rotating disc, so that the sealing plate groove is driven to be attached to and rotate at the discharge port arranged at the lower end of the stirring cylinder when the rotating disc is driven to rotate, the discharge port can be sealed when the sealing plate groove is attached to the discharge port, and the discharge port can be communicated with the communication port until the second motor is started to drive the communication port arranged on the upper surface of the sealing plate groove arranged on the upper surface of the rotating disc to be horizontally opposite, so that materials in the stirring cylinder can flow out from the communication port, and the dumping operation of the materials can be achieved.
6. According to the utility model, through the design of the connecting column, the chassis, the rotating disc, the storage cylinder and the communication port, when the stirred sand is dumped, the second motor can be started to drive the connecting column fixedly arranged at one end of the output shaft to rotate, the rotating disc is fixedly arranged on the outer surface of the connecting column, the sealing plate groove is arranged on the upper surface of the rotating disc, so that the sealing plate groove can be driven to be attached to and rotate at the discharge port arranged at the lower end of the stirring cylinder when the rotating disc is driven to rotate, the sealing operation can be carried out on the discharge port only when the sealing plate groove is attached to the discharge port, until the second motor is started to drive the communication port arranged on the upper surface of the sealing plate groove arranged on the upper surface of the rotating disc to be horizontally opposite, the storage cylinder can be placed at the lower end of the communication port, and the discharge port can be communicated with the communication port, so that materials in the stirring cylinder can flow out from the communication port into the storage cylinder, and thus the dumping storage operation of the materials can be achieved, the materials can be prevented from overflowing with the sealing plate groove when the storage cylinder is full, and the sealing plate groove can be driven to be separated from the discharge port when the storage cylinder is full, and the sealing plate is driven to be continuously connected to the other sealing operation.
7. According to the utility model, through the design of the connecting column, the locating clamp, the rotating disc, the chassis and the storage cylinder, when the storage cylinder full of materials is taken out for processing, the storage cylinder is put into the locating clamp again when being horizontally opposite to the communication port, so that the storage cylinder can be put into the locating clamp, and after the storage cylinder is completely matched into the locating clamp, the storage cylinder is vertically opposite to the communication port, thereby enabling the storage cylinder to store the materials.
Detailed Description
For a further understanding of the utility model, its features and advantages, reference is now made to the following examples, which are illustrated in the accompanying drawings.
The structure of the present utility model will be described in detail with reference to the accompanying drawings.
As shown in fig. 1 to 7, the sand and stone stirring device for building construction provided by the embodiment of the utility model comprises a support frame 1, wherein a stirring cylinder 2 is fixedly installed on the upper surface of the support frame 1, a control component 4 is fixedly installed on the upper surface of the stirring cylinder 2, two groups of feeding ports 101 are formed in the outer surface of the stirring cylinder 2, the control component 4 is movably installed on the upper surface of the feeding ports 101, a discharge port 103 is formed in the lower end of the stirring cylinder 2, a storage component 5 is fixedly installed on the outer surface of the stirring cylinder 2, a first motor 3 is fixedly installed at one end of the stirring cylinder 2, a stirring blade 301 is fixedly installed at one end of an output shaft of the first motor 3, and the stirring blade 301 is movably installed in the stirring cylinder 2.
The scheme is adopted: through the design of churn 2, control assembly 4, feed inlet 101, first motor 3, stirring leaf 301, storage component 5, when stirring the operation to the grit, accessible start control assembly 4 slides downwards, control assembly 4 can break away from feed inlet 101, can empty the grit into feed inlet 101, make in the grit gets into churn 2, then start first motor 3 and drive stirring leaf 301 and rotate the operation, thereby reach and stir the mixing operation to the grit, when pouring the material after stirring, accessible start storage component 5 rotates the operation, make the memory in the storage component 5 and discharge gate 103 level relatively, thereby can pour the material of stirring in the churn 2 from in the discharge gate 103 in storage component 5 collect the operation, and storage component 5 just can carry out the sealed operation of storage box as long as rotate, and storage component 5 can avoid causing the condition that overflows when the material in the churn 2 pours out, can avoid causing the waste.
Referring to fig. 4, the control assembly 4 includes an electric push rod 401, the electric push rod 401 is fixedly mounted at the upper end of the mixing drum 2, a rotating shaft 402 is movably mounted at one end of a piston rod of the electric push rod 401, a closing plate 403 is movably mounted on the outer surface of the rotating shaft 402, and the closing plate 403 can be attached to the upper surface of the feeding hole 101.
The scheme is adopted: through the design of electric putter 401, churn 2, axis of rotation 402, closure plate 403, feed inlet 101, when expanding feed inlet 101, the accessible starts electric putter 401 and drives the piston rod and slide downwards, and electric putter 401 piston rod can drive axis of rotation 402 and carry out the gliding operation, and axis of rotation 402 surface movable mounting has closure plate 403, and closure plate 403 can be through axis of rotation 402 and be the slope form on feed inlet 101, can make feed inlet 101 expand to reach and empty into churn 2 to the material.
Referring to fig. 3, a guide rail block 102 is fixedly installed at one end of the feed inlet 101, the guide rail block 102 moves in a guide rail groove 404, and the guide rail groove 404 is opened at one end of the closing plate 403.
The scheme is adopted: through the design of feed inlet 101, guide rail piece 102, guide rail groove 404, closure plate 403, when expanding feed inlet 101, the accessible starts electric putter 401 and drives the piston rod and slide downwards, electric putter 401 piston rod can drive axis of rotation 402 and carry out the gliding operation, and axis of rotation 402 surface movable mounting has closure plate 403, closure plate 403 can be pulled to be the slope form on feed inlet 101 through axis of rotation 402, and closure plate 403 can slide at feed inlet 101 one end fixed mounting's guide rail piece 102 surface through the guide rail groove 404 that the lower surface was seted up, can make closure plate 403 can rotate around guide rail piece 102 when guide rail piece 102 surface slides and expand the operation, in order to reach and empty into churn 2 to the material.
Referring to fig. 5, the storage assembly 5 includes a second motor 501, the second motor 501 is fixedly installed at one end of the mixing drum 2, a connection post 502 is fixedly installed at one end of an output shaft of the second motor 501, and a rotating disc 503 is fixedly installed at an outer surface of the connection post 502.
The scheme is adopted: through the design of second motor 501, churn 2, spliced pole 502, rolling disc 503, when empting the grit after stirring, accessible starts second motor 501 and drives output shaft one end fixed mounting's spliced pole 502 and rotate the operation, and spliced pole 502 surface fixed mounting has rolling disc 503, and sealing plate groove 507 has been seted up to rolling disc 503 upper surface, thereby can drive sealing plate groove 507 and paste and rotate the discharge gate 103 of seting up at churn 2 lower extreme when driving rolling disc 503, just can seal the operation to discharge gate 103 when only sealing plate groove 507 pastes with discharge gate 103 mutually, until when starting the communication port 505 that sealing plate groove 507 upper surface that second motor 501 drove rolling disc 503 upper surface seting up sets up is horizontal relatively, discharge gate 103 will be linked together with communication port 505, thereby just can make the material in the churn 2 flow out from communication port 505, in order to reach and empty the operation to the material.
Referring to fig. 6, a sealing plate groove 507 is formed on the upper surface of the rotating disc 503, the sealing plate groove 507 can be attached to the lower end of the discharge port 103, and a communication port 505 is formed on the upper surface of the sealing plate groove 507.
The scheme is adopted: through the design of rolling disc 503, closing plate groove 507, discharge gate 103, intercommunication mouth 505, when empting the grit after stirring, accessible start second motor 501 drives output shaft one end fixed mounting's spliced pole 502 and rotates the operation, and spliced pole 502 surface fixed mounting has rolling disc 503, and rolling disc 503 upper surface has seted up closing plate groove 507, thereby can drive closing plate groove 507 and paste mutually and rotate at the discharge gate 103 of churn 2 lower extreme when driving rolling disc 503 and seting up, just can seal the operation to discharge gate 103 when whenever closing plate groove 507 pastes mutually with discharge gate 103, until when starting the intercommunication mouth 505 that the closing plate groove 507 upper surface of second motor 501 drive rolling disc 503 upper surface seting up is horizontal relatively, discharge gate 103 will be linked together with intercommunication mouth 505, thereby just can make the material in the churn 2 flow out from the intercommunication mouth 505, in order to reach and empty the operation to the material.
Referring to fig. 6, a chassis 508 is fixedly installed on the outer surface of the connection post 502, and a storage barrel 504 may be placed on the lower surface of the rotating disc 503 and the upper surface of the chassis 508, where the storage barrel 504 is in up-down communication with the communication port 505.
The scheme is adopted: through the design of spliced pole 502, chassis 508, rotating disk 503, storage section of thick bamboo 504, the intercommunication mouth 505, when pouring the grit after stirring, accessible start second motor 501 drives spliced pole 502 of output shaft one end fixed mounting, and spliced pole 502 surface fixed mounting has rotating disk 503, and sealing plate groove 507 has been seted up to rotating disk 503 upper surface, thereby it can drive sealing plate groove 507 and paste and rotate at the discharge gate 103 that stirring section of thick bamboo 2 lower extreme was seted up to drive rotating disk 503 when rotating, just can seal operation to discharge gate 103 when sealing plate groove 507 and discharge gate 103 are pasted, until when starting second motor 501 and driving the intercommunication mouth 505 that sealing plate groove 507 upper surface was seted up of rotating disk 503 and the level is relative, and the intercommunication mouth 505 lower extreme can be placed and be placed storage section of thick bamboo 504, discharge gate 103 will be linked together with the intercommunication mouth 505, thereby just can make the material in the stirring section of thick bamboo 2 flow out from the intercommunication mouth 505 and get into in storage section of thick bamboo 504, thereby reach and store the operation to the material, and storage section of thick bamboo 504 can paste with sealing plate groove 507 when storing full, thereby can drive sealing plate groove 507 and can be with sealing plate 103 parallel and level, just can avoid the material to drive sealing plate groove 103 to break away from the rotation opening 103 through full rotation opening 505 when rotating the sealing plate groove 103 and can keep on the operation to carry out another and carry out the operation from the discharge gate to the rotation opening, can continue to carry out the operation from the discharge gate through sealing plate opening to be linked up to the rotation, can continue to open and can be linked by continuous and can be connected by continuous to sealing operation.
Referring to fig. 7, a locating clip 506 is fixedly mounted on the outer surface of the connecting column 502, the locating clip 506 is positioned on the lower surface of the rotating disc 503 and the upper surface of the chassis 508, and the storage barrel 504 can be placed in the locating clip 506 in a fit manner.
The scheme is adopted: through the design of the connecting column 502, the locating clamp 506, the rotating disc 503, the chassis 508 and the storage barrel 504, when the storage barrel 504 storing the full material is taken out for processing, and then the storage barrel 504 is put into the locating clamp 506 again when being horizontally opposite to the communication port 505, after the storage barrel 504 is completely matched into the locating clamp 506, the storage barrel 504 is vertically opposite to the communication port 505, so that the storage barrel 504 can store the material.
The working principle of the utility model is as follows:
when the sand and gravel stirring device is used, when the sand and gravel stirring device is used for stirring sand and gravel, the electric push rod 401 can be started to drive the piston rod to slide downwards, the piston rod of the electric push rod 401 can drive the rotating shaft 402 to slide downwards, the outer surface of the rotating shaft 402 is movably provided with the closing plate 403, the closing plate 403 can be pulled to be inclined on the feed inlet 101 through the rotating shaft 402, the closing plate 403 can slide on the outer surface of the guide rail block 102 fixedly arranged at one end of the feed inlet 101 through the guide rail groove 404 formed in the lower surface, the closing plate 403 can rotate around the guide rail block 102 while sliding on the outer surface of the guide rail block 102, so that materials can be poured into the stirring cylinder 2, when the stirred sand and gravel is poured, the second motor 501 can be started to drive the connecting column 502 fixedly arranged at one end of the output shaft to rotate, the outer surface of the connecting column 502 is fixedly provided with the rotating disc 503, and the upper surface of the rotating disc 503 is provided with a sealing plate groove 507, so that the sealing plate groove 507 is driven to be attached to and rotate at the discharge hole 103 arranged at the lower end of the stirring cylinder 2 when the rotating disc 503 is driven to rotate, the sealing operation can be carried out on the discharge hole 103 as long as the sealing plate groove 507 is attached to the discharge hole 103, until the second motor 501 is started to drive the communication hole 505 arranged at the upper surface of the sealing plate groove 507 arranged at the upper surface of the rotating disc 503 to be horizontally opposite, the lower end of the communication hole 505 can be provided with a storage cylinder 504, the discharge hole 103 can be communicated with the communication hole 505, so that materials in the stirring cylinder 2 can flow out from the communication hole 505 into the storage cylinder 504, the dumping storage operation can be carried out on the materials, the storage cylinder 504 is flush with the sealing plate groove 507 when the storage cylinder 504 is full, the overflow of the materials can be avoided, and the storage cylinder 504 can be rotated through the rotation of the rotating disc 503 when the storage cylinder 504 is full, the connecting port 505 can be driven to separate from the discharge port 103, so that the sealing plate groove 507 seals the discharge port 103, the sealing plate groove 507 is continuously rotated to the other group of connecting ports 505 to continuously store the materials, when the storage barrel 504 storing the full materials is taken out and processed, the storage barrel 504 is placed into the locating clamp 506 again when the storage barrel 504 is horizontally opposite to the connecting ports 505, the storage barrel 504 is placed into the locating clamp 506, and after the storage barrel 504 is completely matched into the locating clamp 506, the storage barrel 504 is vertically opposite to the connecting ports 505, so that the storage barrel 504 can store the materials.
To sum up: this grit agitating unit for construction, through support frame 1, feed inlet 101, guide rail piece 102, discharge gate 103, churn 2, first motor 3, stirring leaf 301, cooperation between control assembly 4 and the storage subassembly 5, solved above-mentioned device when empting the material after the stirring, can not avoid the material to appear overflowing the condition appearance when empting the material, can not carry out accurate sealing when full to the memory storage, thereby the material will spill over from the memory and drop at ground, thereby cause the problem that the condition that the material was extravagant appears.
It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.
Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.