CN113386259A

CN113386259A - Automatic grouting equipment is used in production of building engineering prefabricated plate

Info

Publication number: CN113386259A
Application number: CN202110541296.8A
Authority: CN
Inventors: 蔡金清; 万成; 姚锦煌
Original assignee: Fujian Saibosi Construction Technology Co ltd
Current assignee: Fujian Saibosi Construction Technology Co ltd
Priority date: 2021-05-18
Filing date: 2021-05-18
Publication date: 2021-09-14

Abstract

The invention discloses automatic grouting equipment for production of a building engineering precast slab, which comprises a barrel body, wherein a sieve plate is fixedly connected in the barrel body, a cleaning door matched with the sieve plate is arranged on the side wall of the barrel body, a stirring mechanism for stirring concrete is arranged in the barrel body, rollers are fixedly connected at four corners of the lower end of the barrel body, two transverse plates are fixedly connected at the right end of the barrel body, a temporary storage hopper is connected between the two transverse plates in a sliding manner, a driving mechanism for driving the temporary storage hopper is arranged between the two transverse plates, a discharge pipeline is fixedly connected in a discharge port of the barrel body, and one end, far away from the barrel body, of the discharge pipeline is fixedly connected with the upper end of the temporary storage hopper. The invention can screen sand and stone, fill precast slabs while stirring concrete, and improve the production quality and production efficiency of the precast slabs.

Description

Automatic grouting equipment is used in production of building engineering prefabricated plate

Technical Field

The invention relates to the technical field of constructional engineering, in particular to automatic grouting equipment for producing a prefabricated plate of constructional engineering.

Background

The precast slabs are floor slabs used in early buildings in the 20 th century, namely modules or plates used in engineering, and are concrete precast members produced, processed and formed in a precast yard and directly transported to a construction site for installation, so the precast slabs are called as precast slabs, when the precast slabs are manufactured, a hollow model is nailed by wood plates, reinforcing steel bars are distributed in the hollow part of the model, the hollow part is filled with cement, the wood plates are knocked off after the hollow part is dried, and the residual precast slabs are the precast slabs which are used for the building, such as cement slabs covered on a ditch beside a highway; the cement boards used as heat insulation layers on the roof are prefabricated boards.

Current prefabricated plate is when the preparation, adopt the manual work to transport and fill inside the hollow model the concrete that stirs well usually, the preparation of prefabricated plate is consuming time longer, on the one hand, agitated vessel is when the concrete mixing, the stirring is insufficient, the inside condition of thick liquid package sand that produces easily of concrete, on the other hand, can not filter the grit, when the size of part grit is too big, lead to the intensity reduction of prefabricated plate easily, moreover, can not grout hollow mould during concrete preparation, the preparation efficiency to the prefabricated plate is lower.

Therefore, the automatic grouting equipment for producing the building engineering precast slabs is provided for solving the problems.

Disclosure of Invention

The invention aims to solve the problems that concrete is not fully stirred, the manufacturing efficiency of a precast slab is low and sand and stone cannot be screened in the prior art, and provides automatic grouting equipment for production of the precast slab for building engineering.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides an automatic grouting equipment is used in building engineering prefabricated plate production, includes the staving, fixedly connected with sieve in the staving, be equipped with on the lateral wall of staving with sieve assorted clearance door, be equipped with in the staving and be used for carrying out the rabbling mechanism that stirs to the concrete, the equal fixedly connected with gyro wheel of lower extreme four corners department of staving, two diaphragms of right-hand member fixedly connected with of staving, two sliding connection has the fill of keeping in between the diaphragm, two be equipped with between the diaphragm and be used for carrying out driven actuating mechanism to the fill of keeping in, fixedly connected with ejection of compact pipeline in the ejection of compact mouth of staving, the one end that the staving was kept away from to the ejection of compact pipeline and the upper end fixed connection of the fill of keeping in.

Preferably, the stirring mechanism comprises a rotating disc which is connected with the inner side wall of the barrel body in a sealing and rotating manner, the middle part of the upper end of the rotating disc is connected with a driving roller in a rotating manner, a cavity is arranged in the barrel body, a first motor is fixedly connected in the cavity, a driving shaft of the first motor rotates to penetrate through the barrel body and the rotating disc and is coaxially and fixedly connected with the driving roller, a groove is arranged on the inner side wall of the barrel body, the groove is communicated with the cavity, a rotating shaft is rotatably connected between the groove and the cavity, the rotating shaft is in transmission connection with the driving shaft of the first motor through a first transmission mechanism, a first gear is fixedly connected with the part of the rotating shaft, which is positioned in the groove, a first annular tooth socket meshed with the first gear is arranged on the outer side wall of the rotating disc, a plurality of driving grooves are arranged on the side wall of the whole body of the rotating disc, and a plurality of driving grooves are all rotatably connected with a stirring shaft, many the upper end of (mixing) shaft all rotates and runs through the carousel setting, the (mixing) shaft is located the coaxial fixedly connected with second gear of part of drive inslot, be equipped with on the staving inside wall with second gear engaged with second annular tooth's socket, many the equal fixedly connected with a plurality of stirring leaves of the whole body lateral wall of (mixing) shaft position in staving inside.

Preferably, the first transmission mechanism comprises a first belt pulley and a second belt pulley, the first belt pulley is coaxially and fixedly connected with a driving shaft of the first motor, the second belt pulley is coaxially and fixedly connected with the rotating shaft, and the first belt pulley is in transmission connection with the second belt pulley through a first belt.

Preferably, actuating mechanism includes that two set up respectively the spout on two relative lateral walls of diaphragm, two all rotate in the spout and be connected with the threaded rod, two the one end of threaded rod all rotates and runs through the diaphragm and connect through the transmission of second drive mechanism, one of them fixedly connected with second motor in the spout, the drive shaft and the coaxial fixed connection of threaded rod of second motor, two the threaded rod is outer all the thread bush is equipped with the screw thread piece, two the screw thread piece respectively with two spout inside wall sliding connection, two the screw thread piece all with the temporary storage fill fixed connection.

Preferably, the second transmission mechanism comprises two third belt pulleys, the two third belt pulleys are respectively and fixedly connected with the two threaded rods in a coaxial manner, and the two third belt pulleys are in transmission connection through a second belt.

Preferably, the sieve plate is a vibrating sieve plate, and the sieve plate is arranged in an inclined mode.

Preferably, all be equipped with the solenoid valve on ejection of compact pipeline and the temporary storage fill.

Preferably, the part of the discharge pipeline connected with the temporary storage hopper is a corrugated pipe.

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

1. through the arrangement of the stirring mechanism, the driving roller is driven to rotate forwards through the first motor, meanwhile, the first motor drives the rotating shaft to rotate forwards, the rotating shaft drives the rotating disc to rotate reversely through the first gear, the rotating disc drives the two stirring shafts to revolve, the two stirring shafts rotate under the action of the second gear, the driving roller drives the concrete to turn upwards and downwards, the stirring shafts and the stirring blades stir the concrete in the horizontal direction, so that the concrete can be fully stirred, the stirred concrete is input into the temporary storage hopper through the discharge pipeline, the concrete can be continuously stirred, the hollow mold can be filled in the stirring process, and the production efficiency of the precast slabs is high;

2. by arranging the driving mechanism, the second motor drives the two threaded rods to rotate, the two threaded rods drive the temporary storage hopper to reciprocate through the two threaded blocks, and at the moment, the barrel body can be driven to move through the idler wheels, so that concrete can be uniformly filled in the hollow mold, and the hollow mold can be uniformly filled;

3. through setting up the screen cloth, when adding gravel and sand, can sieve the bigger gravel and sand of size and save the area, be convenient for clear up for the quality of concrete is higher, improves the production quality of prefabricated plate.

The invention can screen sand and stone, fill precast slabs while stirring concrete, and improve the production quality and production efficiency of the precast slabs.

Drawings

FIG. 1 is a perspective view of an automatic grouting apparatus for the production of a precast slab for construction engineering according to the present invention;

FIG. 2 is a front perspective view of an automatic grouting apparatus for the production of a prefabricated panel for construction engineering according to the present invention;

FIG. 3 is an enlarged view taken at A in FIG. 2;

fig. 4 is a perspective view showing the construction of a driving mechanism in an automatic grouting apparatus for the production of a prefabricated panel for construction engineering according to the present invention.

In the figure: 1 bucket body, 2 sieve plates, 3 cleaning doors, 4 stirring mechanisms, 5 rollers, 6 transverse plates, 7 temporary storage buckets, 8 driving mechanisms, 9 discharging pipelines, 10 rotating discs, 11 driving rollers, 12 cavities, 13 first motors, 14 grooves, 15 rotating shafts, 16 first transmission mechanisms, 17 first gears, 18 driving grooves, 19 stirring shafts, 20 second gears, 21 stirring blades, 22 first belt pulleys, 23 second belt pulleys, 24 threaded rods, 25 second transmission mechanisms, 26 second motors, 27 threaded blocks, 28 third belt pulleys, 29 electromagnetic valves and 30 sliding grooves.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1-4, an automatic grouting apparatus for the production of building engineering precast slabs comprises a barrel 1, a sieve plate 2 is fixedly connected in the barrel 1, it is worth mentioning that the sieve plate 2 is a vibrating sieve plate, the sieve plate 2 is arranged in an inclined manner, a cleaning door 3 matched with the sieve plate 2 is arranged on the side wall of the barrel 1, a stirring mechanism 4 for stirring concrete is arranged in the barrel 1, specifically, the stirring mechanism 4 comprises a rotary plate 10 hermetically and rotatably connected with the inner side wall of the barrel 1, a driving roller 11 is rotatably connected to the middle part of the upper end of the rotary plate 10, a cavity 12 is arranged in the barrel 1, a first motor 13 is fixedly connected in the cavity 12, it should be noted that the first motor 13 can adopt a driving motor with a model of Y315M-10, and is electrically connected to an external power supply, and for the prior art, detailed description is omitted, a driving shaft of the first motor 13 is rotatably connected through the barrel 1 and the rotary plate 10 and coaxially and fixedly connected to the driving roller 11, the inner side wall of the barrel body 1 is provided with a groove 14, the groove 14 is communicated with the cavity 12, and a rotating shaft 15 is rotatably connected between the groove 14 and the cavity 12.

In the invention, the rotating shaft 15 is in transmission connection with the driving shaft of the first motor 13 through the first transmission mechanism 16, and it should be noted that the first transmission mechanism 16 includes a first belt pulley 22 and a second belt pulley 23, the first belt pulley 22 is coaxially and fixedly connected with the driving shaft of the first motor 13, the second belt pulley 23 is coaxially and fixedly connected with the rotating shaft 15, the first belt pulley 22 is in transmission connection with the second belt pulley 23 through a first belt, the part of the rotating shaft 15 located in the groove 14 is coaxially and fixedly connected with a first gear 17, the outer side wall of the rotating disk 10 is provided with a first annular tooth groove engaged with the first gear 17, the peripheral side wall of the rotating disk 10 is provided with a plurality of driving grooves 18, the driving grooves 18 are all rotatably connected with stirring shafts 19, and the upper ends of the stirring shafts 19 are all rotatably arranged through the rotating disk 10.

In the invention, a second gear 20 is coaxially and fixedly connected to the part of a stirring shaft 19 positioned in a driving groove 18, a second annular tooth socket meshed with the second gear 20 is arranged on the inner side wall of a barrel body 1, a plurality of stirring blades 21 are fixedly connected to the whole body side wall of the part of the stirring shaft 19 positioned in the barrel body 1, idler wheels 5 are fixedly connected to the four corners of the lower end of the barrel body 1, two transverse plates 6 are fixedly connected to the right end of the barrel body 1, a temporary storage hopper 7 is slidably connected between the two transverse plates 6, a driving mechanism 8 for driving the temporary storage hopper 7 is arranged between the two transverse plates 6, the driving mechanism 8 comprises two sliding grooves 30 respectively arranged on the opposite side walls of the two transverse plates 6, threaded rods 24 are rotatably connected in the two sliding grooves 30, it should be noted that the external thread turning directions of the two threaded rods 24 are the same, one ends of the two threaded rods 24 are rotatably connected through, it is to be noted that the second transmission 25 comprises two third pulleys 28.

In the invention, two third belt pulleys 28 are respectively and coaxially and fixedly connected with two threaded rods 24, the two third belt pulleys 28 are in transmission connection through a second belt, a second motor 26 is fixedly connected in one sliding chute 30, it should be noted that the second motor 26 can adopt a stepping motor with the model PLX, and the stepping motor is electrically connected with an external power supply, for the prior art, details are not described, a driving shaft of the second motor 26 is coaxially and fixedly connected with the threaded rods 24, thread blocks 27 are respectively sleeved on the outer sides of the two threaded rods 24 in a threaded manner, the two thread blocks 27 are respectively and slidably connected with the inner side walls of the two sliding chutes 30, the two thread blocks 27 are both and fixedly connected with a temporary storage hopper 7, a discharge pipeline 9 is fixedly connected in a discharge port of the barrel body 1, it should be noted that electromagnetic valves 29 are respectively arranged on the discharge pipeline 9 and the temporary storage hopper 7, one end of the discharge pipeline 9 far away from the barrel body 1 is fixedly connected with the upper end of the temporary storage hopper 7, furthermore, the part of the discharge pipeline 9 connected with the temporary storage hopper 7 is a corrugated pipe.

When the concrete is stirred, cement and gravel are screened by the screen plate 2 and then are put into the barrel body 1, then water is added, the first motor 13 is started, the driving shaft of the first motor 13 drives the driving roller 11 to rotate in the forward direction, meanwhile, the first motor 13 drives the first belt pulley 22 to rotate, the first belt pulley 22 drives the second belt pulley 23 to rotate through the first belt, the second belt pulley 23 drives the rotating shaft 15 to rotate in the forward direction, the rotating shaft 15 drives the rotating disc 10 to rotate in the reverse direction through the first gear 17, the rotating disc 10 drives the two stirring shafts 19 to revolve, the two stirring shafts 19 rotate under the action of the second gear 20, the stirring shafts 19 drive the stirring blades 21 to rotate, at the moment, the driving roller 11 drives the concrete to turn over in the up-down direction, the stirring shafts 19 and the stirring blades 21 stir the concrete in the horizontal direction, so that the concrete can be fully stirred, and the stirred concrete is input into the temporary storage hopper 7 through the discharge pipeline 9 to be temporarily stored, the concrete can be continuously stirred.

When the hollow mold is poured, the barrel body 1 is moved, the second motor 26 is started, the second motor 26 drives one of the threaded rods 24, one of the threaded rods 24 drives the other threaded rod 24 to rotate through the two third belt pulleys 28 and the second belt, the two threaded rods 24 drive the temporary storage hopper 7 to reciprocate through the two threaded blocks 27, and then the electromagnetic valve 29 on the temporary storage hopper 7 is opened, so that the hollow mold can be uniformly poured with concrete.

It is noted that, herein, relational terms such as first and second, and the like may be 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. Also, 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.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. An automatic grouting device for producing a building engineering precast slab comprises a barrel body (1), it is characterized in that the inside of the barrel body (1) is fixedly connected with a sieve plate (2), the side wall of the barrel body (1) is provided with a cleaning door (3) matched with the sieve plate (2), a stirring mechanism (4) for stirring concrete is arranged in the barrel body (1), the four corners of the lower end of the barrel body (1) are fixedly connected with idler wheels (5), the right end of the barrel body (1) is fixedly connected with two transverse plates (6), a temporary storage hopper (7) is connected between the two transverse plates (6) in a sliding manner, a driving mechanism (8) for driving the temporary storage hopper (7) is arranged between the two transverse plates (6), a discharge pipeline (9) is fixedly connected in a discharge port of the barrel body (1), one end of the discharge pipeline (9) far away from the barrel body (1) is fixedly connected with the upper end of the temporary storage hopper (7).

2. The automatic grouting equipment for producing the building engineering precast slabs as claimed in claim 1, wherein the stirring mechanism (4) comprises a rotating disc (10) hermetically and rotatably connected with the inner side wall of the barrel body (1), the middle part of the upper end of the rotating disc (10) is rotatably connected with a driving roller (11), a cavity (12) is arranged in the barrel body (1), a first motor (13) is fixedly connected in the cavity (12), the driving shaft of the first motor (13) rotatably penetrates through the barrel body (1) and the rotating disc (10) and is coaxially and fixedly connected with the driving roller (11), a groove (14) is arranged on the inner side wall of the barrel body (1), the groove (14) is communicated with the cavity (12), a rotating shaft (15) is rotatably connected between the groove (14) and the cavity (12), and the rotating shaft (15) is in transmission connection with the driving shaft of the first motor (13) through a first transmission mechanism (16), the coaxial fixedly connected with first gear (17) of part that pivot (15) are located recess (14), be equipped with on the lateral wall of carousel (10) with first gear (17) engaged with first annular tooth's socket, the whole body lateral wall of carousel (10) is equipped with a plurality of drive grooves (18), and is a plurality of all rotate in drive groove (18) and be connected with (mixing) shaft (19), many the upper end of (mixing) shaft (19) all rotates and runs through carousel (10) setting, the coaxial fixedly connected with second gear (20) of part that (mixing) shaft (19) are located drive groove (18), be equipped with on staving (1) inside wall with second gear (20) engaged with second annular tooth's socket, many the whole body lateral wall that (mixing) shaft (19) are located staving (1) internal portion all fixedly connected with a plurality of stirring leaves (21).

3. The automatic grouting equipment for producing the building engineering precast slabs as claimed in claim 2, wherein the first transmission mechanism (16) comprises a first belt pulley (22) and a second belt pulley (23), the first belt pulley (22) is coaxially and fixedly connected with a driving shaft of the first motor (13), the second belt pulley (23) is coaxially and fixedly connected with the rotating shaft (15), and the first belt pulley (22) is in transmission connection with the second belt pulley (23) through a first belt.

4. The automatic grouting equipment for producing the building engineering precast slab according to claim 1, it is characterized in that the driving mechanism (8) comprises two sliding chutes (30) which are respectively arranged on the opposite side walls of the two transverse plates (6), threaded rods (24) are respectively connected in the two sliding chutes (30) in a rotating way, one ends of the two threaded rods (24) respectively penetrate through the transverse plates (6) in a rotating way and are connected through the second transmission mechanism (25) in a transmission way, one of them fixedly connected with second motor (26) in spout (30), the drive shaft and the coaxial fixed connection of threaded rod (24) of second motor (26), two threaded rod (24) all the thread bush is equipped with screw block (27) outward screw thread block (27) respectively with two spout (30) inside wall sliding connection, two screw block (27) all with fill (7) fixed connection of keeping in.

5. The automatic grouting equipment for producing the building engineering precast slabs as claimed in claim 4, wherein the second transmission mechanism (25) comprises two third belt pulleys (28), the two third belt pulleys (28) are respectively and fixedly connected with the two threaded rods (24) in a coaxial manner, and the two third belt pulleys (28) are in transmission connection through a second belt.

6. The automatic grouting equipment for producing the building engineering precast slabs as claimed in claim 1, wherein the sieve plate (2) is a vibrating sieve plate, and the sieve plate (2) is arranged obliquely.

7. The automatic grouting equipment for producing the building engineering precast slabs as claimed in claim 1, wherein the discharge pipeline (9) and the temporary storage hopper (7) are both provided with electromagnetic valves (29).

8. The automatic grouting equipment for producing the building engineering precast slabs as claimed in claim 1, wherein the part of the discharge pipeline (9) connected with the temporary storage hopper (7) is a corrugated pipe.