CN210361861U - Concrete thin layer masonry processing equipment - Google Patents

Abstract

The utility model discloses a concrete thin layer builds processing equipment by laying bricks or stones belongs to the concrete processing field. A concrete thin layer masonry processing apparatus comprising: the base still includes: set up in the base top be used for stirring the concrete mixing mechanism of raw materials formation, set up in the base top and be located mixing mechanism one side be used for making the link plate forming mechanism of concrete link plate, be located the quantitative conveying mechanism between mixing mechanism and the link plate forming mechanism, quantitative conveying mechanism receive the concrete that the mixing mechanism was made and the ration is carried to link plate forming mechanism in, the utility model discloses can regulate and control the concrete use amount, save the use of concrete, and make concrete distribution even through the centrifugation, avoid the accumulational condition of concrete to take place.

Description

Concrete thin layer masonry processing equipment

Technical Field

The utility model belongs to the technical field of the concrete processing, especially, relate to a processing equipment is built by laying bricks or stones to concrete thin layer.

Background

In recent years, the application of concrete thin-layer hanging plates in building engineering is gradually increased, the concrete thin-layer hanging plates are mainly applied to decoration of inner walls or outer walls of public buildings or civil buildings, along with the development of assembly type buildings, the application range of the concrete hanging plates is wider, in the processing and manufacturing process of the concrete hanging plates, because the consumption of concrete cannot be controlled, a large amount of concrete is wasted, in the process of manufacturing the concrete hanging plates, the concrete is easy to be accumulated together, a mold cannot be filled, gaps are formed, and the hanging plates are not perfect.

SUMMERY OF THE UTILITY MODEL

1. Technical problem to be solved

The concrete is easily piled up the problem that the taper influences the solidification shape and be difficult to the accuse quantity when carrying the concrete to the concrete link plate shaping that exists among the prior art, the utility model aims to provide a concrete is easily piled up the taper and is influenced the solidification shape and be difficult to the problem of accuse quantity when carrying the concrete when processing equipment is built by laying bricks or stones to concrete thin layer and solve the concrete link plate shaping.

2. Technical scheme

In order to solve the above problems, the utility model adopts the following technical proposal.

A concrete thin layer masonry processing apparatus comprising: the base still includes: the quantitative concrete stirring mechanism is arranged at the top of the base and used for stirring raw materials to generate concrete, the hanging plate forming mechanism is arranged at the top of the base and located on one side of the stirring mechanism and used for manufacturing concrete hanging plates, and the quantitative conveying mechanism is located between the stirring mechanism and the hanging plate forming mechanism and used for receiving the concrete manufactured by the stirring mechanism and conveying the concrete quantitatively into the hanging plate forming mechanism.

Preferably, the stirring mechanism comprises a lifting mechanism, the lifting mechanism comprises a support plate horizontally arranged above the base, the support plate is fixedly connected with the base through a support column, two connecting rods vertically extending upwards are arranged on the support plate, a fixed shaft is arranged between the top ends of the two connecting rods, a connecting plate is sleeved outside the fixed shaft and can rotate around the circumferential direction of the fixed shaft, a lifting cylinder for pushing the suspension end of the connecting plate to move up and down is arranged between the suspension end of the connecting plate and the support plate, the connecting plate is hinged with the lifting cylinder, a stirring barrel axially vertical to the fixed shaft is arranged on the top surface of the connecting plate, a filler pipe communicated with the inner cavity of the stirring barrel is arranged at the top end of the stirring barrel, a stirring rotating shaft capable of rotating around the axis of the stirring barrel is coaxially arranged in a penetrating manner in the inner cavity of the stirring barrel, stirring rods are uniformly, the agitator motor outside is provided with the installation shell, installation shell and churn coaxial coupling, and the churn deviates from the one end top of installation shell and is provided with the axial discharge tube of the parallel churn of axial.

Preferably, quantitative conveying mechanism including setting up in the transport section of thick bamboo of discharge tube one side, transport section of thick bamboo axial perpendicular discharge tube axial, transport section of thick bamboo top one end is provided with the feed cylinder that connects that is used for receiving the concrete, transport section of thick bamboo inner chamber is coaxial to be worn to be equipped with and to carry the pivot and to rotate around self axis, carry the coaxial cover of pivot to be equipped with the flight, carry pivot and flight cooperation to constitute the transport flood dragon of carrying the concrete, carry the pivot to close on and connect the feed cylinder to extend to the external world and be connected with conveyor motor, conveyor motor outside is provided with the set casing of being connected with the transport section of thick bamboo, the transport section of thick bamboo deviates from the one end bottom of receiving the feed cylinder and is provided with vertical downwardly extending's discharge tube, the discharge tube bottom is provided with vertical downwardly extending's material section of thick bamboo, the horizontal plate bottom level sets up the horizontal plate, horizontal plate.

Preferably, link plate forming mechanism including setting up in the profiled sheeting of horizontal plate bottom, the inside cavity of profiled sheeting and profiled sheeting offer up opening, profiled sheeting conflict horizontal plate, profiled sheeting bottom center department is provided with vertical downwardly extending's output pivot, output pivot bottom is provided with the output motor, the output motor bottom is provided with the fixed plate that the level was arranged, the fixed plate with set up the spout at base top and match, spout direction of guide is perpendicular ground, the fixed plate bottom is provided with the lift cylinder, the lift cylinder is located the spout bottom, output pivot top be provided with the cross arch, the cross recess that matches with the cross arch is seted up to profiled sheeting bottom, the rubber layer has been laid to the profiled sheeting inner chamber.

3. Has the advantages that:

1. the utility model pours the concrete material into the inner cavity of the mixing drum from the filling pipe, at the moment, the mixing motor is started, the mixing motor drives the mixing rotating shaft to rotate, the mixing rotating shaft drives the mixing rod to rotate and mix the concrete material, after the mixing is completed, the lifting cylinder pushes the connecting plate to lift, the mixing drum inclines, the concrete in the mixing drum enters the quantitative conveying mechanism through the discharging pipe under the action of gravity, the concrete in the mixing mechanism enters the inner cavity of the conveying drum through the receiving drum, the conveying motor is started, the conveying motor drives the conveying rotating shaft to rotate, the conveying rotating shaft drives the spiral sheet, the concrete moves from the lower part of the receiving drum to the discharging drum under the driving of the spiral sheet, the conveying quantity of the concrete can be controlled according to the number of rotating turns of the spiral sheet, the concrete moving to the discharging drum passes through the discharging drum under the action of self gravity, the material guiding drum, the discharging, the use amount of the concrete can be controlled, and the use of the concrete is saved.

2. The utility model discloses start output motor, output motor drives the output pivot and rotates, the output pivot drives the profiled sheeting and rotates, when the concrete falls on the profiled sheeting inner chamber, the centrifugal force that pivoted profiled sheeting produced makes the concrete of profiled sheeting inner chamber disperse all around, avoided the concrete to pile into the taper, when the concrete evenly fills up the profiled sheeting inner chamber, reduce the profiled sheeting through the lift cylinder, the accessible arm takes out the profiled sheeting, when the concrete in the profiled sheeting solidifies, the preparation is accomplished to the concrete link plate, it is even to make the concrete disperse all around through centrifugal force, avoid the accumulational condition to take place.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of the stirring mechanism of the present invention;

FIG. 3 is a schematic structural view of the stirring mechanism of the present invention;

FIG. 4 is a schematic structural view of the stirring mechanism of the present invention;

FIG. 5 is a schematic structural view of the quantitative conveying mechanism and the hanging plate forming mechanism of the present invention;

FIG. 6 is a schematic structural view of the quantitative conveying mechanism of the present invention;

FIG. 7 is a schematic structural view of a hanging plate forming mechanism of the present invention;

fig. 8 is the schematic structural diagram of the hanging plate forming mechanism of the present invention.

The reference numbers in the figures illustrate:

10. a base; 20. a stirring mechanism; 210. a mixing drum; 211. a filler tube; 220. mounting a shell; 230. a discharge pipe; 240. a lifting mechanism; 241. a support plate; 242. a take-off and landing cylinder; 243. a connecting rod; 244. a fixed shaft; 245. a connecting plate; 250. a stirring rotating shaft; 260. a stirring motor; 270. a stirring rod; 30. a quantitative conveying mechanism; 310. a conveying motor; 320. a conveying rotating shaft; 330. a delivery cartridge; 331. a material receiving barrel; 332. a discharge cylinder; 340. a charging barrel; 350. a horizontal plate; 360. a spiral sheet; 40. a hanging plate forming mechanism; 410. forming a plate; 420. an output shaft; 430. an output motor; 440. a fixing plate; 450. a lifting cylinder; 460. and a cross-shaped bulge.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all 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, and are only for convenience of description and simplicity of description, and do not indicate or imply that the mechanism or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

As shown in fig. 1 to 8, a concrete thin layer masonry processing apparatus includes: the base 10 further includes: set up in the stirring mechanism 20 that is used for stirring raw materials to generate concrete in base 10 top, set up in base 10 top and be located stirring mechanism 20 one side and be used for making the link plate forming mechanism 40 of concrete link plate, be located the quantitative conveying mechanism 30 between stirring mechanism 20 and the link plate forming mechanism 40, quantitative conveying mechanism 30 receive the concrete that stirring mechanism 20 made and carry to in link plate forming mechanism 40 quantitatively.

The stirring mechanism 20 comprises a lifting mechanism 240, the lifting mechanism 240 comprises a supporting plate 241 horizontally arranged above the base 10, the supporting plate 241 is fixedly connected with the base 10 through a supporting column, two connecting rods 243 vertically extending upwards are arranged on the supporting plate 241, a fixing shaft 244 is arranged between the top ends of the two connecting rods 243, a connecting plate 245 is sleeved outside the fixing shaft 244, the connecting plate 245 can rotate around the circumferential direction of the fixing shaft 244, a lifting cylinder 242 used for pushing the suspension end of the connecting plate 245 to move up and down is arranged between the suspension end of the connecting plate 245 and the supporting plate 241, the connecting plate 245 is hinged with the lifting cylinder 242, the top surface of the connecting plate 245 is provided with a stirring cylinder 210 axially vertical to the fixing shaft 244, the top end of the stirring cylinder 210 is provided with a filler pipe 211 communicated with the inner cavity of the stirring cylinder 210, a stirring rotating shaft 250 capable of rotating around the axis of the stirring cylinder 210 coaxially penetrates through the, a stirring motor 260 is arranged at one end of the stirring rotating shaft 250 close to the lifting cylinder 242, an installation shell 220 is arranged outside the stirring motor 260, the installation shell 220 is coaxially connected with the stirring cylinder 210, and a discharge pipe 230 which is axially parallel to the axial direction of the stirring cylinder 210 is arranged at the top of one end of the stirring cylinder 210, which is far away from the installation shell 220; pour concrete raw materials into the inner chamber of the mixing drum 210 from the filler pipe 211, start the stirring motor 260 this moment, the stirring motor 260 drives the stirring rotating shaft 250 to rotate, the stirring rotating shaft 250 drives the stirring rod 270 to rotate and stir the concrete raw materials, after the stirring is completed, the lifting cylinder 242 pushes the connecting plate 245 to lift, the mixing drum 210 inclines, and the concrete in the mixing drum 210 enters the quantitative conveying mechanism 30 through the discharge pipe 230 under the action of gravity.

The quantitative conveying mechanism 30 comprises a conveying cylinder 330 arranged on one side of the discharge pipe 230, the axial direction of the conveying cylinder 330 is perpendicular to the axial direction of the discharge pipe 230, a material receiving cylinder 331 for receiving concrete is arranged at one end of the top of the conveying cylinder 330, a conveying rotating shaft 320 is coaxially arranged in a penetrating manner and can rotate around the axis of the conveying rotating shaft 320, a spiral sheet 360 is coaxially sleeved on the conveying rotating shaft 320, the conveying rotating shaft 320 and the spiral sheet 360 are matched to form a conveying auger for conveying concrete, the conveying rotating shaft 320 extends to the outside near the material receiving cylinder 331 and is connected with a conveying motor 310, a fixed shell connected with the conveying cylinder 330 is arranged outside the conveying motor 310, a vertically downward extending discharge cylinder 332 is arranged at the bottom of one end of the conveying cylinder 330, which is far away from the material receiving cylinder 331, a vertically downward extending guide cylinder 340 is arranged at the bottom end of the discharge cylinder 332, a horizontal plate 350 is horizontally arranged at the bottom end of the guide cylinder, the horizontal plate 350 is connected with the hanging plate forming mechanism; concrete in the stirring mechanism 20 enters the inner cavity of the conveying cylinder 330 through the material receiving cylinder 331, the conveying motor 310 is started, the conveying motor 310 drives the conveying rotating shaft 320 to rotate, the conveying rotating shaft 320 drives the spiral piece 360, the concrete moves towards the discharging cylinder 332 from the lower part of the material receiving cylinder 331 under the driving of the spiral piece 360, the conveying amount of the concrete can be controlled according to the rotating number of the spiral piece 360, and the concrete moving to the discharging cylinder 332 passes through the discharging cylinder 332, the material guiding cylinder 340 and the discharging opening under the action of self gravity to enter the hanging plate forming mechanism 40.

The hanging plate forming mechanism 40 comprises a forming plate 410 arranged at the bottom of a horizontal plate 350, the forming plate 410 is hollow, an upward opening is formed in the forming plate 410, the forming plate 410 abuts against the horizontal plate 350, a vertical and downward extending output rotating shaft 420 is arranged at the center of the bottom of the forming plate 410, an output motor 430 is arranged at the bottom of the output rotating shaft 420, a horizontally arranged fixing plate 440 is arranged at the bottom of the output motor 430, the fixing plate 440 is matched with a sliding groove formed in the top of the base 10, the guiding direction of the sliding groove is vertical to the ground, a lifting cylinder 450 is arranged at the bottom of the fixing plate 440, and the lifting cylinder 450 is positioned at; start output motor 430, output motor 430 drives output pivot 420 and rotates, output pivot 420 drives profiled sheeting 410 and rotates, when the concrete falls in profiled sheeting 410 inner chamber, the centrifugal force that pivoted profiled sheeting 410 produced makes the concrete in profiled sheeting 410 inner chamber evenly scattered, concrete pile taper has been avoided, when the profiled sheeting 410 inner chamber is evenly filled with to the concrete, reduce profiled sheeting 410 through lift cylinder 450, the accessible arm takes out profiled sheeting 410, when the concrete in the profiled sheeting 410 solidifies, the preparation is accomplished to the concrete link plate.

More perfectly, the top of the output rotating shaft 420 is provided with a cross-shaped bulge 460, and the bottom of the forming plate 410 is provided with a cross-shaped groove matched with the cross-shaped bulge 460, so that different forming plates 410 can be replaced conveniently, and hanging plates with various shapes can be produced.

Further perfection, in order to take out the concrete hanging plate, a rubber layer is laid in the inner cavity of the forming plate 410.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (4)

1. A concrete thin layer masonry processing apparatus comprising: base (10), its characterized in that still includes: set up in stirring mechanism (20) that is used for stirring raw materials to generate concrete in base (10) top, set up in base (10) top and be located stirring mechanism (20) one side and be used for making hanging plate forming mechanism (40) of concrete link plate, be located quantitative conveying mechanism (30) between stirring mechanism (20) and hanging plate forming mechanism (40), quantitative conveying mechanism (30) receive the concrete that stirring mechanism (20) made and quantitatively carry to in hanging plate forming mechanism (40).

2. The concrete thin layer masonry processing apparatus according to claim 1, characterized in that: the stirring mechanism (20) comprises a lifting mechanism (240), the lifting mechanism (240) comprises a supporting plate (241) horizontally arranged above a base (10), the supporting plate (241) is fixedly connected with the base (10) through a supporting column, two connecting rods (243) vertically extending upwards are arranged on the supporting plate (241), a fixed shaft (244) is arranged between the top ends of the two connecting rods (243), a connecting plate (245) is sleeved outside the fixed shaft (244), the connecting plate (245) can rotate around the circumferential direction of the fixed shaft (244), a lifting cylinder (242) used for pushing the suspension end of the connecting plate (245) to move up and down is arranged between the suspension end of the connecting plate (245) and the supporting plate (241), the connecting plate (245) is hinged with the lifting cylinder (242), the top surface of the connecting plate (245) is provided with a stirring barrel (210) axially vertical to the fixed shaft (244), the top end of the stirring barrel (210) is provided with a filler pipe (211) communicated with, the stirring drum (210) inner chamber is coaxial to be worn to be equipped with and to wind self axis pivoted stirring pivot (250), stirring rod (270) are arranged along the even interval array of circumferencial direction in stirring pivot (250) outside, stirring pivot (250) are close to the one end of taking off and land cylinder (242) and are provided with agitator motor (260), agitator motor (260) outside is provided with installation shell (220), installation shell (220) and stirring drum (210) coaxial coupling, the one end top that stirring drum (210) deviates from installation shell (220) is provided with axial parallel stirring drum (210) axial discharge tube (230).

3. The concrete thin layer masonry processing apparatus according to claim 2, characterized in that: the quantitative conveying mechanism (30) comprises a conveying cylinder (330) arranged on one side of a discharge pipe (230), the axial direction of the conveying cylinder (330) is perpendicular to the axial direction of the discharge pipe (230), one end of the top of the conveying cylinder (330) is provided with a material receiving cylinder (331) used for receiving concrete, a conveying rotating shaft (320) is coaxially arranged in the inner cavity of the conveying cylinder (330) in a penetrating mode and can rotate around the axis of the conveying rotating shaft (320), a spiral piece (360) is coaxially sleeved on the conveying rotating shaft (320), the conveying rotating shaft (320) is matched with the spiral piece (360) to form a conveying auger for conveying concrete, the conveying rotating shaft (320) is close to the material receiving cylinder (331) and extends to the outside and is connected with a conveying motor (310), a fixed shell connected with the conveying cylinder (330) is arranged outside the conveying motor (310), the bottom of one end, deviating from the material receiving cylinder (331), of the conveying cylinder (, the bottom of the discharging barrel (332) is provided with a vertical downward extending charging barrel (340), the bottom of the charging barrel (340) is horizontally provided with a horizontal plate (350), the center of the horizontal plate (350) is provided with a discharging opening communicated with the charging barrel (340), and the horizontal plate (350) is connected with a hanging plate forming mechanism.

4. The concrete thin layer masonry processing apparatus according to claim 3, characterized in that: the hanging plate forming mechanism (40) comprises a forming plate (410) arranged at the bottom of a horizontal plate (350), the forming plate (410) is hollow, an upward opening is formed in the forming plate (410), the forming plate (410) is abutted against the horizontal plate (350), a vertical and downward extending output rotating shaft (420) is arranged at the center of the bottom of the forming plate (410), an output motor (430) is arranged at the bottom of the output rotating shaft (420), a horizontally arranged fixing plate (440) is arranged at the bottom of the output motor (430), the fixing plate (440) is matched with a sliding groove formed in the top of a base (10), the guiding direction of the sliding groove is perpendicular to the ground, a lifting cylinder (450) is arranged at the bottom of the fixing plate (440), the lifting cylinder (450) is positioned at the bottom of the sliding groove, a cross-shaped bulge (460) is arranged at the top of the output rotating shaft (420), and a cross-shaped groove, the inner cavity of the forming plate (410) is paved with a rubber layer.

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