CN212167146U - Civil engineering material mixer - Google Patents

Abstract

The utility model discloses a civil engineering material mixer, including dummy hopper bracing piece, dummy hopper, the import of unloading, material feeding unit, pay-off conveyer and double pivot agitating unit, the dummy hopper is located on the dummy hopper bracing piece, the dummy hopper upper wall is located in the import of unloading, material feeding unit locates in the dummy hopper, in the dummy hopper is located to pay-off conveyer one end, material feeding unit locates the material feeding unit below, double pivot agitating unit locates on the pay-off conveyer other end. The utility model belongs to the technical field of the mixer, specifically indicate a need not artifical two stirring civil engineering material mixers that unload and add stirring raw materials.

Description

Civil engineering material mixer

Technical Field

The utility model belongs to the technical field of the mixer, specifically indicate a civil engineering material mixer.

Background

In civil engineering, a stirrer is often used; the stirrer is a machine for mixing and stirring materials into a mixture, and mainly plays a role in stirring or mixing the prepared materials; the main factors influencing the stirring quality of the stirrer are as follows: at present, the stirring machine mainly comprises a stirring shaft and stirring blades, and the stirring effect of the stirring machine is difficult to improve only by the design of the stirring blades, so that the defects of insufficient stirring, long stirring time and the like often occur in the stirring of the traditional stirring machine. Directly leading to a stirred product that does not achieve the desired result.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a need not artifical two stirring civil engineering material mixers that unload and add stirring raw materials.

In order to realize the above functions, the utility model discloses the technical scheme who takes as follows: the civil engineering material stirrer comprises a discharge bin support rod, a discharge bin, a discharge inlet, a feeding device, a feeding conveying device and a double-rotating-shaft stirring device, wherein the discharge bin is arranged on the discharge bin support rod, the discharge bin support rod supports and fixes the discharge bin, the discharge inlet is formed in the upper wall of the discharge bin, the feeding device is arranged in the discharge bin, one end of the feeding conveying device is arranged in the discharge bin, the feeding conveying device is arranged below the feeding device, and the double-rotating-shaft stirring device is arranged at the other end of the feeding conveying device; the feeding device comprises a feeding driving motor shell, a feeding driving motor, a feeding rotating shaft and a feeding bucket, wherein the feeding driving motor shell is arranged on the inner wall of the discharging bin, the feeding driving motor is arranged in the feeding driving motor shell, the feeding driving motor shell is used for fixing and supporting the feeding driving motor, one end of the feeding rotating shaft is connected with the output shaft end of the feeding driving motor, the feeding bucket is arranged at the other end of the feeding rotating shaft, one end of the feeding conveying device is arranged below the feeding bucket, the feeding driving motor works to drive the feeding rotating shaft to rotate, the feeding rotating shaft drives the feeding bucket to rotate, and materials in the discharging bin are pushed into the feeding conveying device in the rotating process of the feeding bucket.

Further, the feeding and conveying device comprises a first conveyor belt supporting rod, a second conveyor belt supporting rod, a motor shell, a conveyor belt driving motor, a driving shaft, a driven shaft, a conveyor belt and a baffle plate, wherein the motor shell is arranged at the upper end of the first conveyor belt supporting rod, the conveyor belt driving motor is arranged in the motor shell, the driving shaft is rotatably arranged on the first conveyor belt supporting rod, the output shaft end of the conveyor belt driving motor is connected with the driving shaft, the driven shaft is rotatably arranged at the upper end of the second conveyor belt supporting rod, the conveyor belt is arranged on the outer wall of the driving shaft and the outer wall of the driven shaft, the baffle plate is arranged on the conveyor belt, the double-rotating-shaft stirring device is arranged below the driven shaft, materials dug out from the feeding digging bucket fall on the baffle plate on the conveyor belt, the conveyer belt drives the driven shaft to rotate and drives the material on the baffle to move and finally fall into the double-rotating-shaft stirring device.

Further, the double-rotating-shaft stirring device comprises a stirring bin, a stirring bin supporting rod, a supporting cantilever, a revolution driving motor, a rotating plate, a stirring rod, a stirring blade and an autorotation driving motor, wherein one end of the stirring bin is arranged at the upper end of the stirring bin supporting rod, the other end of the stirring bin penetrates through a conveying belt and is connected with the side wall of a discharging bin, one end of the supporting cantilever is arranged on the inner side wall of the stirring bin, the revolution driving motor is arranged in the other end of the supporting cantilever, the supporting cantilever fixedly supports the revolution driving motor, the rotating plate is rotatably arranged at the other end of the supporting cantilever, the output shaft end of the revolution driving motor is connected with the center of the rotating plate, the autorotation driving motor is eccentrically arranged on the rotating plate, the rotating plate fixedly supports the autorotation driving motor, one end of the stirring rod is, on the puddler was located to the stirring leaf, revolution driving motor work drove the rotor plate rotatory, and the rotor plate is rotatory to drive rotation driving motor and puddler rotation, and the puddler drives the stirring leaf and stirs the material thing in the stirring storehouse, and rotation driving motor work drives the puddler and carries out the rotation simultaneously, and the puddler drives the stirring leaf and stirs the material thing in the stirring storehouse once more, realizes the multiple intensive mixing's of two rotations effect.

Furthermore, the rotation driving motors are eccentrically arranged on the rotating plate and are arranged in two groups by taking the central line of the rotating plate as a symmetrical axis, and the stirring rods are eccentrically arranged on the rotating plate and are arranged in two groups by taking the central line of the rotating plate as a symmetrical axis.

Further, be equipped with discharge gate, discharge gate apron and whereabouts mouth on the stirring storehouse, the whereabouts mouth is located on the stirring storehouse diapire and is close to material feeding unit, the stirring storehouse lateral wall is located to the discharge gate and is close to the stirring storehouse bracing piece, the discharge gate apron is rotatable to be located on the discharge gate.

Furthermore, the feeding buckets are arranged in a funnel shape and provided with a plurality of groups, and the groups of the feeding buckets are uniformly arranged on the other end of the feeding rotating shaft in a circumferential shape.

The utility model adopts the above structure to gain beneficial effect as follows: the utility model provides a pair of civil engineering material mixer easy operation, material feeding unit can with the automatic propelling movement of the material thing of direct uninstallation in the discharge bin to the conveyer belt, need not the manpower and transport the material thing, save time raises the efficiency, and two commentaries on classics agitating unit utilize revolution driving motor and rotation driving motor to realize the multiple intensive mixing's of two commentaries on classics technological effect to puddler and stirring leaf simultaneously.

Drawings

Figure 1 is the utility model discloses a civil engineering material mixer's overall structure graph.

The automatic material conveying device comprises a material discharging bin supporting rod 1, a material discharging bin 2, a material discharging bin 3, a material discharging inlet 4, a material conveying device 5, a material conveying device 6, a double-rotating-shaft stirring device 7, a material conveying driving motor shell 8, a material conveying driving motor 9, a material conveying rotating shaft 10, a material conveying bucket 11, a conveyor belt supporting rod I, a conveyor belt supporting rod II, a conveyor belt supporting rod 13, a motor shell 14, a conveyor belt driving motor 15, a driving shaft 16, a driven shaft 17, a conveyor belt 18, a baffle plate 19, a stirring bin 20, a stirring bin supporting rod 21, a supporting cantilever 22, a revolution driving motor 23, a rotating plate 24, a stirring rod 25, a stirring blade 26, a rotation driving motor 27, a material discharging port 28, a material discharging port cover plate 29 and a falling port.

Detailed Description

The technical solution of the present invention will be described in further detail with reference to the following embodiments, and the technical features or the connection relations of the present invention, which are not described in detail, are the prior art adopted.

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, the utility model relates to a civil engineering material mixer, including unloading storehouse bracing piece 1, unloading storehouse 2, unloading import 3, material feeding unit 4, pay-off conveyer 5 and double-shaft mixing device 6, unloading storehouse 2 locates on unloading storehouse bracing piece 1, unloading import 3 locates on unloading storehouse 2 upper wall, material feeding unit 4 locates in unloading storehouse 2, 5 one end of pay-off conveyer locates in unloading storehouse 2, 5 locate below material feeding unit 4 pay-off conveyer 5, double-shaft mixing device 6 locates on 5 other ends of pay-off conveyer; the feeding device 4 comprises a feeding driving motor shell 7, a feeding driving motor 8, a feeding rotating shaft 9 and a feeding bucket 10, wherein the feeding driving motor shell 7 is arranged on the inner wall of the discharging bin 2, the feeding driving motor 8 is arranged in the feeding driving motor shell 7, one end of the feeding rotating shaft 9 is connected with the output shaft end of the feeding driving motor 8, the feeding bucket 10 is arranged at the other end of the feeding rotating shaft 9, and one end of the feeding conveying device 5 is arranged below the feeding bucket 10.

Pay-off conveyer 5 includes conveyor belt bracing piece one 11, conveyor belt bracing piece two 12, motor housing 13, conveyor belt driving motor 14, driving shaft 15, driven shaft 16, conveyer belt 17 and baffle 18, motor housing 13 locates conveyor belt bracing piece one 11 upper ends, conveyor belt driving motor 14 locates in motor housing 13, driving shaft 15 is rotatable to be located on conveyor belt bracing piece one 11, conveyor belt driving motor 14 output shaft end links to each other with driving shaft 15, driven shaft 16 is rotatable to be located conveyor belt bracing piece two 12 upper ends, driving shaft 15 and driven shaft 16 outer wall are located to conveyer belt 17, baffle 18 is located on the conveyer belt 17, two pivot agitating unit 6 locate the 16 below of driven shaft.

The double-rotating-shaft stirring device 6 comprises a stirring bin 19, a stirring bin supporting rod 20, a supporting cantilever 21, a revolution driving motor 22, a rotating plate 23, a stirring rod 24, a stirring blade 25 and a rotation driving motor 26, wherein one end of the stirring bin 19 is arranged at the upper end of the stirring bin supporting rod 20, the other end of the stirring bin 19 penetrates through a conveying belt 17 and is connected with the side wall of the discharging bin 2, one end of the supporting cantilever 21 is arranged on the inner side wall of the stirring bin 19, the revolution driving motor 22 is arranged in the other end of the supporting cantilever 21, the rotating plate 23 is rotatably arranged at the other end of the supporting cantilever 21, the output shaft end of the revolution driving motor 22 is connected with the center of the rotating plate 23, the rotation driving motor 26 is eccentrically arranged on the rotating plate 23, the rotating plate 23 fixedly supports the rotation driving motor 26, one end of the stirring rod 24 is eccentrically arranged on the rotating plate 23, the stirring blade 25 is arranged on the stirring rod 24.

The rotation driving motors 26 are eccentrically arranged on the rotating plate 23 and are arranged in two groups by taking the central line of the rotating plate 23 as a symmetrical axis, and the stirring rods 24 are eccentrically arranged on the rotating plate 23 and are arranged in two groups by taking the central line of the rotating plate 23 as a symmetrical axis.

Be equipped with discharge gate 27, discharge gate apron 28 and whereabouts mouth 29 on stirring storehouse 19, whereabouts mouth 29 is located on the 19 diapire of stirring storehouse and is close to material feeding unit 4, 19 lateral walls of stirring storehouse and be close to stirring storehouse bracing piece 20 are located to discharge gate 27, discharge gate apron 28 is rotatable to be located on discharge gate 27.

The feeding buckets 10 are arranged in a funnel shape, a plurality of groups of the feeding buckets 10 are arranged on the feeding rotating shaft 9, and the plurality of groups of the feeding buckets 10 are uniformly arranged on the other end of the feeding rotating shaft in a circumferential shape.

When the material stirring device is used specifically, conveyed materials are directly unloaded in the discharging bin 2, the feeding driving motor 8 works to drive the feeding rotating shaft 9 to rotate, the feeding rotating shaft 9 drives the feeding bucket 10 to rotate, the materials in the discharging bin 2 are pushed to the conveyor belt 17 in the rotating process of the feeding bucket 10, the materials dug out from the feeding bucket 10 fall on the baffle plate 18 on the conveyor belt 17, the baffle plate 18 supports the materials, the materials which do not fall on the conveyor belt 17 slide out of the falling opening 29, the conveyor belt driving motor 14 works to drive the driving shaft 15 to rotate, the driving shaft 15 drives the conveyor belt 17 to rotate, the conveyor belt 17 drives the driven shaft 16 to rotate and drives the materials on the baffle plate 18 to move and finally fall in the stirring bin 19, the revolution driving motor 22 works to drive the rotating plate 23 to rotate, the rotating plate 23 rotates to drive the rotation driving motor 26 and the stirring rod 24 to rotate, the stirring rod 24 drives the stirring blades 25 to stir the materials in the stirring bin 19, simultaneously rotation driving motor 26 work drives puddler 24 and carries out the rotation, and puddler 24 drives stirring leaf 25 and stirs the material thing in stirring storehouse 19 once more, realizes the multiple intensive stirring's of two rotations effect, and the material thing that stirs slides out in following discharge gate 27 through rotatory discharge gate apron 28.

The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

Claims (6)

1. The utility model provides a civil engineering material mixer which characterized in that: the automatic feeding device comprises a discharging bin supporting rod, a discharging bin, a discharging inlet, a feeding device, a feeding conveying device and a double-rotating-shaft stirring device, wherein the discharging bin is arranged on the discharging bin supporting rod, the discharging inlet is formed in the upper wall of the discharging bin, the feeding device is arranged in the discharging bin, one end of the feeding conveying device is arranged in the discharging bin, the feeding conveying device is arranged below the feeding device, and the double-rotating-shaft stirring device is arranged at the other end of the feeding conveying device; the feeding device comprises a feeding driving motor shell, a feeding driving motor, a feeding rotating shaft and a feeding bucket, wherein the feeding driving motor shell is arranged on the inner wall of the discharging bin, the feeding driving motor is arranged in the feeding driving motor shell, one end of the feeding rotating shaft is connected with the output shaft end of the feeding driving motor, the feeding bucket is arranged at the other end of the feeding rotating shaft, and one end of the feeding conveying device is arranged below the feeding bucket.

2. A civil engineering material mixer as claimed in claim 1, wherein: pay-off conveyer includes conveyer belt bracing piece one, conveyer belt bracing piece two, motor housing, conveyer belt driving motor, driving shaft, driven shaft, conveyer belt and baffle, motor housing locates conveyer belt bracing piece one upper end, conveyer belt driving motor locates in the motor housing, the driving shaft is rotatable to be located on the conveyer belt bracing piece one, conveyer belt driving motor output shaft end links to each other with the driving shaft, two upper ends of conveyer belt bracing piece are rotatable to be located to the driven shaft, driving shaft and driven shaft outer wall are located to the conveyer belt, the baffle is located on the conveyer belt, the driven shaft below is located to two pivot agitating unit.

3. A civil engineering material mixer as claimed in claim 1, wherein: the double-rotating-shaft stirring device comprises a stirring bin, a stirring bin supporting rod, a supporting cantilever, a revolution driving motor, a rotating plate, a stirring rod, stirring blades and a rotation driving motor, wherein one end of the stirring bin is arranged at the upper end of the stirring bin supporting rod, the other end of the stirring bin penetrates through a conveying belt and is connected with the side wall of a discharging bin, one end of the supporting cantilever is arranged on the inner side wall of the stirring bin, the revolution driving motor is arranged in the other end of the supporting cantilever, the rotating plate is rotatably arranged at the other end of the supporting cantilever, the output shaft end of the revolution driving motor is connected with the center of the rotating plate, the rotation driving motor is eccentrically arranged on the rotating plate, the rotating plate is fixedly supported on the rotation driving motor, one end of the stirring rod is eccentrically arranged on the rotating plate, the output shaft.

4. A civil engineering material mixer as claimed in claim 3, wherein: the rotation driving motors are eccentrically arranged on the rotating plate and are two groups by taking the central line of the rotating plate as a symmetrical axis, and the stirring rods are eccentrically arranged on the rotating plate and are two groups by taking the central line of the rotating plate as a symmetrical axis.

5. A civil engineering material mixer as claimed in claim 3, wherein: the stirring bin is provided with a discharge port, a discharge port cover plate and a discharge port, the discharge port is arranged on the bottom wall of the stirring bin and is close to the feeding device, the discharge port is arranged on the side wall of the stirring bin and is close to the supporting rod of the stirring bin, and the discharge port cover plate is rotatably arranged on the discharge port.

6. A civil engineering material mixer as claimed in claim 1, wherein: the feeding buckets are arranged in a funnel shape and provided with a plurality of groups, and the groups of the feeding buckets are uniformly arranged on the other end of the feeding rotating shaft in a circumferential shape.

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