CN219864106U

CN219864106U - Anti-caking concrete discharging device

Info

Publication number: CN219864106U
Application number: CN202321014136.9U
Authority: CN
Inventors: 韩松; 任杰; 蒋大伦; 孙伟祥; 王帅; 马春波; 杜凯; 季明健; 孙士秋; 司阳; 孙健; 耿宏宇
Original assignee: Rail Transit Construction Co Ltd of China Construction Eighth Engineering Division Co Ltd
Current assignee: Rail Transit Construction Co Ltd of China Construction Eighth Engineering Division Co Ltd
Priority date: 2023-04-28
Filing date: 2023-04-28
Publication date: 2023-10-20
Anticipated expiration: 2033-04-28

Abstract

The utility model discloses an anti-caking concrete discharging device which comprises concrete processing equipment (1), a discharging opening (2), an adjusting component (3) and an auxiliary component (4); one end of the feed opening (2) is connected with a discharge opening of the concrete processing equipment (1), and the other end of the feed opening (2) extends to the outside of the concrete processing equipment (1); the blanking opening (2) is of a semi-tubular structure with an opening at the top, the auxiliary component (4) is of a semi-tubular structure with an opening at the bottom, the auxiliary component (4) is detachably connected to the blanking opening (2), and the auxiliary component (4) and the blanking opening (2) are spliced to form the blanking pipe structure; the adjusting component (3) is arranged at the top of the auxiliary component (4), and the adjusting component (3) can be movably inserted into the blanking pipe structure. The utility model can solve the problem that the blanking pipe of the concrete blanking mechanism is easy to agglomerate in the prior art.

Description

Anti-caking concrete discharging device

Technical Field

The utility model relates to concrete processing equipment, in particular to an anti-caking concrete discharging device.

Background

The concrete blanking equipment is equipment for guiding concrete blanking, and is widely applied in the field of building construction.

Chinese patent No. 212478564U discloses a concrete blanking mechanism, including the shaking table, shaking table upper surface is provided with straight following material pipe, straight following material pipe extends to shaking table inside and is connected with oblique unloading pipe, oblique unloading pipe stretches out from one side of shaking table, straight following material pipe upper port is connected with down the hopper. Because concrete slurry is adhered to the inner wall of the inclined blanking pipe, the inner wall of the pipe is inconvenient to clean, and is easy to agglomerate in the inclined blanking pipe after long-time use, so that the blanking efficiency and flow of the inclined blanking pipe are affected, and the quality of the concrete slurry is also reduced. Therefore, it is necessary to provide an anti-caking concrete discharging device, which can solve the problem that caking is easy to occur in a discharging pipe of a concrete discharging mechanism in the prior art.

Disclosure of Invention

The utility model aims to provide an anti-caking concrete discharging device, which can solve the problem that in the prior art, a discharging pipe of a concrete discharging mechanism is easy to agglomerate.

The utility model is realized in the following way:

an anti-caking concrete discharging device comprises concrete processing equipment, a discharging opening, an adjusting component and an auxiliary component; one end of the feed opening is connected with a discharge opening of the concrete processing equipment, and the other end of the feed opening extends to the outside of the concrete processing equipment; the blanking opening is of a semi-tubular structure with an opening at the top, the auxiliary component is of a semi-tubular structure with an opening at the bottom, the auxiliary component is detachably connected to the blanking opening, and the auxiliary component and the blanking opening are spliced to form a blanking pipe structure; the adjusting component is arranged at the top of the auxiliary component, and the adjusting component can be movably inserted into the blanking pipe structure.

The auxiliary assembly comprises a cover plate and a locking mechanism; the cover plate is of a semi-tubular structure with an opening at the bottom, plugboards are respectively formed at two sides of the bottom of the cover plate, slots are respectively formed at two sides of the top of the blanking opening, and the plugboards can be inserted into the slots in a matching manner, so that the cover plate and the blanking opening are movably spliced to form a blanking pipe structure; the locking mechanism is connected between the cover plate and the feed opening.

The locking mechanism comprises a positioning block, a supporting block and a positioning rod; one end of the positioning block is fixedly connected to the outer side wall of the cover plate, and the other end of the positioning block extends downwards to the side lower part of the cover plate; one end of the supporting block is fixedly connected to the outer side wall of the blanking opening, and the other end of the supporting block extends to the upper side of the blanking opening; screw holes are formed in the positioning block and the supporting block, and when the cover plate is inserted into the blanking hole, the positioning block is attached to the supporting block, and the screw holes are coincident, so that the positioning rod penetrates through the positioning block and the supporting block through the screw holes.

The top of apron be formed with the regulation slot, adjusting part sets up at the top of apron and can insert in the unloading pipe structure through the regulation slot.

The adjusting component comprises a supporting frame, an adjusting plate and an adjusting mechanism; the lower part of the supporting frame is inserted into the blanking pipe structure through the adjusting slot, and the adjusting plate is embedded into the supporting frame in a lifting manner through the adjusting mechanism, so that the adjusting plate can be movably covered in the blanking pipe structure.

The adjusting mechanism comprises a driving gear, a driving motor, an adjusting wheel and a screw rod; the driving motor is arranged on the supporting frame and is positioned above the cover plate, and the driving gear is coaxially and fixedly connected to the output shaft of the driving motor; the inner ring of the adjusting wheel is screwed on the screw rod through threads, the adjusting wheel is positioned above the supporting frame, the outer ring of the adjusting wheel is in meshed transmission connection with the driving gear, and the other end of the screw rod penetrates into the supporting frame and is connected with the top of the adjusting plate.

The height of the adjusting plate is half of the height of the supporting frame, and the height of the adjusting plate is consistent with the height of the blanking pipe structure.

The top interval of regulating plate be formed with many guide bars, many guide bars upwards extend and run through the braced frame, many guide bars parallel arrangement are in the both sides of screw rod respectively.

The top of many guide poles be formed with limit flange, limit flange can the butt at the top of carriage.

Compared with the prior art, the utility model has the following beneficial effects:

1. the utility model is provided with the auxiliary component and the blanking pipe, the upper part of the blanking pipe is opened, and the lower part of the auxiliary component is opened, so that the blanking pipe and the auxiliary component are detachably spliced to form a blanking pipe structure by adopting the lockable mechanism, the inner walls of the blanking pipe and the cover plate are convenient to disassemble and clean, and concrete agglomeration in the blanking pipe and the auxiliary component is prevented, thereby ensuring the blanking efficiency, the blanking flow and the concrete quality of concrete slurry.

2. The utility model is provided with the adjusting component, and realizes the up-and-down lifting movement of the adjusting plate in the supporting frame through the motor driving gear transmission and the screw transmission, so that the adjusting plate moves to the bottom of the supporting frame and completely seals the blanking pipe structure, and the adjusting plate moves to the top of the supporting frame and completely opens the blanking pipe structure, thereby the adjusting plate forms an opening valve plate in the blanking pipe structure for adjusting the blanking flow of concrete.

3. The concrete feeding device is simple in structure, can be installed and used at the feeding opening of various concrete processing equipment, ensures the flow and efficiency of concrete feeding and the quality of concrete slurry, is easy to disassemble, assemble, replace and clean, is beneficial to avoiding caking of the feeding opening, and improves the practicability and the adjustability of the concrete processing equipment.

Drawings

FIG. 1 is a perspective view of an anti-caking concrete discharging apparatus according to the present utility model;

FIG. 2 is a schematic view of the installation of the conditioning assembly in the anti-caking concrete discharging apparatus of the present utility model;

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

FIG. 4 is a schematic view showing the installation of auxiliary components in the anti-caking concrete discharging apparatus according to the present utility model;

fig. 5 is an enlarged schematic view at B in fig. 4.

In the figure, 1, concrete processing equipment; 2. a feed opening; 3. an adjustment assembly; 31. a drive gear; 32. a driving motor; 33. a guide rod; 34. an adjusting plate; 35. an adjusting wheel; 36. a support frame; 37. a screw; 38. a limit flange; 4. an auxiliary component; 41. a cover plate; 42. a positioning block; 43. a support block; 44. a positioning rod; 45. a slot; 46. and (5) inserting plates.

Detailed Description

The utility model will be further described with reference to the drawings and the specific examples.

Referring to fig. 1, 2 and 4, an anti-caking concrete discharging device comprises a concrete processing device 1, a discharging opening 2, an adjusting component 3 and an auxiliary component 4; one end of the feed opening 2 is connected with a discharge opening of the concrete processing equipment 1, and the other end of the feed opening 2 extends to the outside of the concrete processing equipment 1; the blanking opening 2 is of a semi-tubular structure with an opening at the top, the auxiliary component 4 is of a semi-tubular structure with an opening at the bottom, the auxiliary component 4 is detachably connected to the blanking opening 2, and the auxiliary component 4 and the blanking opening 2 are spliced to form a blanking pipe structure; the adjusting component 3 is arranged at the top of the auxiliary component 4, and the adjusting component 3 can be movably inserted into the blanking pipe structure.

The concrete processing equipment 1 can adopt concrete stirring equipment in the prior art, and can also select processing equipment with other functions according to the processing requirements of actual construction for processing concrete. The blanking port 2 of the concrete processing equipment 1 is designed into a semi-tubular structure with an open top, so that the concrete processing equipment can directly blanking, and the blanking port 2 is convenient to clean and prevent caking. Meanwhile, the auxiliary assembly 4 can be installed on the blanking opening 2 to form a complete tubular blanking pipe structure, blanking is convenient, the auxiliary assembly 4 is detachably installed, and the blanking machine is convenient and quick to assemble and disassemble and easy to clean. The adjusting component 3 is arranged on the auxiliary component 4, and the adjusting component 3 is movably inserted into the blanking pipe structure to a certain depth and is used for adjusting the blanking flow of the concrete slurry.

Referring to fig. 5, the auxiliary assembly 4 includes a cover 41 and a locking mechanism; the cover plate 41 is of a semi-tubular structure with an opening at the bottom, the two sides of the bottom of the cover plate 41 are respectively provided with an inserting plate 46, the two sides of the top of the blanking opening 2 are respectively provided with an inserting groove 45, and the inserting plates 46 can be inserted into the inserting grooves 45 in a matching way, so that the cover plate 41 and the blanking opening 2 are movably spliced into a blanking pipe structure; the locking mechanism is connected between the cover plate 41 and the feed opening 2.

The blanking pipe structure adopts a split type structure of the blanking opening 2 and the cover plate 41, is convenient to detach and clean, and prevents the blanking pipe structure from being internally agglomerated to influence the blanking efficiency, the blanking flow and the quality of concrete slurry. Through the setting of slot and picture peg, the dismouting of feed opening 2 and apron 41 is convenient, accurate to through locking mechanical system locking fixed, easy operation.

Preferably, the cross sections of the feed opening 2 and the cover plate 41 are rectangular structures, and the cross section of the feed pipe structure is rectangular or square.

Referring to fig. 5, the locking mechanism includes a positioning block 42, a supporting block 43 and a positioning rod 44; one end of the positioning block 42 is fixedly connected to the outer side wall of the cover plate 41, and the other end of the positioning block 42 extends downwards to the side lower part of the cover plate 41; one end of the supporting block 43 is fixedly connected to the outer side wall of the feed opening 2, and the other end of the supporting block 43 extends to the upper side of the feed opening 2; screw holes are formed in the positioning block 42 and the supporting block 43, and when the cover plate 41 is inserted into the blanking opening 2, the positioning block 42 is attached to the supporting block 43, and the screw holes are coincident, so that the positioning rod 44 penetrates through the screw holes to be screwed with the positioning block 42 and the supporting block 43.

Preferably, the locking mechanism can be provided with two groups which are symmetrically positioned at two sides of the blanking pipe structure respectively, so that the splicing stability and the integrity of the blanking pipe structure are ensured. The positioning rod 44 is screwed with the screw threads of the screw hole, so that the positioning block 42 and the supporting block 43 are tied with the blanking opening 2 and the cover plate 41 through the positioning rod 44, and the blanking opening 2 and the cover plate 41 form a complete blanking pipe structure for blanking of concrete slurry.

The top of the cover plate 41 is formed with an adjusting slot (not shown in the figure), and the adjusting component 3 is arranged on the top of the cover plate 41 and can be inserted into the blanking pipe structure through the adjusting slot.

The size of the adjusting slot is determined according to the size of the adjusting component 3, the size of the adjusting component 3 is determined according to the inner size of the blanking pipe structure, and the adjusting component 3 is ensured to form the flow opening control of complete closure, partial closure and complete opening of the blanking pipe structure.

Referring to fig. 3, the adjusting assembly 3 includes a support frame 36, an adjusting plate 34, and an adjusting mechanism; the lower part of the supporting frame 36 is inserted into the blanking pipe structure through an adjusting slot, and the adjusting plate 34 is embedded into the supporting frame 36 in a lifting manner through an adjusting mechanism, so that the adjusting plate 34 can be movably covered in the blanking pipe structure.

Preferably, the insert grooves can be formed on the inner walls of the blanking opening 2 and the cover plate 41, so that the support frame 36 is inserted into the insert grooves in a sealing way through the sealing rings, reliable installation of the adjusting assembly 3 is ensured, and the offset is not easy to occur during concrete blanking. Meanwhile, sliding blocks can be formed on two side surfaces of the inner wall of the supporting frame 36, sliding grooves are formed on two side surfaces of the adjusting plate 34, the sliding blocks are slidably embedded into the sliding grooves, so that the adjusting plate 34 can slide up and down along the sliding grooves in the supporting frame 36, and the adjusting plate 34 can slide downwards and be inserted into the blanking pipe structure or slide upwards and be pulled out from the blanking pipe structure.

Referring to fig. 3, the adjusting mechanism includes a driving gear 31, a driving motor 32, an adjusting wheel 35 and a screw 37; the driving motor 32 is arranged on the supporting frame 36 and above the cover plate 41, and the driving gear 31 is coaxially and fixedly connected to the output shaft of the driving motor 32; the inner ring of the adjusting wheel 35 is screwed on the screw rod 37 through threads, the adjusting wheel 35 is positioned above the supporting frame 36, the outer ring of the adjusting wheel 35 is meshed and connected with the driving gear 31 in a transmission way, and the other end of the screw rod 37 penetrates into the supporting frame 36 and is connected with the top of the adjusting plate 34.

Preferably, the driving motor 32 may be a small motor with forward and reverse rotation functions in the prior art, and after the driving motor 32 is powered on and started, the driving gear 31 can be driven to rotate forward or reverse, and the driving gear 31 drives the adjusting wheel 35 to rotate forward or reverse synchronously through the meshing teeth. When the adjusting wheel 35 rotates, the adjusting plate 34 is slidably embedded in the supporting frame 36 and cannot rotate, so that the rotation of the adjusting wheel 35 is converted into the axial linear motion of the screw rod 37 through threads, and the adjusting plate 34 is driven to do lifting motion in the supporting frame 36, and a valve plate is formed in the blanking pipe structure and can be used for adjusting the opening degree and the blanking flow of the blanking pipe structure.

The height of the adjusting plate 34 is half of the height of the supporting frame 36, and the height of the adjusting plate 34 is consistent with the height of the blanking pipe structure.

When the adjusting plate 34 moves downwards to be in contact with the bottom of the supporting frame 36, the adjusting plate 34 just seals the blanking pipe structure, when the adjusting plate 34 moves upwards to be in contact with the top of the supporting frame 36, the blanking pipe structure just opens completely, and the opening degree of the blanking pipe structure is adjusted by the descending of the adjusting plate 34.

Referring to fig. 3, a plurality of guide rods 33 are formed at intervals on the top of the adjusting plate 34, the plurality of guide rods 33 extend upward and penetrate the supporting frame 36, and the plurality of guide rods 33 are respectively disposed in parallel on two sides of the screw 37.

Preferably, a corresponding number of through holes are reserved at corresponding positions on the supporting frame 36, so that the plurality of guide rods 33 respectively penetrate through the top of the supporting frame 36 through the through holes, and the guide effect is realized for lifting and lowering the adjusting plate 34, so that the movement track of the adjusting plate 34 is always in the same plane.

Referring to fig. 3, a limit flange 38 is formed on top of the plurality of guide rods 33, and the limit flange 38 can be abutted against the top of the support frame 36.

Can play a limiting role on the descending travel of the guide rod 33, when the limiting flange 38 descends along with the guide rod 33 to be attached to the top of the supporting frame 36, the bottom of the adjusting plate 34 is attached to the bottom of the supporting frame 36, and at this time, the adjusting plate 34 completely seals the blanking pipe structure.

Referring to fig. 1 to 5, the application method and the working principle of the utility model are as follows:

the concrete processing equipment 1 can adopt concrete stirring equipment in the prior art, and after the concrete processing equipment 1 stirs and processes concrete slurry, the blanking pipe structure formed by the blanking opening 2 and the cover plate 41 is used for blanking.

In the blanking process, the driving motor 32 can be started to drive the driving gear 31 to rotate forward or backward, so that the adjusting wheel 35 is driven to rotate synchronously through the meshing teeth, the rotation of the adjusting wheel 35 is converted into the axial lifting movement of the screw rod 37 by utilizing the threads, and the adjusting plate 34 is driven to move up and down in the supporting frame 36. The size of the pipe orifice section of the blanking pipe structure is adjusted through the setting height of the adjusting plate 34, so that the blanking flow of the concrete is adjusted.

When the blanking pipe structure is internally agglomerated, the rotary dismounting positioning rod 44 is rotated to unlock the positioning block 42 and the supporting block 43, and the cover plate 41 is dismounted from the blanking opening 2, so that the inner wall of the cover plate 41, the inner wall of the blanking opening 2, the adjusting plate 34 and the supporting frame 36 are conveniently cleaned.

The above embodiments are merely preferred embodiments of the present utility model and are not intended to limit the scope of the present utility model, therefore, any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present utility model should be included in the scope of the present utility model.

Claims

1. An anti-caking concrete unloader, characterized by: comprises concrete processing equipment (1), a feed opening (2), an adjusting component (3) and an auxiliary component (4); one end of the feed opening (2) is connected with a discharge opening of the concrete processing equipment (1), and the other end of the feed opening (2) extends to the outside of the concrete processing equipment (1); the blanking opening (2) is of a semi-tubular structure with an opening at the top, the auxiliary component (4) is of a semi-tubular structure with an opening at the bottom, the auxiliary component (4) is detachably connected to the blanking opening (2), and the auxiliary component (4) and the blanking opening (2) are spliced to form the blanking pipe structure; the adjusting component (3) is arranged at the top of the auxiliary component (4), and the adjusting component (3) can be movably inserted into the blanking pipe structure.

2. The anti-caking concrete discharging apparatus according to claim 1, characterized in that: the auxiliary assembly (4) comprises a cover plate (41) and a locking mechanism; the cover plate (41) is of a semi-tubular structure with an opening at the bottom, inserting plates (46) are respectively formed at two sides of the bottom of the cover plate (41), inserting grooves (45) are respectively formed at two sides of the top of the blanking opening (2), and the inserting plates (46) can be inserted into the inserting grooves (45) in a matching manner, so that the cover plate (41) and the blanking opening (2) are movably spliced to form a blanking pipe structure; the locking mechanism is connected between the cover plate (41) and the feed opening (2).

3. The anti-caking concrete discharging apparatus according to claim 2, characterized in that: the locking mechanism comprises a positioning block (42), a supporting block (43) and a positioning rod (44); one end of the positioning block (42) is fixedly connected to the outer side wall of the cover plate (41), and the other end of the positioning block (42) extends downwards to the side lower part of the cover plate (41); one end of the supporting block (43) is fixedly connected to the outer side wall of the blanking opening (2), and the other end of the supporting block (43) extends to the upper side of the blanking opening (2); screw holes are formed in the positioning block (42) and the supporting block (43), and when the cover plate (41) is inserted into the blanking opening (2), the positioning block (42) is attached to the supporting block (43) and the screw holes are overlapped, so that the positioning rod (44) penetrates through the screw holes to be screwed with the positioning block (42) and the supporting block (43).

4. The anti-caking concrete discharging apparatus according to claim 2, characterized in that: the top of apron (41) be formed with the regulation slot, adjusting part (3) set up at the top of apron (41) and can insert in unloading pipe structure through the regulation slot.

5. The anti-caking concrete discharging apparatus according to claim 4, wherein: the adjusting assembly (3) comprises a supporting frame (36), an adjusting plate (34) and an adjusting mechanism; the lower part of the supporting frame (36) is inserted into the blanking pipe structure through an adjusting slot, and the adjusting plate (34) is embedded into the supporting frame (36) in a lifting manner through an adjusting mechanism, so that the adjusting plate (34) can be movably covered in the blanking pipe structure.

6. The anti-caking concrete discharging apparatus according to claim 5, wherein: the adjusting mechanism comprises a driving gear (31), a driving motor (32), an adjusting wheel (35) and a screw rod (37); the driving motor (32) is arranged on the supporting frame (36) and is positioned above the cover plate (41), and the driving gear (31) is coaxially and fixedly connected to the output shaft of the driving motor (32); the inner ring of the adjusting wheel (35) is screwed on the screw rod (37) through threads, the adjusting wheel (35) is positioned above the supporting frame (36), the outer ring of the adjusting wheel (35) is meshed and connected with the driving gear (31) in a transmission manner, and the other end of the screw rod (37) penetrates into the supporting frame (36) and is connected with the top of the adjusting plate (34).

7. The anti-blocking concrete discharging device according to claim 5 or 6, characterized in that: the height of the adjusting plate (34) is half of the height of the supporting frame (36), and the height of the adjusting plate (34) is consistent with the height of the blanking pipe structure.

8. The anti-caking concrete discharging apparatus according to claim 7, wherein: the top of regulating plate (34) interval be formed with many guide bars (33), many guide bars (33) upwards extend and run through braced frame (36), many guide bars (33) parallel arrangement are in the both sides of screw rod (37) respectively.

9. The anti-caking concrete discharging apparatus according to claim 8, wherein: the top of the plurality of guide rods (33) is provided with a limit flange (38), and the limit flange (38) can be abutted to the top of the supporting frame (36).