CN210594352U - Finished product storehouse blowing transfer device - Google Patents

Abstract

The utility model belongs to a discharging device in asphalt mixing equipment, which aims to solve the problems that the discharging amount is difficult to master due to the direct discharging of a finished product bin to a material receiving vehicle in the prior art and the operation is complex due to the frequent movement of the vehicle, and in addition, the technical problem that the material stack is easy to separate due to the over-high accumulation during discharging is provided, and the discharging transferring device for the finished product bin comprises a first driver, a bracket, a track and a conveying mechanism; the track is fixed on the bracket; the conveying mechanism is matched with the track through a sliding assembly; the conveying mechanism is positioned right below the finished product bin; the output end of the first driver is connected with the sliding assembly; the transmission mechanism has multiple modes, and can be a chain wheel and chain transmission matched scraper and a belt wheel belt, and also can be a chain wheel and chain transmission matched belt. When discharging, the conveying mechanism is driven to move only through the first driver, and the material receiving vehicle does not need to be moved frequently, so that the operation is simpler and more convenient; through simple and convenient multiple spot blowing, the segregation of material has significantly reduced.

Description

Finished product storehouse blowing transfer device

Technical Field

The utility model belongs to the blowing device among the pitch agitated vessel, concretely relates to finished product storehouse blowing transfer device.

Background

When the existing stirring equipment needs to convey materials to the receiving vehicle through the finished product bin after stirring is completed, the receiving vehicle is generally driven to the position below the finished product bin, the materials are received from any end of a hopper of the receiving vehicle, the receiving condition of the materials is observed by naked eyes, if the materials at a certain position are accumulated to a certain height, the receiving vehicle is moved, and then the materials are continuously discharged at the next position of the hopper of the receiving vehicle. The finished product bin directly discharges materials to the material receiving vehicle, so that the material discharging amount is difficult to control, and in addition, the material receiving vehicle needs to be continuously moved, so that the operation is complex.

Because the discharge amount is controlled by observation in the discharge process, the stockpile of the material receiving vehicle is easy to stack too high, and the finished material around the stockpile is separated. In order to reduce segregation, the receiving vehicle needs to be moved ceaselessly in the discharging process, so that the discharging positions are as many as possible, but the method for moving the receiving vehicle is not only complicated due to the limited space of the receiving channel, and the effect of reducing segregation is not obvious. In addition, the amount of discharged materials is judged by experience, so that the discharged materials are inaccurate.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main objective lies in solving among the prior art finished product storehouse and leading to the fact the blowing volume to connect the direct blowing of skip to be difficult to master to and the vehicle need frequently remove the complex operation problem that causes, in addition, easy during the blowing because the stockpile piles up too high appearing the segregation, and connect the skip to remove the technical problem who receives the environmental space restriction, provide a finished product storehouse blowing transfer device.

In order to achieve the above object, the utility model provides a following technical scheme:

a finished product bin discharging and transferring device is characterized by comprising a first driver, a bracket, a track and a conveying mechanism; the track is fixed on the bracket; a sliding assembly is fixed on the conveying mechanism and matched with the track; the conveying mechanism is positioned right below the finished product bin; the output end of the first driver is connected with the sliding component.

Further, the conveying mechanism comprises a scraper plate, a material receiving plate, a second driver, an installation frame, and a driving shaft and at least one driven shaft which are arranged on the installation frame in parallel; two ends of the driving shaft and the driven shaft are sleeved with chain wheels, a chain is sleeved outside the chain wheels on the same side, and the driving shaft is coaxially and fixedly connected with an output shaft of the second driver; the scraper is fixed between the two chains; the material receiving plate is fixed on the mounting frame and positioned below the scraper plate; the sliding assembly and the second driver are fixed on the mounting frame.

Further, the material receiving plate comprises a bottom plate and two side plates, and the two side plates are connected to two sides of the bottom plate.

Furthermore, both ends of the bottom plate along the feeding direction are arc-shaped.

Further, the transmission mechanism comprises a second driver, a mounting rack, and a driving shaft and at least one driven shaft which are arranged on the mounting rack in parallel; belt wheels are sleeved at two ends of the driving shaft and the driven shaft, belts are sleeved outside the belt wheels, and the driving shaft is coaxially and fixedly connected with an output shaft of the second driver; the sliding assembly and the second driver are fixed on the mounting frame.

Further, the transmission mechanism comprises a second driver, a mounting rack, and a driving shaft and at least one driven shaft which are arranged on the mounting rack in parallel; two ends of the driving shaft and the driven shaft are sleeved with chain wheels, a chain is sleeved outside the chain wheels on the same side, and the driving shaft is coaxially and fixedly connected with an output shaft of the second driver; the two chains are wrapped with belts; the sliding assembly and the second driver are fixed on the mounting frame.

Further, the slip subassembly includes an at least axostylus axostyle, and the both ends of axostylus axostyle are equipped with the wheel with track looks adaptation, and on the axostylus axostyle was fixed in the mounting bracket through the second tape seat bearing, arbitrary axostylus axostyle linked to each other with the output of first driver.

Furthermore, a position encoder is arranged on the first driver; and a limit switch is arranged on the track.

Further, the first driver is a hollow shaft speed reduction motor which is sleeved on the shaft rod.

Furthermore, the second driver is a hollow shaft speed reducing motor which is sleeved on the driving shaft; the driving shaft is fixed on the mounting frame through a first bearing with a seat, and the driven shaft farthest from the driving shaft is fixed on the mounting frame through a bearing with a sliding block seat.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses a finished product storehouse blowing transfer device, the material falls from the finished product storehouse, falls to transport mechanism, and transport mechanism can reach the plan pay-off position along orbital motion, and then makes the material fall through transport mechanism, can better control the discharge amount; in addition, the conveying mechanism is driven to move only through the first driver during discharging, the material receiving vehicle does not need to be moved frequently, and the operation is simpler and more convenient; through simple and convenient multiple spot blowing, the segregation of material has significantly reduced.

2. The conveying mechanism of the utility model has a plurality of modes, which can be chain wheel and chain transmission, wherein, one mode is that a scraper is fixed on a chain, the material is positioned on a material receiving plate, the scraper moves horizontally under the driving of the chain to push the material to the two ends of the material receiving plate, and the material falls from the two ends of the material receiving plate to achieve the purpose of feeding; the other is that a belt is fixed on the chain, the belt moves along with the chain, and the materials are positioned on the belt and are sent to two ends of the belt. Or the belt wheel and the belt are used for transmission, the materials are positioned on the belt and are conveyed to the two ends of the belt along with the movement of the belt, and the purpose of feeding is achieved. Can be selected according to actual needs.

3. The utility model discloses a transport mechanism if for the mode of sprocket chain cooperation scraper blade, connects the flitch to include bottom plate and curb plate, and the curb plate can avoid the unrestrained of material. In addition, the two ends of the bottom plate along the feeding direction can be designed into arc shapes, so that the chain transmission is better adapted.

4. The second driver of the utility model is provided with a position encoder, which can accurately plan the material discharge amount and the material discharge position by calculating and setting in advance, thus realizing accurate material discharge; in addition, limit switches on the track prevent the conveying mechanism from being separated from the track due to overlarge movement amount.

5. The utility model discloses on the farthest driven shaft of well apart from the driving shaft is fixed in the mounting bracket through taking take block bearing to play the effect of lax or tensioning to chain or belt.

Drawings

Fig. 1 is a schematic view of the working state structure of the finished product bin emptying and transferring device of the utility model;

fig. 2 is a left side view of fig. 1 in accordance with the present invention;

FIG. 3 is a schematic diagram of the structure of the conveying mechanism of FIG. 1 according to the present invention;

fig. 4 is a top view of the present invention shown in fig. 3;

FIG. 5 is a schematic view showing an assembly relationship between a driven shaft and a sprocket according to a first embodiment of the present invention;

fig. 6 is a schematic view illustrating an assembly relationship between a driving shaft and a first driver according to a first embodiment of the present invention;

fig. 7 is a schematic structural view of a receiving plate in the first embodiment of the present invention;

fig. 8 is a schematic view of an assembly relationship between the driven shaft and the belt pulley according to the second embodiment of the present invention.

Wherein, 1-scraper; 2-a mounting rack; 3-a second driver; 4-receiving plate; 401-a backplane; 402-side plate; 501-driving shaft; 502-a driven shaft; 503-sprocket; 504-a chain; 505-a pulley; 506-a first seated bearing; 507-bearing with sliding block seat; 508-a belt; 6-a first driver; 7-a scaffold; 8-orbit; 9-a transport mechanism; 1001-shaft lever; 1002-a wheel; 1003-a second seated bearing; 11-finished product warehouse; 12-a position encoder; 13-receiving vehicle.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the embodiments of the present invention and the accompanying drawings, and obviously, the described embodiments are not intended to limit the present invention.

The utility model discloses a set up transport mechanism 9 between finished product storehouse 11 and material receiving vehicle 13, the blowing volume of having avoided direct blowing to cause is difficult to control, has effectively reduced because the segregation that too high appearance is piled up to certain department's stockpile to and need frequently remove the complex operation that material receiving vehicle 13 caused, simultaneously, will reserve certain space for material receiving vehicle 13 when material receiving vehicle 13 just requires the blowing owing to need to remove.

Example one

Referring to fig. 1 to 6, a finished product bin emptying and transferring device includes a first driver 6, a bracket 7, a rail 8 and a conveying mechanism 9; the track 8 is fixed on the bracket 7; a sliding component is fixed on the conveying mechanism 9 and matched with the track 8; the conveying mechanism 9 is positioned right below the finished product bin 11; the output of the first driver 6 is connected to the sliding assembly. The transmission mechanism 9 comprises a scraper 1, a material receiving plate 4, a second driver 3, a mounting frame 2, and a driving shaft 501 and at least one driven shaft 502 which are arranged on the mounting frame 2 in parallel; both ends of the driving shaft 501 and the driven shaft 502 are sleeved with chain wheels 503, the chain wheels 503 on the same side are sleeved with chains 504, and the driving shaft 501 is coaxially and fixedly connected with an output shaft of the second driver 3; the scraper 1 is fixed between the two chains 504; the material receiving plate 4 is fixed on the mounting frame 2 and is positioned below the scraper plate 1; the sliding assembly and the second driver 3 are fixed on the mounting frame 2.

The receiving plate 4 may include a bottom plate 401 and two side plates 402, and the two side plates 402 are connected to two sides of the bottom plate 401 along the feeding direction, wherein the bottom plate 401 is used for receiving and placing materials, and the side plates 402 play a role in limiting the materials, so as to prevent the materials from being scattered on two sides of the bottom plate 401 of the conveying mechanism. As shown in fig. 8, in order to make the material fed to both ends of the receiving plate by the scraper 1 fall more smoothly, both ends of the bottom plate 401 along the feeding direction may be designed to be arc-shaped.

Example two

Referring to fig. 1 to 3 and fig. 7, a finished product bin emptying and transferring device includes a first driver 6, a bracket 7, a rail 8 and a conveying mechanism 9; the track 8 is fixed on the bracket 7; a sliding component is fixed on the conveying mechanism 9 and matched with the track 8; the conveying mechanism 9 is positioned right below the finished product bin 11; the output of the first driver 6 is connected to the sliding assembly. The transmission mechanism 9 comprises a second driver 3, a mounting frame 2, and a driving shaft 501 and at least one driven shaft 502 which are arranged on the mounting frame 2 in parallel; belt wheels 505 are sleeved at two ends of the driving shaft 501 and the driven shaft 502, a belt 508 is sleeved outside the belt wheels 505, and the driving shaft 501 is coaxially and fixedly connected with an output shaft of the second driver 3; the sliding assembly and the second driver 3 are fixed on the mounting frame 2.

EXAMPLE III

A finished product bin discharging and transferring device comprises a first driver 6, a bracket 7, a track 8 and a conveying mechanism 9; the track 8 is fixed on the bracket 7; a sliding component is fixed on the conveying mechanism 9 and matched with the track 8; the conveying mechanism 9 is positioned right below the finished product bin 11; the output of the first driver 6 is connected to the sliding assembly. The transmission mechanism 9 comprises a second driver 3, a mounting frame 2, and a driving shaft 501 and at least one driven shaft 502 which are arranged on the mounting frame 2 in parallel; both ends of the driving shaft 501 and the driven shaft 502 are sleeved with chain wheels 503, the chain wheels 503 on the same side are sleeved with chains 504, and the driving shaft 501 is coaxially and fixedly connected with an output shaft of the second driver 3; the two chains 504 are wrapped with belts 508; the sliding assembly and the second driver 3 are fixed on the mounting frame 2.

In the first to third embodiments: (1) the above-mentioned transmission assembly is only exemplified by two ways of chain wheel and belt wheel 508, but the transmission is not limited thereto. Because the belt 508 of the belt wheel may deviate or slide when the transmission distance is long, a group of chain wheels and chains may be added as an improvement, for example, in the second embodiment, the chain wheels are installed outside the belt wheel 505, the chain is sleeved between the chain wheels, and then the belt 508 matched with the belt wheel 505 is fixed on the chain; even, the scraping plate 1 can be driven to move linearly by an air cylinder or a linear motor, as long as the scraping plate 1 can move horizontally along the material receiving plate to push the material. (2) The second driver 3 and the first driver 6 preferably adopt hollow shaft speed reducing motors, which are respectively sleeved on the driving shaft 501 and the shaft rod 1001, and other motors capable of driving the driving shaft 501 and the shaft rod 1001 to rotate can be selected according to requirements. (3) The driving shaft 501 is fixed on the mounting frame 2 through a first belt seat bearing 506, the driven shaft 502 farthest from the driving shaft 501 is fixed on the mounting frame 2 through a belt slider seat bearing 507, the position of the driven shaft 502 can be adjusted by moving the belt slider seat bearing 507, and then the belt 508 or the chain 504 or related parts in other transmission assemblies are loosened or tensioned. (4) The first driver 6 can be provided with a position encoder 12, and the movement condition of the conveying mechanism 9 can be measured and calculated by combining the acquired data and the sliding assembly, so that accurate discharging is ensured. (5) In addition, the limit switch is arranged on the track, so that the moving range of the conveying mechanism 9 can be limited, and the conveying mechanism 9 is prevented from deviating from the track. (6) Alternatively, the sliding assembly may include at least one shaft 1001, wheels 1002 adapted to the rails 8 are disposed at two ends of the shaft 1001, the shaft 1001 is fixed to the mounting frame 2 through a second rolling bearing 1003, and any shaft 1001 is connected to the output end of the first driver 6.

The working process of the utility model is as follows: assembling all the components according to the connection mode, parking the material receiving vehicle 13 below the conveying mechanism 9, starting the first driver 6 to drive the sliding assembly to move along the track 8 according to the initial position and the set position detected by the position encoder 12 when the initial position and the set position are different, and closing the first driver 6 when the position encoder 12 detects that the position is the same as the set position; and (3) starting the second driver 3, opening the finished product bin 11, enabling the materials to fall onto the conveying mechanism 9, namely onto the bottom plate 401 or the belt 508, driving the scraper 1 to horizontally move under the driving of the conveying mechanism 9, pushing the materials to the end part of the bottom plate or the belt 508, and enabling the materials to slide down. Because the opening and closing size of the finished product bin 11 and the distance from the finished product bin to the conveying mechanism 9 are unchanged, the amount of the materials falling on the conveying mechanism 9 in the same time is constant, and the speed of the second driver 3 is constant, the amount of the materials conveyed by the conveying mechanism 9 in the same time is constant, and the opening time of the first driver 6 is controlled according to the total amount required by each set position, so that the set amount of the materials are discharged from each set position through the conveying mechanism 9, and the aim of accurately discharging the materials is fulfilled.

The above is only the embodiment of the present invention, and is not the limitation of the protection scope of the present invention, all the equivalent structure changes made in the contents of the specification and the drawings, or the direct or indirect application in other related technical fields are included in the patent protection scope of the present invention.

Claims (10)

1. The utility model provides a finished product storehouse blowing transfer device which characterized in that: comprises a first driver (6), a bracket (7), a track (8) and a transmission mechanism (9); the track (8) is fixed on the bracket (7); a sliding assembly is fixed on the conveying mechanism (9) and matched with the track (8); the conveying mechanism (9) is positioned right below the finished product bin (11); the output end of the first driver (6) is connected with the sliding component.

2. The finished product bin emptying and transferring device of claim 1, wherein: the conveying mechanism (9) comprises a scraper (1), a material receiving plate (4), a second driver (3), a mounting rack (2), and a driving shaft (501) and at least one driven shaft (502) which are arranged on the mounting rack (2) in parallel; both ends of the driving shaft (501) and the driven shaft (502) are sleeved with chain wheels (503), a chain (504) is sleeved outside the chain wheel (503) on the same side, and the driving shaft (501) is coaxially and fixedly connected with an output shaft of the second driver (3); the scraper (1) is fixed between the two chains (504); the material receiving plate (4) is fixed on the mounting frame (2) and is positioned below the scraper (1); the sliding assembly and the second driver (3) are fixed on the mounting frame (2).

3. The finished product bin emptying and transferring device of claim 2, wherein: the material receiving plate (4) comprises a bottom plate (401) and two side plates (402), and the two side plates (402) are connected to two sides of the bottom plate (401).

4. The finished product bin emptying and transferring device of claim 3, wherein: the two ends of the bottom plate (401) along the feeding direction are arc-shaped.

5. The finished product bin emptying and transferring device of claim 1, wherein: the transmission mechanism (9) comprises a second driver (3), a mounting rack (2), and a driving shaft (501) and at least one driven shaft (502) which are arranged on the mounting rack (2) in parallel; both ends of the driving shaft (501) and the driven shaft (502) are sleeved with belt wheels (505), belts (508) are sleeved outside the belt wheels (505), and the driving shaft (501) is coaxially and fixedly connected with an output shaft of the second driver (3); the sliding assembly and the second driver (3) are fixed on the mounting frame (2).

6. The finished product bin emptying and transferring device of claim 1, wherein: the transmission mechanism (9) comprises a second driver (3), a mounting rack (2), and a driving shaft (501) and at least one driven shaft (502) which are arranged on the mounting rack (2) in parallel; both ends of the driving shaft (501) and the driven shaft (502) are sleeved with chain wheels (503), a chain (504) is sleeved outside the chain wheel (503) on the same side, and the driving shaft (501) is coaxially and fixedly connected with an output shaft of the second driver (3); a belt (508) is wrapped on the two chains (504); the sliding assembly and the second driver (3) are fixed on the mounting frame (2).

7. The finished product emptying and transferring device of claim 2, 3, 4, 5 or 6, wherein: the sliding assembly comprises at least one shaft rod (1001), wheels (1002) matched with the rails (8) are arranged at two ends of the shaft rod (1001), the shaft rod (1001) is fixed on the mounting frame (2) through a second bearing with a seat (1003), and any shaft rod (1001) is connected with the output end of the first driver (6).

8. The finished product bin emptying and transferring device of claim 7, wherein: a position encoder (12) is arranged on the first driver (6); and a limit switch is arranged on the track (8).

9. The finished product bin emptying and transferring device of claim 8, wherein: the first driver (6) is a hollow shaft speed reducing motor which is sleeved on the shaft lever (1001).

10. The finished product bin emptying and transferring device of claim 7, wherein: the second driver (3) is a hollow shaft speed reducing motor and is sleeved on the driving shaft (501); the driving shaft (501) is fixed on the mounting frame (2) through a first bearing with a seat (506), and the driven shaft (502) farthest from the driving shaft (501) is fixed on the mounting frame (2) through a bearing with a sliding block seat (507).

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