CN215396065U - Quantitative conveying device for quantitative hopper - Google Patents

Abstract

The utility model discloses a quantitative hopper quantitative conveying device which comprises a fixed support, a contact switch and a forward and reverse rotation switch, wherein a rotating shaft is arranged at the middle position of a driven gear, a collecting box is arranged at the middle position of the rotating shaft, a sliding groove is formed in the back surface of a material taking device shell, a sliding plate is arranged inside the sliding groove, the contact switch is installed at the tail end of the upper surface of the sliding plate, and the forward and reverse rotation switch is arranged on the outer surface of the material taking device shell. This quantitative conveyor of hopper: be provided with the collecting box, can be connected with the elevator through the dwang, the elevator can carry out the oscilaltion in spacing spout through second electric telescopic handle, be provided with the sliding plate, the position of dwang can be restricted to the sliding plate, can make the dwang start first electric telescopic handle and driving motor simultaneously, make the device both can accomplish accurate weighing, can guarantee again that the inside all cement of storing of collecting box drops, appear remaining in having avoided the collecting box.

Description

Quantitative conveying device for quantitative hopper

Technical Field

The utility model relates to the technical field of quantitative hopper conveying, in particular to a quantitative hopper conveying device.

Background

Cement is a powdered hydraulic inorganic cementing material. After the cement is added with water and stirred, the cement can be made into slurry, and can be hardened in air or water, and can be used for firmly binding materials of sand and stone together, and the concrete made up by using cement to bind broken stone not only has high strength, but also can resist corrosion of fresh water or salt-containing water. For a long time, cement is used as an important cementing material and widely applied to engineering of civil construction, water conservancy, national defense and the like.

At present, the device used for conveying cement on the market is inconvenient to carry out quantitative conveying, and some quantitative hoppers capable of carrying out quantitative operation cannot accurately weigh when carrying out quantitative operation, so that the weight of finished products after packaging is different, and therefore the quantitative conveying device for the quantitative hoppers is provided, and the problem of the quantitative conveying device for the quantitative hoppers is solved.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a quantitative conveying device for a quantitative hopper, which aims to solve the problems that the prior device used for conveying cement in the market is inconvenient to quantitatively convey, and the quantitative hoppers capable of quantitatively operating cannot accurately weigh during quantitative operation, so that the weights of packaged finished products are different.

In order to achieve the purpose, the utility model provides the following technical scheme: a quantitative hopper quantitative conveying device comprises fixed supports, a contact switch and a forward and reverse rotation switch, wherein a hopper main body is installed between the fixed supports, a support column is arranged between the hopper main body and the fixed supports, a material taking device shell is arranged below the hopper main body, the support column is also arranged between the outer surface of the material taking device shell and the fixed supports, a first electric telescopic rod is installed inside the material taking device shell, the tail end of the first electric telescopic rod is connected with a baffle plate, the baffle plate is arranged at the bottom of the hopper main body, a lifting block is arranged below the first electric telescopic rod, a limiting sliding groove is formed in the side wall inside the material taking device shell, the lifting block is installed inside the limiting sliding groove, a second electric telescopic rod is installed on the top surface of the limiting sliding groove, and a telescopic spring is arranged on the bottom surface of the limiting sliding groove, and the second electric telescopic rod and the telescopic spring are both connected with the lifting block, a driving motor is mounted on the side face of the lifting block, a rotating groove is formed in the lifting block, a driven gear is arranged in the rotating groove, a driving gear is arranged above the driven gear, the side face of the driving gear is connected with the driving motor, a rotating shaft is arranged at the middle position of the driven gear, a collecting box is arranged at the middle position of the rotating shaft, a sliding groove is formed in the back face of the material taking device shell, a sliding plate is arranged in the sliding groove, a contact switch is mounted at the tail end of the upper surface of the sliding plate, and a forward and reverse rotation switch is arranged on the outer surface of the material taking device shell.

Preferably, the striker plate is fixedly connected with the first electric telescopic rod, the first electric telescopic rod is fixedly connected with the inner side wall of the material taking device shell, and the striker plate forms a left-right moving structure in the material taking device shell through the first electric telescopic rod.

Preferably, the limiting sliding grooves are stacked on two sides of the interior of the shell of the material taking device, and the lifting block forms an up-down lifting structure in the limiting sliding grooves through the second electric telescopic rod.

Preferably, the height of the rotating groove is larger than the sum of the diameters of the driving gear and the driven gear, and the driving gear is in meshed connection with the driven gear.

Preferably, the rotating shaft is fixedly connected with the driven gear, and the rotating shaft is in rotating connection with the lifting block through the driving motor and the driven gear.

Preferably, the sliding plate is in sliding connection with the sliding groove, the length of the sliding plate is larger than the distance between the material taking device shell and the rotating shaft, and the contact switch is installed right below the rotating shaft.

Compared with the prior art, the utility model has the beneficial effects that: this quantitative conveyor of hopper: be provided with the collecting box, the collecting box can be connected with the elevator through the dwang, the elevator can carry out the oscilaltion in spacing spout through second electric telescopic handle, be provided with the sliding plate, the position of dwang can be restricted to the sliding plate, can make the dwang start first electric telescopic handle and driving motor simultaneously, make the device both can accomplish accurate weighing, can guarantee again that all cement of the inside storage of collecting box drop, appear remaining in having avoided the collecting box.

Drawings

FIG. 1 is a schematic view of the main sectional structure of the present invention;

FIG. 2 is a schematic top view of the present invention;

FIG. 3 is a schematic top view of the present invention;

FIG. 4 is a schematic view of the structure at A in FIG. 1 according to the present invention.

In the figure: 1. fixing a bracket; 2. a bucket body; 3. a support pillar; 4. a reclaimer housing; 5. a first electric telescopic rod; 6. a striker plate; 7. a lifting block; 8. a limiting chute; 9. a second electric telescopic rod; 10. a tension spring; 11. a drive motor; 12. a rotating tank; 13. a driven gear; 14. a driving gear; 15. a rotating shaft; 16. a collection box; 17. a sliding groove; 18. a sliding plate; 19. a contact switch; 20. a positive and negative rotation switch.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a quantitative hopper quantitative conveying device comprises a fixed support 1, a hopper main body 2, a support column 3, a material taking device shell 4, a first electric telescopic rod 5, a material baffle plate 6, a lifting block 7, a limiting sliding groove 8, a second electric telescopic rod 9, a telescopic spring 10, a driving motor 11, a rotating groove 12, a driven gear 13, a driving gear 14, a rotating shaft 15, a collecting box 16, a sliding groove 17, a sliding plate 18, a contact switch 19 and a forward and reverse rotation switch 20, wherein the hopper main body 2 is installed between the fixed support 1, the support column 3 is arranged between the hopper main body 2 and the fixed support 1, the material taking device shell 4 is arranged below the hopper main body 2, the support column 3 is also arranged between the outer surface of the material taking device shell 4 and the fixed support 1, the first electric telescopic rod 5 is installed inside the material taking device shell 4, and the material baffle plate 6 is connected with the tail end of the first electric telescopic rod 5, the material baffle 6 is arranged at the bottom of the bucket main body 2, a lifting block 7 is arranged below the first electric telescopic rod 5, a limit sliding groove 8 is formed in the side wall of the interior of the material taking device shell 4, the lifting block 7 is arranged in the limit sliding groove 8, a second electric telescopic rod 9 is arranged on the top surface of the limit sliding groove 8, a telescopic spring 10 is arranged on the bottom surface of the limit sliding groove 8, the second electric telescopic rod 9 and the telescopic spring 10 are both connected with the lifting block 7, a driving motor 11 is arranged on the side surface of the lifting block 7, a rotating groove 12 is formed in the interior of the lifting block 7, a driven gear 13 is arranged in the rotating groove 12, a driving gear 14 is arranged above the driven gear 13, the side surface of the driving gear 14 is connected with the driving motor 11, a rotating shaft 15 is arranged in the middle position of the driven gear 13, a collecting box 16 is arranged in the middle position of the rotating shaft 15, and a sliding groove 17 is formed in the back surface of the material taking device shell 4, a sliding plate 18 is arranged in the sliding groove 17, a contact switch 19 is arranged at the tail end of the upper surface of the sliding plate 18, and a forward and reverse rotation switch 20 is arranged on the outer surface of the material taking device shell 4.

For fixed connection between striker plate 6 and the first electric telescopic handle 5, be fixed connection between the inside lateral wall of first electric telescopic handle 5 and extracting device shell 4, striker plate 6 controls the structure through the left-right removal of first electric telescopic handle 5 in the inside constitution of extracting device shell 4, makes the ejection of compact of first electric telescopic handle 5 can control.

The limiting sliding grooves 8 are stacked on two sides of the interior of the material taking device shell 4, and the lifting block 7 forms an up-down lifting structure in the limiting sliding grooves 8 through the second electric telescopic rod 9, so that the lifting block 7 can complete up-down lifting.

The height of the rotating groove 12 is larger than the sum of the diameters of the driving gear 14 and the driven gear 13, and the driving gear 14 and the driven gear 13 are in meshed connection, so that the driving motor 11 can drive the rotating shaft 15 to rotate.

The rotating shaft 15 is fixedly connected with the driven gear 13, and the rotating shaft 15 is rotatably connected with the lifting block 7 through the driving motor 11 and the driven gear 13.

The sliding plate 18 is in sliding connection with the sliding groove 17, the length of the sliding plate 18 is larger than the distance between the material taking device shell 4 and the rotating shaft 15, and the contact switch 19 is installed right below the rotating shaft 15, so that the rotating shaft 15 can control the opening and closing of the contact switch 19.

The working principle is as follows: when the quantitative hopper conveying device is used, firstly, components required by the device are assembled, cement is thrown into the hopper body 2 through a feed inlet formed in the upper surface of the hopper body 2, then the sliding plate 18 is adjusted according to needs to enable the sliding plate 18 to ascend and descend along the sliding groove 17, after the sliding plate 18 moves to a specified position, the position of the sliding plate 18 is fixed by rotating a bolt at the tail end of the sliding plate 18, then the first electric telescopic rod 5 is started, the first electric telescopic rod 5 drives the material baffle plate 6 to move, the cement in the hopper body 2 flows into the collecting box 16 through a discharge outlet in the bottom surface of the hopper body 2, the weight of the collecting box 16 is gradually increased, the lifting block 7 moves downwards along the limiting sliding groove 8 until the rotating shaft 15 is contacted with the contact switch 19, then the driving motor 11 is started to drive the collecting box 16 to overturn, the cement in the collecting box 16 is poured out from the middle position of the bottom of the material taking device shell 4, then, the forward and reverse rotation switch 20 is pressed, the forward and reverse rotation switch 20 makes the driving motor 11 reverse to drive the collecting box 16 to reset, the second electric telescopic rod 9 is started, the second electric telescopic rod 9 drives the rotating shaft 15 to reset, and the next operation is performed, which is the working process of the device, and the contents which are not described in detail in this specification, such as the first electric telescopic rod 5, the driving motor 11, and the like, are all known in the prior art by those skilled in the art.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the utility model can be made, and equivalents and modifications of some features of the utility model can be made without departing from the spirit and scope of the utility model.

Claims (6)

1. The utility model provides a quantitative conveying device of measuring hopper, includes fixed bolster (1), contact switch (19) and positive reverse switch (20), its characterized in that: a hopper main body (2) is installed between the fixed supports (1), a support column (3) is arranged between the hopper main body (2) and the fixed supports (1), a material taking device shell (4) is arranged below the hopper main body (2), the support column (3) is also arranged between the outer surface of the material taking device shell (4) and the fixed supports (1), a first electric telescopic rod (5) is installed inside the material taking device shell (4), the tail end of the first electric telescopic rod (5) is connected with a baffle plate (6), the baffle plate (6) is arranged at the bottom of the hopper main body (2), a lifting block (7) is arranged below the first electric telescopic rod (5), a limit sliding chute (8) is formed in the side wall of the inner part of the material taking device shell (4), and the lifting block (7) is installed inside the limit sliding chute (8), a second electric telescopic rod (9) is installed on the top surface of the limiting sliding groove (8), a telescopic spring (10) is arranged on the bottom surface of the limiting sliding groove (8), the second electric telescopic rod (9) and the telescopic spring (10) are both connected with the lifting block (7), a driving motor (11) is installed on the side surface of the lifting block (7), a rotating groove (12) is formed in the lifting block (7), a driven gear (13) is arranged in the rotating groove (12), a driving gear (14) is arranged above the driven gear (13), the side surface of the driving gear (14) is connected with the driving motor (11), a rotating shaft (15) is arranged at the middle position of the driven gear (13), a collecting box (16) is arranged at the middle position of the rotating shaft (15), and a sliding groove (17) is formed in the back surface of the material taking device shell (4), a sliding plate (18) is arranged in the sliding groove (17), a contact switch (19) is installed at the tail end of the upper surface of the sliding plate (18), and a forward and reverse switch (20) is arranged on the outer surface of the material taking device shell (4).

2. A quantitative hopper quantitative conveyor device according to claim 1, characterized in that: the novel material taking device is characterized in that the material blocking plate (6) is fixedly connected with the first electric telescopic rod (5), the first electric telescopic rod (5) is fixedly connected with the inner side wall of the material taking device shell (4), and the material blocking plate (6) forms a left-right moving structure in the material taking device shell (4) through the first electric telescopic rod (5).

3. A quantitative hopper quantitative conveyor device according to claim 1, characterized in that: the limiting sliding grooves (8) are stacked on two sides of the interior of the material taking device shell (4), and the lifting block (7) forms an up-down lifting structure in the limiting sliding grooves (8) through a second electric telescopic rod (9).

4. A quantitative hopper quantitative conveyor device according to claim 1, characterized in that: the height of the rotating groove (12) is larger than the sum of the diameters of the driving gear (14) and the driven gear (13), and the driving gear (14) is in meshed connection with the driven gear (13).

5. A quantitative hopper quantitative conveyor device according to claim 1, characterized in that: the rotating shaft (15) is fixedly connected with the driven gear (13), and the rotating shaft (15) is in rotating connection with the lifting block (7) through the driving motor (11), the driven gear (13).

6. A quantitative hopper quantitative conveyor device according to claim 1, characterized in that: the sliding plate (18) is in sliding connection with the sliding groove (17), the length of the sliding plate (18) is larger than the distance between the material taking device shell (4) and the rotating shaft (15), and the contact switch (19) is installed right below the rotating shaft (15).

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