CN216444618U - Real-time monitoring's diversified unloader - Google Patents

Abstract

The utility model discloses a multi-azimuth blanking device monitored in real time, which comprises a blanking device, a monitoring device and a control device, wherein the blanking device comprises a blanking device body and a blanking device body; the blanking device is provided with a rotary blanking port capable of horizontally rotating to any direction, the bottom plate of the rotary blanking port is a bottom plate capable of being opened and closed, the monitoring device is provided with a camera and a display device, and the control device is provided with a rotary control device capable of controlling the rotation of the rotary blanking port and a bottom plate opening and closing control device capable of controlling the opening and closing of the bottom plate of the blanking port. The utility model can avoid the driver from controlling the charging car to move for charging for many times, effectively simplifies the operation process of the driver and improves the charging speed and the charging amount.

Description

Real-time monitoring's diversified unloader

Technical Field

The utility model relates to the technical field of stone pit blanking, in particular to a real-time monitoring multi-azimuth blanking device.

Background

The sand is one of important building materials, and the sand is generally mined from a quarry and stored in a sand silo. The gravel bin is a cylindrical bin, the upper part of the bin body is in a wide-mouth shape, the lower part of the bin body is in a necking shape, and a discharge hole is formed in the lower part of the necking shape.

The general transportation of grit material is to drive the hopper car below the discharge gate, opens the feed opening again and loads materials, and the hopper car driver looks over the unloading condition through supervisory equipment, and once grit material is about to fill the hopper front portion, the driver just starts the hopper car and advances one section for the hopper rear portion continues to load materials, fills till filling whole hopper. This needs the driver to observe the condition of charging car always, and accurate control automobile body advances at the in-process of charging, and is difficult to avoid the overfull of filling to spill from both sides, has very big requirement to operating personnel.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects in the prior art, the utility model aims to provide a multidirectional blanking device with real-time monitoring, which can effectively simplify the operation process of a driver and improve the charging speed and the charging amount.

The technical scheme adopted by the utility model for solving the technical problem is as follows:

a real-time monitoring multi-azimuth blanking device is characterized by comprising a blanking device, a monitoring device and a control device;

the blanking device is provided with a rotary blanking port capable of horizontally rotating to any direction, the bottom plate of the rotary blanking port is a bottom plate capable of being opened and closed, the monitoring device is provided with a camera and a display device, and the control device is provided with a rotary control device capable of controlling the rotation of the rotary blanking port and a bottom plate opening and closing control device capable of controlling the opening and closing of the bottom plate of the blanking port.

As a preferred example, the blanking device comprises a fixed blanking port arranged outside the blanking port and a rotary blanking port arranged below the fixed blanking port, the fixed blanking port is movably connected with the rotary blanking port through a rotary flange, a rotary gear mounting seat is sleeved outside the rotary flange, and a rotary gear is arranged on the rotary gear mounting seat.

As a preferred example, a bottom of the rotary feed opening is provided with a rotary feed opening bottom plate, the rotary feed opening bottom plate is provided with a rotary feed opening first bottom plate and a rotary feed opening second bottom plate, and the rotary feed opening first bottom plate and the rotary feed opening second bottom plate are movably connected with the rotary feed opening.

As a preferred example, the monitoring device comprises at least one camera for monitoring the loading of the loading bin on the loading vehicle and a display device with at least one display screen.

As a preferable example, the control device has a rotation control device, the bottom plate opening and closing control device, and a vibration control device.

As a preferable example, the rotation control device is engaged with a rotary gear through a rotary driven gear, and the rotation control device includes a rotary driving gear engaged with the rotary driven gear and a rotary motor group connected with the rotary driving gear.

As a preferred example, the bottom plate opening and closing control device includes a bottom plate opening and closing control component disposed at a joint of the first bottom plate of the rotary feed opening and the second bottom plate of the rotary feed opening and the rotary feed opening, and an opening and closing motor set connected to the bottom plate opening and closing control component.

As a preferred example, the vibration control means is a vibration motor provided on an inner wall of the rotary feed opening.

Compared with the prior art, the utility model has the beneficial effects that: the utility model provides a real time monitoring's diversified unloader can avoid the driver to control the charging carriage many times and remove and feed, effectively simplifies driver's operation flow, improves the speed and the loading capacity of feeding.

Drawings

Fig. 1 is a schematic view of a quarry blanking device on site.

FIG. 2 is a schematic diagram of an external device according to the present invention.

Fig. 3 is a schematic view of the internal structure of the present invention.

FIG. 4 is a schematic diagram of a bottom plate structure of the rotary feed opening of the present invention.

Fig. 5 is a schematic view of a quarry blanking device on site.

Detailed Description

The utility model will now be further described with reference to the following description and examples in conjunction with the accompanying drawings:

as shown in fig. 1, the site conditions of the baiting device and the loading truck in the quarry are generally the conditions of fig. 1, sand and gravel are stored in the lower bunker 1, when the loading truck 2 is driven to the lower part of the lower bunker 1, the sand and gravel are gradually discharged into the loading bunker 21 of the loading truck through the baiting opening 11 at the bottom of the lower bunker, a camera 3 is arranged around the baiting opening, a driver checks the loading condition of the loading bunker 21 through the display screen 4 in front of the driver, when the loading bunker sand and gravel at the lower part of the baiting opening 11 is about to be fully stacked, the driver can start the loading truck 2 to move forward to make the position of the non-fully stacked loading bunker 21 align with the position below the baiting opening 11 to continue to load until the loading bunker 21 is fully filled with sand and stop baiting at the moment, and the driver transports the sand and gravel to a required place after passing through the weighbridge 5 below the loading truck 2.

As shown in fig. 2 to 3, the utility model relates to a multi-azimuth blanking device with real-time monitoring, which is characterized by comprising a blanking device 6, a monitoring device 7 and a control device 8; the feeding device 6 is provided with a rotary feed opening 62 capable of horizontally rotating to any direction, the bottom plate of the rotary feed opening 62 is an openable bottom plate, the monitoring device 7 is provided with a camera and a display device, and the control device 8 is provided with a rotary control device 81 capable of controlling the rotary feed opening 62 to rotate and a bottom plate opening and closing control device 82 capable of controlling the opening and closing of the bottom plate of the feed opening.

The utility model adopts another better and more convenient blanking mode, and the rotary type blanking opening which can horizontally rotate to any direction is arranged on the blanking opening 11, so that a driver only needs to drive the loading vehicle to the lower part of the blanking opening 11, and the blanking of the charging bin 21 is carried out by controlling the opening and closing of the bottom plate 66 of the rotary blanking opening and the rotating direction of the rotary blanking opening 62, and the driver does not need to start the loading vehicle 2 to repeatedly align with the blanking opening 11 for blanking, thereby simplifying the operation process of the driver and improving the charging speed and the charging amount.

As shown in fig. 2, the discharging device 6 includes a fixed discharging opening 61 disposed outside the discharging opening 21 and a rotary discharging opening 62 disposed below the fixed discharging opening 61, the fixed discharging opening 61 and the rotary discharging opening 62 are movably connected through a rotary flange, a rotary gear mounting seat is sleeved outside the rotary flange, and a rotary gear 65 is disposed on the rotary gear mounting seat. The purpose of this design is to allow the rotary feed opening 62 to be rotated to any direction, and in practice, the design can be further adjusted in direction according to the condition of the loader and the specification of the hopper.

As shown in fig. 2 and 4, the bottom of the rotary feed opening 62 is provided with a rotary feed opening bottom plate 66, the rotary feed opening bottom plate is provided with a rotary feed opening first bottom plate 661 and a rotary feed opening second bottom plate 662, and the rotary feed opening first bottom plate 661 and the rotary feed opening second bottom plate 662 are movably connected with the rotary feed opening 62. As shown in the figure, the bottom plate 62 of the rotary feed opening is designed to be inclined and lengthened and is an openable bottom plate, so that when vertical feeding is required, the first bottom plate 661 of the rotary feed opening and the second bottom plate 662 of the rotary feed opening can be opened by the control device, and thus vertical feeding is not affected.

In practice, the inclination and length of the rotating feed opening bottom plate 66 can be modified according to different environmental requirements, such as increasing the inclination angle to accelerate the feeding speed, reducing the possibility of blockage, or increasing the length of the bottom plate to feed materials at a longer distance, etc.

As shown in fig. 5, the monitoring device 7 comprises at least one camera 71 for monitoring the filling of the filling magazine on the loading vehicle and a display device 72, the display device 72 having at least one display screen. In actual operation, the camera 71 is installed according to the needs of the field, and the display device 72 can also be adjusted according to the needs of the installation position and model specification.

As shown in fig. 2 to 3, the control device 8 includes a rotation control device 81, a bottom plate opening/closing control device 82, and a vibration control device 83.

As shown in fig. 2, the rotation control device 81 is engaged with the rotary gear 65 via a rotary driven gear 812, and includes a rotary driving gear 811 engaged with the rotary driven gear 812 and a rotary motor group 813 coupled with the rotary driving gear 811. The rotation angle of the rotary driven gear 812 is controlled by controlling the rotation angle of the rotary driving gear 811, and further the rotation angle of the rotary gear 65 on the rotary feed opening 62 is controlled to adjust the feeding direction of the feeding device 6.

As shown in fig. 2, the bottom plate opening and closing control device 82 includes a bottom plate opening and closing control assembly 821 provided at a junction of the first bottom plate 661 of the rotary feed opening and the second bottom plate 662 of the rotary feed opening and the rotary feed opening 62, and an opening and closing motor unit 822 connected to the bottom plate opening and closing control assembly 821. When vertical blanking is needed or the condition inside the blanking opening needs to be checked, the rotary blanking opening bottom plate 66 can be opened through the bottom plate switch control assembly 821, so that later-stage inspection and maintenance are facilitated.

As shown in fig. 3, the vibration control means 93 is a vibration motor 931 provided on the inner wall of the rotary feed opening 62. The vibration control device 93 is provided to prevent the sand and stone from being accumulated at the bottom of the rotary feed opening 62 to cause clogging, and controls the vibration motor to vibrate the rotary feed opening 62 to prevent the sand and stone from being accumulated at the bottom of the rotary feed opening 62 to cause clogging.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In addition, the technical features involved in the different embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other. In summary, after reading the present disclosure, those skilled in the art can make various other corresponding changes without creative mental labor according to the technical solutions and concepts of the present disclosure, and all of them are within the protection scope of the present disclosure.

Claims (8)

1. A real-time monitoring multi-azimuth blanking device is characterized by comprising a blanking device, a monitoring device and a control device;

the blanking device is provided with a rotary blanking port capable of horizontally rotating to any direction, the bottom plate of the rotary blanking port is a bottom plate capable of being opened and closed, the monitoring device is provided with a camera and a display device, and the control device is provided with a rotary control device capable of controlling the rotation of the rotary blanking port and a bottom plate opening and closing control device capable of controlling the opening and closing of the bottom plate of the blanking port.

2. The multi-azimuth blanking device with real-time monitoring according to claim 1, wherein the blanking device comprises a fixed blanking port arranged outside the blanking port and a rotary blanking port arranged below the fixed blanking port, the fixed blanking port and the rotary blanking port are movably connected through a rotary flange, a rotary gear mounting seat is sleeved outside the rotary flange, and a rotary gear is arranged on the rotary gear mounting seat.

3. The multi-azimuth blanking device with real-time monitoring function according to claim 2, wherein the bottom of the rotary blanking port is provided with a rotary blanking port bottom plate, the rotary blanking port bottom plate is provided with a rotary blanking port first bottom plate and a rotary blanking port second bottom plate, and the rotary blanking port first bottom plate and the rotary blanking port second bottom plate are movably connected with the rotary blanking port.

4. A real-time monitoring multi-azimuth blanking device according to claim 1, wherein the monitoring device comprises at least one camera and a display device for monitoring the loading condition of the loading bin on the loading vehicle, and the display device is provided with at least one display screen.

5. The multi-directional blanking device with real-time monitoring function as claimed in claim 1, wherein the control device comprises a rotation control device, a bottom plate opening and closing control device and a vibration control device.

6. The multi-azimuth blanking device with real-time monitoring function of claim 5, wherein the rotation control device is meshed with the rotary gear through a rotary driven gear, and the rotation control device comprises a rotary driving gear meshed with the rotary driven gear and a rotary motor set connected with the rotary driving gear.

7. The multi-azimuth blanking device with real-time monitoring function according to claim 5, wherein the bottom plate opening and closing control device comprises a bottom plate opening and closing control assembly arranged at the joint of the first bottom plate of the rotary blanking port and the second bottom plate of the rotary blanking port and the rotary blanking port, and an opening and closing motor set connected with the bottom plate opening and closing control assembly.

8. A real-time monitoring multi-azimuth blanking device according to claim 5, wherein the vibration control device is a vibration motor disposed on the inner wall of the rotary blanking port.

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