CN221115716U - Quantitative loading system for logistics - Google Patents

Abstract

The utility model discloses a quantitative loading system for logistics, which comprises a weighing box, wherein a rotating shaft is arranged at the inner top of the weighing box 1, a driven U-shaped rod is fixed at the end part of the rotating shaft, a plurality of groups of stirring paddles are arranged on the rod body of the driven U-shaped rod in a surrounding manner, a fixed plate is fixedly connected to the end part of the driven U-shaped rod, a telescopic rod is arranged at the bottom of the fixed plate.

Description

Quantitative loading system for logistics

Technical Field

The utility model relates to the technical field of quantitative loading, in particular to a quantitative loading system for logistics application.

Background

The quantitative loading is an automatic loading for goods on the transport vehicle, and compared with manual loading, the quantitative loading is more perfect in loading speed, precision and safety.

Chinese patent discloses a quantitative control loading device (grant bulletin number is CN 219258939U), this patent technology can carry out the ration to the material and carry out, can be according to the height in carriage and the carriage in the material height to the height of feed cylinder be adjusted, avoid the feed cylinder to carry out the noise that produces and to the injury in carriage when carrying with the carriage or carriage material's high difference too big, realize reducing the material, but the material in the device is if there is the caking phenomenon, can't be timely stir the material and make the caking garrulous open probably can block up discharging pipe or discharge gate and can't carry out the unloading operation. Accordingly, one skilled in the art would be able to provide a quantitative loading system for logistic applications to solve the problems set forth in the background art.

Disclosure of utility model

In order to solve the technical problems, the utility model provides a quantitative loading system for logistics application, which comprises a weighing box, wherein a rotating shaft is arranged at the inner top of the weighing box, a driven U-shaped rod is fixed at the end part of the rotating shaft, a plurality of groups of stirring paddles are arranged on the rod body of the driven U-shaped rod in a surrounding manner, a fixing plate is fixedly connected to the end part of the driven U-shaped rod, and a telescopic rod is arranged at the bottom of the fixing plate.

Preferably: the bottom of title workbin is equipped with the movable play material piece that is the cambered surface form, be equipped with rotatory piece on the top surface of movable play material piece, the end connection of telescopic link on rotatory piece and the fixed plate, the movable play material piece of cambered surface form does not have the material to be located it when the telescopic link shrink, all slides down through the cambered surface, and rotatory piece can drive driven U-shaped pole rotation jointly with the rotation axis, and the inside material of stirring rake symmetry workbin on the messenger is stirred and is prevented the caking and blocks up the discharge gate.

Preferably: the stirring paddles at the two sides of the driven U-shaped rod do not interfere with each other when the driven U-shaped rod rotates along with the rotating shaft, and the stirring paddles do not interfere with the inside of the weighing box.

Preferably: a plurality of weight sensors are arranged on the periphery of the outer wall of the weighing material box, and the four weight sensors can be used for monitoring and weighing materials in the material box.

Preferably: the material weighing box is characterized in that the top of the material weighing box is provided with a material inlet at two sides of the rotating shaft, a material conveying pipe is arranged on the material inlet, the end part of the material conveying pipe is connected with a material storage box, and the material storage box continuously conveys materials into the material inlet through the material conveying pipe.

Preferably: the two sides of the feeding hole are symmetrically provided with sliding grooves, sliding blocks are arranged in the sliding grooves, the top of each sliding block is provided with a blocking cover plate, and the sliding blocks can slide along the sliding grooves, so that the blocking cover plates on the sliding blocks enable the feeding holes to be of calibers of different sizes.

Preferably: when the sliding block slides to the end part of the sliding groove, which is close to the feeding hole, the two sides of the blocking cover plates are mutually abutted to completely block the feeding hole, and when the weight sensor senses that the weight of the material in the weighing box reaches the preset weight, the two sides of the blocking cover plates are mutually abutted to block the feeding hole.

The utility model has the technical effects and advantages that:

The device is when the storage case passes through the conveying pipeline to weighing the material in the workbin, weight sensor symmetry workbin is weighed constantly, when weight increases to different default gradients, the slider is pressed close to feed inlet department on the spout to this reduces the feed inlet size, prevents that the material from getting into too fast and unable accurate control entering quantity, when reaching default quantity, both sides putty apron butt, rotation axis and rotatory stirring of rotatory piece co-drive U-shaped driven lever prevent that the material caking from blocking up the discharge gate, the telescopic link shrink drives the activity play material piece of cambered surface form and reciprocates, the material can pass through the discharge gate ejection of compact.

Drawings

FIG. 1 is a schematic diagram of the external structure of a quantitative loading system for logistics application according to an embodiment of the present application;

FIG. 2 is a schematic diagram of a lower view structure of a quantitative loading system for logistics application according to an embodiment of the present application;

FIG. 3 is a schematic cross-sectional view of the structure at A-A in FIG. 2 provided by an embodiment of the present application;

FIG. 4 is a schematic perspective view of the section B-B in FIG. 2 according to an embodiment of the present application;

Fig. 5 is a schematic cross-sectional structure of a quantitative loading system for logistics application according to an embodiment of the present application.

In the figure: 1. weighing a material box; 2. a rotation shaft; 3. a driven U-shaped rod; 4. stirring paddles; 5. a fixing plate; 6. a telescopic rod; 7. a movable discharge block; 8. a rotating block; 9. a weight sensor; 10. a feed inlet; 11. a material conveying pipe; 12. a storage bin; 13. a chute; 14. a slide block; 15. and a blocking cover plate.

Detailed Description

The utility model will be described in further detail with reference to the drawings and the detailed description. The embodiments of the utility model have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the utility model in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated.

Examples

Referring to fig. 1 to 5, in this embodiment, a quantitative loading system for logistics is provided, which includes a weighing box 1, a rotating shaft 2 is disposed at an inner top of the weighing box 1, a driven U-shaped rod 3 is fixed at an end of the rotating shaft 2, a plurality of groups of stirring paddles 4 are disposed on a rod body of the driven U-shaped rod 3 in a surrounding manner, a fixing plate 5 is fixedly connected to an end of the driven U-shaped rod 3, and a telescopic rod 6 is disposed at a bottom of the fixing plate 5.

The bottom of the weighing feed box 1 is provided with a movable discharge block 7 in a cambered surface shape, the top surface of the movable discharge block 7 is provided with a rotary block 8, the rotary block 8 is connected with the end part of a telescopic rod 6 on a fixed plate 5, the cambered surface-shaped movable discharge block 7 is not provided with materials when the telescopic rod 6 is contracted, the materials are all positioned on the telescopic rod, the rotary block 8 can slide down through the cambered surface, the rotary block 8 and a rotary shaft 2 jointly drive a driven U-shaped rod 3 to rotate, so that stirring paddles 4 on the rotary block are symmetrical to the materials in the feed box 1 to stir so as to prevent caking from blocking a discharge hole.

The driven U-shaped rod 3 is not interfered with each other by the stirring paddles 4 at two sides when rotating along with the rotating shaft 2, and the stirring paddles 4 are not interfered with the inside of the weighing box 1.

A plurality of weight sensors 9 are arranged around the outer wall of the weighing material box 1, and the four weight sensors 9 can be used for monitoring and weighing materials in the weighing material box 1 at the same time.

The top of the weighing material box 1 is provided with a material inlet 10 at two sides of the rotating shaft 2, the material inlet 10 is provided with a material conveying pipe 11, the end part of the material conveying pipe 11 is connected with a material storage box 12, and the material storage box 12 continuously conveys materials into the material inlet 10 through the material conveying pipe 11.

The two sides of the feed inlet 10 are symmetrically provided with sliding grooves 13, sliding blocks 14 are arranged in the sliding grooves 13, the top of each sliding block 14 is provided with a plugging cover plate 15, and each sliding block 14 can slide along the corresponding sliding groove 13, so that the plugging cover plates 15 on the sliding blocks 14 enable the feed inlet 10 to be in calibers with different sizes.

When the sliding block 14 slides to the end part, close to the feed inlet 10, of the sliding groove 13, the two side blocking cover plates 15 are mutually abutted to completely block the feed inlet 10, and when the weight sensor 9 senses that the weight of the material in the weighing box 1 reaches the preset weight, the two side blocking cover plates 15 are mutually abutted to block the feed inlet 10.

The working principle of the utility model is as follows:

When the device is used, the material storage box 12 continuously conveys materials into the material inlet 10 through the material conveying pipe 11, the weight sensor 9 continuously weighs the materials in the material symmetrical box 1, a plurality of weight gradients are preset before the weight sensor 9 approaches the preset weight, when the weight gradients reach the corresponding gradients, the sliding block 14 moves towards the material inlet 10 along the sliding groove 13, the material blocking cover plate 15 on the sliding block 14 blocks the material inlet 10 to reduce the caliber of the material inlet 10, so that the rate of the materials entering the material weighing box 1 is controlled, the excessive entering amount caused by excessive entering rate is prevented, after the preset weight is reached, the sliding block 14 slides to the end part of the sliding groove 13, which is close to the material inlet 10, the material blocking cover plates 15 on the two sides are mutually abutted to completely block the material inlet 10, the rotating shaft 2 and the rotating block 8 jointly drive the driven U-shaped rod 3 to rotate, the stirring paddles 4 on the sliding block the inner materials to prevent the material from blocking the material outlet, after the stirring is finished, the telescopic rod 6 contracts, the movable material outlet 7 moves upwards to expose the material outlet, and the materials can be discharged through the material outlet.

It will be apparent that the described embodiments are only some, but not all, embodiments of the utility model. All other embodiments, which can be made by those skilled in the art and which are included in the embodiments of the present utility model without the inventive step, are intended to be within the scope of the present utility model. Structures, devices and methods of operation not specifically described and illustrated herein, unless otherwise indicated and limited, are implemented according to conventional means in the art.

Claims (7)

1. The utility model provides a ration loading system that commodity circulation was used, includes title workbin (1), its characterized in that:

The utility model discloses a material weighing box, including weighing workbin (1), rotary shaft (2) are equipped with the interior top of workbin (1), the tip of rotary shaft (2) is fixed with driven U-shaped pole (3), around being equipped with multiunit stirring rake (4) on the shaft of driven U-shaped pole (3), the tip fixedly connected with fixed plate (5) of driven U-shaped pole (3), the bottom of fixed plate (5) is equipped with telescopic link (6).

2. A quantitative loading system for logistic applications according to claim 1, characterized in that: the bottom of the weighing box (1) is provided with a movable discharging block (7) in a cambered surface shape, the top surface of the movable discharging block (7) is provided with a rotating block (8), and the rotating block (8) is connected with the end part of a telescopic rod (6) on the fixed plate (5).

3. A quantitative loading system for logistic applications according to claim 1, characterized in that: the stirring paddles (4) at two sides of the driven U-shaped rod (3) do not interfere with each other when the driven U-shaped rod rotates along with the rotating shaft (2), and the stirring paddles (4) do not interfere with the inside of the weighing box (1).

4. A quantitative loading system for logistic applications according to claim 1, characterized in that: a plurality of weight sensors (9) are arranged around the outer wall of the weighing box (1).

5. A quantitative loading system for logistic applications according to claim 1, characterized in that: the top of the weighing box (1) is provided with a feeding port (10) at two sides of the rotating shaft (2),

The feeding port (10) is provided with a conveying pipe (11), and the end part of the conveying pipe (11) is connected with a storage box (12).

6. A quantitative loading system for logistic applications according to claim 5, wherein: the two sides of the feeding hole (10) are symmetrically provided with sliding grooves (13), sliding blocks (14) are arranged in the sliding grooves (13), and a blocking cover plate (15) is arranged at the top of each sliding block (14).

7. A quantitative loading system for logistic applications according to claim 6, wherein: when the sliding block (14) slides to the end part of the sliding groove (13) close to the feed inlet (10), the two side plugging cover plates (15) are mutually abutted to completely plug the feed inlet (10).