CN221183797U - Warehouse logistics sorting equipment - Google Patents

Abstract

The utility model provides a warehouse logistics sorting device, comprising: the device comprises a feeding belt, a limiting block, a pressure plate and a slideway. The pressure plate sets up the bottom at the unloading end of material loading area, and the stopper setting is in the top of pressure plate, and just close the unloading end of establishing at the material loading area, and the spacing groove is seted up to the one end that the stopper was kept away from the material loading area. The top of pressure board still is provided with the weight-measuring plate, through a plurality of spring coupling between weight-measuring plate and the pressure board, the weight-measuring plate is located the stopper and keeps away from the one end of loading area, and one end along vertical direction slip setting in the spacing inslot, and the weight-measuring plate is close to the one end of stopper and is provided with the push pedal, and the push pedal is along the direction of delivery slip setting of article at weight-measuring plate top surface. The slide is a plurality of, and a plurality of slides are arranged along vertical direction and are set up in the one end that the weight measurement board kept away from the stopper. The problem of current storage commodity circulation letter sorting equipment according to weight letter sorting with high costs is solved.

Description

Warehouse logistics sorting equipment

Technical Field

The utility model relates to the field of warehouse logistics, in particular to warehouse logistics sorting equipment.

Background

The warehouse is used for carrying out the activities of warehousing, storing and delivering articles through the warehouse on the materials and related facility equipment, and is generated along with the generation of the storage of the materials and the development along with the development of the productivity, and is one of important links of commodity circulation.

The existing warehouse logistics sorting equipment is mainly used for carrying out distinguishing treatment through different sizes of articles, however, along with the progress of technology, the sizes and the weights of the articles are not in absolute relation, and errors are easy to occur continuously according to the distinguishing of the sizes.

The prior art discloses that the transportation track of the article is replaced according to the weighed data by adding weighing equipment in the transportation process by utilizing the coordination of a weighing instrument and the like so as to realize differentiation. However, the data analysis requires a large amount of operation, the precise weighing equipment and the data analysis system require high cost investment, and the weighing equipment with low precision is extremely easy to interfere, so that the sorting result is error.

Disclosure of utility model

The utility model provides warehouse logistics sorting equipment, which aims to solve the problem that the existing warehouse logistics sorting equipment is high in sorting cost according to weight.

The utility model relates to a warehouse logistics sorting device, which comprises: the feeding belt, the limiting block, the pressure plate and the slideway;

The pressure plate is arranged at the bottom of the discharging end of the feeding belt, the limiting block is arranged above the pressure plate and is arranged at the discharging end of the feeding belt in a close manner, and a limiting groove is formed in one end, far away from the feeding belt, of the limiting block;

The weight measuring device is characterized in that a weight measuring plate is further arranged above the pressure plate, the weight measuring plate is connected with the pressure plate through a plurality of springs, the weight measuring plate is located at one end of the limiting block, which is far away from the feeding belt, and one end of the weight measuring plate is arranged in the limiting groove in a sliding manner along the vertical direction, a pushing plate is arranged at one end of the weight measuring plate, which is close to the limiting block, and the pushing plate is arranged on the top surface of the weight measuring plate in a sliding manner along the conveying direction of an article;

the slide is a plurality of, and a plurality of slide is arranged along vertical direction and is set up the weight measurement board is kept away from the one end of stopper.

The end part of the weight measuring plate, which is positioned in the limiting groove, is fixedly provided with a pushing cylinder, and a piston rod of the pushing cylinder is fixedly connected with the pushing plate.

The side surface of the limiting block is horizontally provided with a feeding inductor.

And a discharging inductor is horizontally arranged on the side surface of one end of each slideway, which is close to the weight measuring plate.

Wherein, the discharge end of material loading area goes up and down to set up and hinder the flitch.

The feeding inductor is electrically connected with the pushing cylinder, and the discharging inductor is electrically connected with the material blocking plate.

Wherein, the slide way and the weight measuring plate are provided with buffer parts.

One end of the slideway, which is far away from the weight measuring plate, is communicated with a discharging pipe.

The beneficial effects of the utility model are as follows:

According to the warehouse logistics sorting equipment, the original sorting mode through data transmission is abandoned, and different slideways are divided in the vertical direction under the elastic action of the springs, so that the effect of distinguishing different objects through gravity is achieved. And the position sensor is matched, the action of pushing the cylinder and the material blocking plate is controlled by measuring the position of the weight plate, so that each material can enter the corresponding slideway and cannot interfere with each other.

Drawings

Fig. 1: a perspective view of the present utility model;

Fig. 2: front view of the present utility model;

Fig. 3: the utility model is a top view.

Description of the reference numerals

1. A feeding frame; 11. a feeding belt; 12. a material blocking plate; 2. a limiting block; 21. a limit groove; 22. a feeding sensor; 3. a pushing cylinder; 31. a push plate; 4. a pressure plate; 41. a spring; 42. a weight measurement plate; 5. a discharge pipe; 51. a slideway; 52. and a discharging sensor.

Detailed Description

In order to make the above and other objects, features and advantages of the present utility model more comprehensible, preferred embodiments accompanied with figures are described in detail below:

The utility model provides warehouse logistics sorting equipment, which is shown by referring to fig. 1, and mainly comprises the following components: the feeding belt 11, the limiting block 2, the pressure plate 4 and the slideway 51;

The feeding belt 11 is a conveying belt and is horizontally arranged at the upper part of a feeding frame 1, a groove is formed in the top of the feeding frame 1, and the feeding belt 11 is slidably arranged in the groove; the feeding belt 11 can realize transmission through a large rotating shaft and a motor, and can also realize transmission through a plurality of small rollers matched with a driving roller, a motor and the like, and the material of the feeding belt can be a metal splice plate, a rubber belt and the like, and the transmission mode and the working principle of the conveying belt in the prior art are mature, so that the utility model is not repeated.

The discharge end of the feeding belt 11 is provided with a material blocking plate 12 in a sliding manner in the vertical direction so as to isolate subsequent materials and ensure that no influence is generated between the subsequent materials and the materials entering the next working section. The material blocking plate 12 can be pneumatic or electric. The device can be driven by an air cylinder arranged at one side of the feeding frame, and can also directly realize up-and-down displacement by electric power. The present utility model is not limited by the fact that the effects are the same and the present utility model does not belong to the technical problems that the present utility model mainly solves.

The limiting block 2 is fixedly connected with one end of the feeding frame 1, and a limiting groove 21 is formed in one side, away from the feeding frame 1, of the limiting block 2. The pressure plate 4 is located the homonymy of material loading frame 1 with stopper 2, and the one end and the material loading frame 1 fixed connection of pressure plate 4, the bottom surface fixed connection of partial top surface and stopper 2 of pressure plate 4, and other positions on the top surface of pressure plate 4 set up a plurality of springs 41, and the top of pressure plate 4 passes through a spring 41 elastic connection weight measurement board 42. The springs 41 need to ensure that the weight plate 42 keeps a horizontal state to move up and down, so in this embodiment, the springs 41 are four and disposed at four vertex angle positions of the weight plate 42. The spring 41 is of a resilient dimension, which is not limited by the present utility model, as long as it is a specific height of the slide 51.

A feeding sensor 22 is horizontally arranged on the side surface of the limiting block 2. The loading sensor 22 is used for sensing the position of the weight plate 42, and controlling the movement of the material blocking plate 12 by judging whether the weight plate 42 is located at the original position, so as to ensure that the objects cannot be affected mutually.

The limiting block 2 is partially embedded in the upper material frame 1 (not shown in the figure), only partially exposed, or directly and completely embedded. The material is not affected from falling onto the weight plate 42. In this embodiment, the limiting block 2 is mostly shown outside the upper material rack 1 for easy understanding.

A part of the weight measuring plate 42 is arranged in the limit groove 21, a pushing cylinder 3 is fixedly arranged on the top surface of the part of the weight measuring plate 42, which is positioned in the limit groove 21, a piston rod of the pushing cylinder 3 is fixedly connected with a push plate 31, and the push plate 31 is arranged on the top surface of the weight measuring plate 42 in a sliding manner along the conveying direction of the article through the piston rod of the pushing cylinder 3; the two opposite side walls of the limit groove 21 are respectively provided with a sliding rail along the vertical direction, the two side walls of the end part of the weight measurement plate 42 extending into the limit groove are respectively provided with a sliding groove in sliding connection with the sliding rails, the running track of the weight measurement plate 42 is limited, the weight measurement plate 42 is ensured to be always kept in a horizontal state, and the weight measurement plate 42 cannot be inclined due to the arrangement of the pushing cylinder 3 or the placement of articles.

The pushing cylinder 3 is arranged in the limit groove 21 through the weight measuring plate 42, so that the push plate 31 can not influence the sliding of the object in the retracted state, the object can accurately fall on the outer side of the push plate 31, and the object can be smoothly pushed out by the push plate 31. In addition, the limiting block 2 is narrower, and the sliding of the articles cannot be influenced. (again, change specifically)

The slide ways 51 are multiple, and are all arranged at one end of the weight measuring plate 42 far away from the feeding belt along the vertical direction, and a discharging sensor 52 is horizontally arranged at one side surface of one end of each slide way 51 close to the weight measuring plate 42. The number of the skids 51 depends on the weight section to be sorted, and in this embodiment, the number of the skids 51 is only two for convenience of expressing the technical features of the present utility model.

The discharge sensor 52 is used for sensing the position of the weight-measuring plate 42, the last discharge sensor 52 senses that the weight-measuring plate 42 moves downwards and passes through, and the next discharge sensor 52 does not sense the displacement signal of the weight-measuring plate 42 within a certain time, then the push rod of the pushing cylinder 3 is controlled to extend, and the article is pushed onto the slide way 51 where the last discharge sensor 52 senses the weight-measuring plate 42.

The upward sensing signal resets the discharge sensor 52, and the structure and usage of the discharge sensor 52 are conventional, and will not be described herein.

One end of the slide ways 51 far away from the weight measuring plate 42 is fixedly connected with a discharging pipe 5 respectively, and the length directions of the pressure plate 4, the slide ways 51 and the weight measuring plate 42 are parallel. Different slide ways 51 in the discharging pipe 5 are connected with different directions, so that articles with different gravities enter the next working section.

The feeding sensor 22 is electrically connected with the pushing cylinder 3, and the discharging sensor 52 is electrically connected with the material blocking plate 12. The signals of the electrical connection may be processed by a PLC controller or by basic force control software. The signals of the sensors are input signals, and the action signals of the pushing cylinder 3 and the material blocking plate 12 are output signals. Wherein the material blocking plate 12 has a self-locking function, and the pushing cylinder 3 does not have the self-locking function, namely, the material blocking plate 12 can keep an ejecting state after receiving a signal, and the pushing cylinder 3 ejects once after receiving the signal to retract to the original position. The specific programming code and other contents belong to common general knowledge, and can be simply solved by using the prior art, so the utility model is not repeated.

To prevent the articles from colliding during the sliding and pushing out process, the surfaces of the slide ways 51 and the weight measurement plate 42 may be paved with buffer materials such as plush sleeves.

The working process of the utility model is as follows: the detected articles slide onto the weight measuring plate 42 through the feeding belt 11, the weight measuring plate 42 moves downwards, and the feeding sensor 22 sends out a sensing signal to enable the material blocking plate 12 to pop up, so that subsequent articles are blocked. The weight measuring plate 42 moves downwards due to the fact that the gravity of the object presses down the spring, passes through the corresponding slideway 51 of the upper limit of the gravity, does not trigger the next sensing position, pushes the air cylinder 3 to push the push plate 31 under the action of the sensing signal after the delay time, pushes the object to the corresponding slideway 51, then the weight measuring plate 42 rebounds under the action of the spring 41, and the feeding sensor 22 controls the material blocking plate 12 to retract after sensing the weight measuring plate 42.

Other undisclosed technologies of the present utility model, such as trend of electric power, arrangement, working principle of pushing cylinder 3, how to realize pneumatic and electric operation, etc., all belong to common general knowledge, and the prior art can be simply solved, and not belong to the technical problems mainly solved by the present utility model, so the present utility model is not repeated.

The foregoing detailed description is directed to a specific embodiment of the utility model, but the embodiment is not intended to limit the scope of the utility model, and equivalents and modifications that do not depart from the spirit of the utility model are intended to be included in the scope of the utility model.

Claims (8)

1. A warehouse logistics sorting apparatus, comprising: the feeding belt, the limiting block, the pressure plate and the slideway;

The pressure plate is arranged at the bottom of the discharging end of the feeding belt, the limiting block is arranged above the pressure plate and is arranged at the discharging end of the feeding belt in a close manner, and a limiting groove is formed in one end, far away from the feeding belt, of the limiting block;

The weight measuring device is characterized in that a weight measuring plate is further arranged above the pressure plate, the weight measuring plate is connected with the pressure plate through a plurality of springs, the weight measuring plate is located at one end of the limiting block, which is far away from the feeding belt, and one end of the weight measuring plate is arranged in the limiting groove in a sliding manner along the vertical direction, a pushing plate is arranged at one end of the weight measuring plate, which is close to the limiting block, and the pushing plate is arranged on the top surface of the weight measuring plate in a sliding manner along the conveying direction of an article;

the slide is a plurality of, and a plurality of slide is arranged along vertical direction and is set up the weight measurement board is kept away from the one end of stopper.

2. The warehouse logistics sorting equipment of claim 1, wherein the end part of the weight measuring plate positioned in the limit groove is fixedly provided with a pushing cylinder, and a piston rod of the pushing cylinder is fixedly connected with the push plate.

3. The warehouse logistics sorting apparatus of claim 2, wherein the side of the stop block is horizontally provided with a loading sensor.

4. A warehouse logistics sorting apparatus as claimed in claim 3, wherein the side of each of the slides adjacent to one end of the weight plate is horizontally provided with a discharge inductor.

5. The warehouse logistics sorting apparatus of claim 4, wherein the discharge end of the loading belt is provided with a baffle plate in a lifting manner.

6. The warehouse logistics sorting apparatus of claim 5, wherein the loading sensor is electrically connected to the pushing cylinder and the discharge sensor is electrically connected to the baffle plate, respectively.

7. The warehouse logistics sorting apparatus of claim 1, wherein the skid and the weight plate are provided with cushioning members.

8. The warehouse logistics sorting apparatus of claim 1, wherein the end of the chute remote from the weight measurement plate communicates with a discharge pipe.