CN210935972U - Slope all-in-one machine with DWS system - Google Patents

Abstract

The utility model discloses a take slope all-in-one of DWS system sets up on the stretch-shrink machine, include along stretch-shrink machine transmission direction set gradually draw a packet section, weigh section and manual handling section. The bag pulling section comprises a first climbing conveyor arranged in an upward inclined mode, and the first climbing conveyor is fixed on the telescopic machine through a first support. The section of weighing includes the second conveyer that climbs with first conveyer inclination unanimity, the low point of second conveyer that climbs is spliced with the high point of first conveyer that climbs, the second conveyer that climbs is fixed on ground through the second support, second support and second are climbed and are provided with the weighing device who is used for acquireing goods weight between the conveyer, second conveyer top that climbs is provided with the yard device that sweeps that is used for scanning goods information, the conveyer manual handling section that climbs is the same with drawing a packet section structure, the concatenation is at the high point of second conveyer that climbs. The DWS system all-in-one machine is divided into three sections and is obliquely arranged, so that the DWS system all-in-one machine is convenient to maintain and occupies small space.

Description

Slope all-in-one machine with DWS system

Technical Field

The utility model relates to a commodity circulation transportation technical field, in particular to take slope all-in-one of DWS system.

Background

With the rapid development of modern logistics, the demand on logistics automation equipment is higher and higher, in the automation system of modern logistics, the information detection contained in goods is indispensable, the DWS system is an important part for detecting the information contained in goods, and the DWS system is a set of data information acquisition system comprising volume information (Dimension), Weight information (Weight) and barcode information (Scanning) and is used for carrying out static processing on goods.

The DWS all-in-one that owns in the existing market adopts synchronous belt drive, and the hold-in range easily wears out, changes frequently, and cost of maintenance is high. And all adopt the horizontal placement mode, take up an area of space big, the machine is many, is unfavorable for reducing space and reduce cost.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects, the utility model aims to provide a slope all-in-one machine with a DWS system.

In order to achieve the above purpose, the utility model discloses a technical scheme is: the utility model provides a take slope all-in-one of DWS system, sets up on the compressor, its characterized in that: the automatic weighing device comprises a bag pulling section, a weighing section and a manual processing section which are sequentially arranged along the transmission direction of the telescopic machine, wherein the bag pulling section comprises a first climbing conveyor which inclines upwards, the first climbing conveyor is fixed on the telescopic machine through a first support, the weighing section comprises a second climbing conveyor which has the same inclination angle with the first climbing conveyor, the low point of the second climbing conveyor is spliced with the high point of the first climbing conveyor, the second climbing conveyor is fixed on the ground through a second support, a weighing device used for acquiring the weight of goods is arranged between the second support and the second climbing conveyor, a code scanning device used for scanning information of the goods is arranged above the second climbing conveyor, and the manual processing section and the bag pulling section of the climbing conveyor are identical in structure and spliced at the high point of the second climbing conveyor.

The beneficial effects of the utility model are that, divide into the three-section with DWS system all-in-one equipment, draw the package section to be used for leading-in with the goods of telescopic machine, the section of weighing acquires the relevant information of goods through weighing device and scanning device, and the artifical end of handling makes things convenient for the artifical goods that the section of weighing unidentified. The climbing conveyors of each section are respectively driven, so that the length of the conveying belt is reduced, and the maintenance is convenient. And the bag pulling section, the weighing section and the manual processing section are erected on the telescopic machine, and the climbing conveyor at each section is obliquely arranged, so that the structure is compact, the occupied space is small, and the cost is saved.

Preferably, sweep yard device including setting up in the grudging post that is fixed in ground, be fixed with the camera that scans goods information on the grudging post, the camera is located directly over the section of weighing. For information scanning of the goods on the weighing section.

Preferably, the first climbing conveyor forms an angle of 17 ° with the compressor. The goods are convenient to transmit.

Preferably, the first climbing conveyor and the second climbing conveyor have the same structure and comprise two obliquely arranged support plates, a driving roller and a driven roller are rotatably arranged between the two support plates, a conveying belt is sleeved outside the driving roller and the driven roller, the driving roller is driven by a hollow shaft type speed reducing motor to rotate, and the hollow shaft type speed reducing machine is fixed on the support plates. The structure is simple, and the hollow shaft type speed reducer is adopted, so that the maintenance is convenient.

Preferably, a roller is arranged between the two supporting plates, and the roller is positioned below the conveying belt and is abutted against the conveying belt. The roller plays a guide role in the conveying belt and ensures smooth transmission of the conveying belt.

Preferably, the first support comprises four first support legs with adjustable height, the first climbing conveyor is connected with the first support legs through connecting lugs, and arc-shaped through holes for fixing bolts to move are formed in the connecting lugs. The arc through hole realizes the fine setting of first conveyer inclination that climbs, easy to assemble, debugging.

Preferably, the second supports are four second support legs with the same height, the mounting frames arranged in parallel are fixed at the upper ends of the support legs, the weighing devices are fixed on the mounting frames, the weighing devices are weighing sensors arranged at four corners of the mounting frames, the second climbing conveyor is in contact with the weighing sensors through a connecting plate, and the weighing sensors are used for detecting weight changes on the second climbing conveyor. The mounting frame realizes the stable placement of the weighing sensor, and the mass of the goods on the second climbing conveyor can be measured.

Preferably, the first climbing conveyor is further provided with a correlation photoelectric sensor, and the correlation photoelectric sensor is used for detecting the cargo condition of the first climbing conveyor.

Drawings

FIG. 1 is a perspective view of the present embodiment shown in a state fixed to a telescopic machine;

FIG. 2 is a perspective view of the present embodiment;

FIG. 3 is a schematic structural diagram of a bale pulling section, a weighing section and a manual processing section in the present embodiment;

FIG. 4 is a schematic structural diagram of a bale pulling section, a weighing section and a manual processing section in the present embodiment;

FIG. 5 is a schematic diagram of the structure of the bale pull segment in this embodiment;

FIG. 6 is an enlarged view taken at A in FIG. 5;

FIG. 7 is a schematic view of the weighing section in this embodiment;

fig. 8 is a side view of the present embodiment in a state fixed to the compressor.

In the figure:

100-a telescopic machine, 200-a bag pulling section, 300-a weighing section, 400-a manual processing section, 1-a first climbing conveyor, 1 a-a supporting plate, 1 b-a driving roller, 1 c-a driven roller, 1 d-a conveying belt, 1 e-a hollow shaft type speed reducing motor, 1 f-a roller, 2-a first support, 21-a first support leg, 3-a second climbing conveyor, 4-a second support, 41-a second support leg, 42-a mounting frame, 5-a weighing device, 51-a weighing sensor, 6-a code scanning device, 61-a vertical frame, 62-a camera, 7-a connecting lug, 71-an arc through hole, 8-a connecting plate and 9-a correlation photoelectric sensor.

Detailed Description

The following detailed description of the preferred embodiments of the present invention will be provided in conjunction with the accompanying drawings, so as to enable those skilled in the art to more easily understand the advantages and features of the present invention, and thereby define the scope of the invention more clearly and clearly.

Referring to fig. 1 and 8, the ramp all-in-one machine with the DWS system in the embodiment is arranged on a telescopic machine 100. Comprises a bale pulling section 200, a weighing section 300 and a manual processing section 400 which are arranged in sequence along the transmission direction of the compressor 100. The bale pulling section 200 is used for guiding the goods of the telescopic machine 100 in, the weighing section 300 is used for acquiring related information of the goods, and the manual processing end is convenient for manually processing the goods which are not identified by the weighing section 300.

Referring to fig. 2 to 6, the bale pulling segment 200 includes a first climbing conveyor 1 disposed obliquely upward, and the first climbing conveyor 1 is fixed to the telescopic machine 100 by a first bracket 2. The first bracket 2 comprises four first legs 21 with adjustable height, and a reinforcing beam is fixed between the adjacent first legs 21. First conveyer 1 that climbs is connected with first stabilizer blade 21 through engaging lug 7, is provided with the arc through-hole 71 that supplies fixing bolt to remove on the engaging lug 7, and the fine setting of first conveyer 1 inclination that climbs is realized to arc through-hole 71, easy to assemble, debugging. The first support leg 21 comprises a connecting column fixedly connected with the connecting lug 7 through a bolt and a ground pin capable of moving up and down along the connecting column, and the height of the first support leg 21 can be adjusted according to actual conditions.

Referring to fig. 7, the weighing section 300 includes a second climbing conveyor 3 with an inclination angle consistent with that of the first climbing conveyor 1, a low point of the second climbing conveyor 3 is spliced with a high point of the first climbing conveyor 1, the second climbing conveyor 3 is fixed on the ground through a second bracket 4, and a weighing device 5 for acquiring the weight of the goods is arranged between the second bracket 4 and the second climbing conveyor 3. The second support 4 is four second support legs 41 with the same height, the upper ends of the support legs are fixed with mounting frames 42 which are arranged in parallel, and the weighing device 5 is fixed on the mounting frames 42. The weighing devices 5 are weighing sensors 51 arranged at four corners of the mounting frame 42, the second climbing conveyor 3 is in contact with the weighing sensors 51 through the connecting plate 8, and the weighing sensors 51 are used for detecting weight change on the second climbing conveyor 3. The mounting frame 42 allows for a smooth placement of the load cells 51 and allows for the measurement of the mass of the load on the second climbing conveyor 3. A code scanning device 6 for scanning goods information is arranged above the second climbing conveyor 3, the code scanning device 6 comprises a vertical frame 61 fixed on the ground, a camera 62 for scanning goods information is fixed on the vertical frame 61, and the camera 62 is located right above the weighing section 300 and used for scanning information of goods on the weighing section 300.

Referring to fig. 2-4, the climbing conveyor manual handling section 400 is identical in structure to the bale pulling section 200 and is spliced at the high point of the second climbing conveyor 3. Comprises a third climbing conveyor with the same inclination angle as the first climbing conveyor 1, and the third climbing conveyor has the same structure as the first climbing conveyor 1. The third climbing conveyor is fixed on the telescopic machine 100 through a third bracket, and the third bracket has the same structure as the first bracket 2. The low point of the third climbing conveyor is spliced at the high point of the second climbing conveyor 3.

The optimal included angle between the first climbing conveyor 1 and the telescopic machine 100 is 17 degrees, and the optimal included angle is adjustable within the range of 0-17 degrees, so that the requirements of customers are met, and the goods are convenient to transmit.

The first climbing conveyor 1 and the second climbing conveyor 3 have the same structure and comprise two obliquely arranged supporting plates 1a, and connecting lugs 7 and connecting plates 8 are fixed on the supporting plates 1 a. A driving roller 1b and a driven roller 1c are rotatably arranged between the two supporting plates 1a, a conveying belt 1d is sleeved outside the driving roller 1b and the driven roller 1c, the driving roller 1b is driven by a hollow shaft type speed reducing motor 1e to rotate, and the hollow shaft type speed reducing motor 1e is fixed on the supporting plates 1 a. The structure is simple, and the hollow shaft type speed reducing motor 1e is adopted, so that the maintenance is convenient. A roller 1f is arranged between the two supporting plates 1a, and the roller 1f is positioned below the conveying belt 1d and is abutted against the conveying belt 1 d. The roller 1f plays a guiding role in the conveying belt 1d, and the conveying belt 1d is ensured to be conveyed smoothly.

The first climbing conveyor 1 is further provided with a correlation type photoelectric sensor 9, and the correlation type photoelectric sensor 9 is used for detecting the cargo condition of the first climbing conveyor 1.

The DWS system all-in-one machine is divided into three sections, and the climbing conveyor of each section is driven respectively, so that the length of the conveying belt 1d is reduced, and the maintenance is convenient. And the bag pulling section 200, the weighing section 300 and the manual processing section 400 are erected on the telescopic machine 100, and the climbing conveyor of each section is obliquely arranged, so that the structure is compact, the occupied space is small, and the cost is saved.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, so as not to limit the protection scope of the present invention, and all equivalent changes or modifications made according to the spirit of the present invention should be covered in the protection scope of the present invention.

Claims (8)

1. The utility model provides a take slope all-in-one of DWS system, sets up on the compressor, its characterized in that: the automatic weighing device comprises a bag pulling section, a weighing section and a manual processing section which are sequentially arranged along the transmission direction of the telescopic machine, wherein the bag pulling section comprises a first climbing conveyor which inclines upwards, the first climbing conveyor is fixed on the telescopic machine through a first support, the weighing section comprises a second climbing conveyor which has the same inclination angle with the first climbing conveyor, the low point of the second climbing conveyor is spliced with the high point of the first climbing conveyor, the second climbing conveyor is fixed on the ground through a second support, a weighing device used for acquiring the weight of goods is arranged between the second support and the second climbing conveyor, a code scanning device used for scanning information of the goods is arranged above the second climbing conveyor, and the manual processing section is the same as the bag pulling section in structure and spliced at the high point of the second climbing conveyor.

2. A ramp integrator with a DWS system according to claim 1, characterized in that: sweep a yard device including being fixed in the grudging post on ground, be fixed with the camera of scanning goods information on the grudging post, the camera is located directly over the section of weighing.

3. A ramp integrator with a DWS system according to claim 1, characterized in that: the included angle between the first climbing conveyor and the telescopic machine is 17 degrees.

4. A ramp integrator with a DWS system according to claim 1, characterized in that: the first climbing conveyor and the second climbing conveyor are identical in structure and comprise two supporting plates which are obliquely arranged, a driving roller and a driven roller are rotatably arranged between the two supporting plates, a conveying belt is sleeved outside the driving roller and the driven roller, the driving roller is driven by a hollow shaft type speed reducing motor to rotate, and the hollow shaft type speed reducing motor is fixed on the supporting plates.

5. A ramp integrator with a DWS system according to claim 4, characterized in that: and a roller is arranged between the two supporting plates, is positioned below the conveying belt and is abutted against the conveying belt.

6. A ramp integrator with a DWS system according to claim 1, characterized in that: the first support comprises four first supporting legs with adjustable heights, the first climbing conveyor is connected with the first supporting legs through four connecting lugs, and each connecting lug is provided with an arc-shaped through hole for the movement of a fixing bolt.

7. A ramp integrator with a DWS system according to claim 1, characterized in that: the second support is four second support legs with the same height, the upper ends of the second support legs are fixedly provided with mounting frames which are arranged in parallel, the weighing devices are fixed on the mounting frames, the weighing devices are weighing sensors arranged at four corners of the mounting frames, the second climbing conveyor is in contact with the weighing sensors through a connecting plate, and the weighing sensors are used for detecting weight changes on the second climbing conveyor.

8. A ramp integrator with a DWS system according to claim 1, characterized in that: the first climbing conveyor is further provided with a correlation type photoelectric sensor, and the correlation type photoelectric sensor is used for detecting the cargo condition of the first climbing conveyor.

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