CN213325031U - Natural gas flowmeter warehousing system - Google Patents

Abstract

The utility model provides a natural gas flowmeter warehouse system belongs to the natural gas measurement field. The natural gas flowmeter warehousing system comprises a three-dimensional goods shelf, a stacker and a storage location distribution terminal; the three-dimensional shelf comprises a plurality of horizontal supporting plates and a plurality of vertical supporting columns; the three-dimensional goods shelf is provided with a storage space surrounded by adjacent horizontal supporting plates; the storage space comprises a first natural gas flow meter storage space, a second natural gas flow meter storage space and a third natural gas flow meter storage space; by arranging the stacker and the storage location distribution terminal, the stacker can place the natural gas flowmeter to be stored in the storage into the specified position on the three-dimensional goods shelf according to the size specification of the natural gas flowmeter under the control of the storage location distribution terminal, and take out the natural gas flowmeter to be taken out of the storage from the specified position on the three-dimensional goods shelf, so that the efficiency of the natural gas flowmeter storage link is improved.

Description

Natural gas flowmeter warehousing system

Technical Field

The disclosure relates to the field of natural gas metering, in particular to a natural gas flowmeter warehousing system.

Background

With the rapid development of the natural gas industry, natural gas flow meters are increasingly applied to measurement handover trade work.

The problem of insufficient human resources is also highlighted when various domestic natural gas metering and calibrating mechanisms are in high-load operation. The daily flow meter transceiving workflow is generally as follows: customer's censorship natural gas flowmeter, whether the receiving and dispatching personnel inspection meets the requirements, the natural gas flowmeter that the dismouting personnel will meet the requirements transports to the storehouse and deposits, when preparing to carry out the calibration, transports the natural gas flowmeter from the storehouse to the factory building of maring by the dismouting personnel again, at natural gas flowmeter storage link, adopts artifical transportation and arranges the goods position to deposit usually, and natural gas flowmeter has multiple different dimensions again usually, adopts artifical transportation and arranges the goods position to deposit and leads to work efficiency lower relatively.

SUMMERY OF THE UTILITY MODEL

The embodiment of the disclosure provides a natural gas flowmeter warehousing system, which is beneficial to improving the efficiency of a natural gas flowmeter warehousing link. The technical scheme is as follows:

the embodiment of the disclosure provides a natural gas flowmeter warehousing system, which comprises a three-dimensional goods shelf, a stacker and a storage location distribution terminal;

the three-dimensional shelf comprises a plurality of horizontal supporting plates and a plurality of vertical supporting columns;

the plurality of horizontal support plates are connected with the plurality of vertical support columns, and the plurality of horizontal support plates are spaced from each other in the vertical direction;

the three-dimensional goods shelf is provided with a storage space surrounded by the adjacent horizontal supporting plates;

the storage space comprises a first natural gas flow meter storage space, a second natural gas flow meter storage space and a third natural gas flow meter storage space;

the first natural gas flow meter storage space is positioned below the second natural gas flow meter storage space, and the second natural gas flow meter storage space is positioned below the third natural gas flow meter storage space;

the distance between the two horizontal support plates which enclose the first natural gas flowmeter storage space is larger than the distance between the two horizontal support plates which enclose the second natural gas flowmeter storage space;

the distance between the two horizontal supporting plates which enclose the storage space of the second natural gas flow meter is larger than the distance between the two horizontal supporting plates which enclose the storage space of the third natural gas flow meter;

the stacker is positioned at one side of the three-dimensional goods shelf;

and the storage position distribution terminal is connected with the stacker so as to control the stacker to put in or take out the natural gas flowmeter on the three-dimensional goods shelf.

Optionally, a ratio of a distance between the two horizontal support plates enclosing the first natural gas flowmeter storage space, a distance between the two horizontal support plates enclosing the second natural gas flowmeter storage space, and a distance between the two horizontal support plates enclosing the third natural gas flowmeter storage space is 3: 2: 1.

Optionally, a fire sprinkler is disposed on a bottom surface of at least one of the plurality of horizontal support plates.

Optionally, the stacker includes a top rail, a ground rail, and a rectangular frame;

the sky rail is positioned on one side of the three-dimensional goods shelf, is horizontal and is not lower than the highest horizontal supporting plate;

the ground rail is positioned under the sky rail and is coplanar with the sky rail, and the ground rail is horizontal and not higher than the lowest horizontal supporting plate in height;

the rectangular frame comprises an upper cross beam, a lower cross beam and two vertical stand columns, wherein two ends of the upper cross beam are respectively and vertically connected with the top ends of the two vertical stand columns, the upper cross beam is slidably arranged on the sky rail, two ends of the lower cross beam are respectively and vertically connected with the bottom ends of the two vertical stand columns, and the lower cross beam is slidably arranged on the ground rail.

Optionally, a cargo carrying platform of the stacker is connected with the two vertical upright posts, and a lifting device for driving the cargo carrying platform to lift and a walking device for driving the rectangular frame to move along the sky rail and the ground rail are arranged on the rectangular frame.

Optionally, two ends of the ground rail and two ends of the sky rail are respectively provided with a limit stop.

Optionally, unloading trays are placed in the first natural gas flow meter storage space, the second natural gas flow meter storage space and the third natural gas flow meter storage space.

Optionally, the natural gas flowmeter warehousing system further comprises a forklift for placing or taking the natural gas flowmeter in or out of the stacker.

Optionally, the forklift is an automated guided vehicle.

Optionally, the natural gas flowmeter warehousing system includes a plurality of three-dimensional shelves and a plurality of stackers, the plurality of three-dimensional shelves are arranged at intervals, and one stacker is arranged between every two adjacent three-dimensional shelves.

The beneficial effects brought by the technical scheme provided by the embodiment of the disclosure at least comprise:

the storage space is enclosed by adjacent horizontal support plates to store the natural gas flow meter, wherein the storage space comprises a first natural gas flow meter storage space, a second natural gas flow meter storage space and a third natural gas flow meter storage space, the distance between the two horizontal support plates enclosing the first natural gas flow meter storage space is larger than the distance between the two horizontal support plates enclosing the second natural gas flow meter storage space, the distance between the two horizontal support plates enclosing the second natural gas flow meter storage space is larger than the distance between the two horizontal support plates enclosing the third natural gas flow meter storage space, so that the natural gas flow meter with larger size and specification can be stored in the first natural gas flow meter storage space, and the natural gas flow meter with smaller size and specification is stored in the second natural gas flow meter storage space, and storing the natural gas flowmeter with the minimum size specification in the third natural gas flowmeter storage space. Through setting up stacker and position distribution terminal, the stacker can be under the control of position distribution terminal, and the natural gas flowmeter that will go into storage according to its specification puts into the assigned position on the three-dimensional goods shelves, and the natural gas flowmeter that will go out of storage takes out from the assigned position on the three-dimensional goods shelves, has avoided the loaded down with trivial details and the inefficiency of artifical getting and putting, has improved the efficiency of natural gas flowmeter storage link.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present disclosure, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present disclosure, and it is obvious for those skilled in the art to obtain other drawings based on the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a natural gas flowmeter warehousing system provided by an embodiment of the disclosure;

fig. 2 is a schematic structural diagram of a three-dimensional shelf provided in an embodiment of the present disclosure;

fig. 3 is a schematic structural diagram of a stacker provided in the embodiment of the present disclosure.

Detailed Description

To make the objects, technical solutions and advantages of the present disclosure more apparent, embodiments of the present disclosure will be described in detail with reference to the accompanying drawings.

Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this disclosure belongs. The use of "first," "second," "third," and similar terms in the description and claims of the present disclosure are not intended to indicate any order, quantity, or importance, but rather are used to distinguish one element from another. Also, the use of the terms "a" or "an" and the like do not denote a limitation of quantity, but rather denote the presence of at least one. The word "comprise" or "comprises", and the like, means that the element or item listed before "comprises" or "comprising" covers the element or item listed after "comprising" or "comprises" and its equivalents, and does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, which may also change accordingly when the absolute position of the object being described changes.

Fig. 1 is a schematic structural diagram of a natural gas flowmeter warehousing system provided by an embodiment of the present disclosure. As shown in fig. 1, the natural gas flowmeter warehousing system includes a rack 10, a stacker 20, and a storage location distribution terminal.

The stacker 20 is located at one side of the shelf 10.

The storage location distribution terminal is connected with the stacker 20 to control the stacker 20 to put in or take out the natural gas flowmeter on the shelf 10.

Fig. 2 is a schematic structural diagram of a three-dimensional shelf provided in an embodiment of the present disclosure. As shown in fig. 2, the shelf 10 includes a plurality of horizontal support plates 100 and a plurality of vertical support posts 105.

A plurality of horizontal support plates 100 are connected to a plurality of vertical support columns 105, the plurality of horizontal support plates 100 being spaced apart from each other in the vertical direction.

The stereoscopic shelf 10 has a storage space 100a surrounded by adjacent horizontal support plates 100, the storage space 100a includes a first natural gas flowmeter storage space 101a, a second natural gas flowmeter storage space 102a, and a third natural gas flowmeter storage space 103a, the first natural gas flowmeter storage space 101a is located below the second natural gas flowmeter storage space 102a, and the second natural gas flowmeter storage space 102a is located below the third natural gas flowmeter storage space 103 a.

The distance between the two horizontal support plates 100 defining the first natural gas flowmeter storage space 101a is larger than the distance between the two horizontal support plates 100 defining the second natural gas flowmeter storage space 102 a.

The distance between the two horizontal support plates 100 defining the second natural gas flow meter storage space 102a is larger than the distance between the two horizontal support plates 100 defining the third natural gas flow meter storage space 103 a.

The storage space is enclosed by adjacent horizontal support plates to store the natural gas flow meter, wherein the storage space comprises a first natural gas flow meter storage space, a second natural gas flow meter storage space and a third natural gas flow meter storage space, the distance between the two horizontal support plates enclosing the first natural gas flow meter storage space is larger than the distance between the two horizontal support plates enclosing the second natural gas flow meter storage space, the distance between the two horizontal support plates enclosing the second natural gas flow meter storage space is larger than the distance between the two horizontal support plates enclosing the third natural gas flow meter storage space, so that the natural gas flow meter with larger size and specification can be stored in the first natural gas flow meter storage space, and the natural gas flow meter with smaller size and specification is stored in the second natural gas flow meter storage space, and storing the natural gas flowmeter with the minimum size specification in the third natural gas flowmeter storage space. Through setting up stacker and position distribution terminal, the stacker can be under the control of position distribution terminal, and the natural gas flowmeter that will go into storage according to its specification puts into the assigned position on the three-dimensional goods shelves, and the natural gas flowmeter that will go out of storage takes out from the assigned position on the three-dimensional goods shelves, has avoided the loaded down with trivial details and the inefficiency of artifical getting and putting, has improved the efficiency of natural gas flowmeter storage link.

In addition, the larger the natural gas flowmeter is, the larger the weight of the natural gas flowmeter is, and the natural gas flowmeter having the larger size is stored in the first natural gas flowmeter storage space 101a, the natural gas flowmeter having the smaller size is stored in the second natural gas flowmeter storage space 102a, and the natural gas flowmeter having the smallest size is stored in the third natural gas flowmeter storage space 103a, and after the natural gas flowmeter is placed on the shelf 10, the center of gravity of the shelf 10 can be lowered and the shelf is not easily toppled.

As an example, the shelf 10 has one row of the first natural gas flowmeter storage space 101a, two rows of the second natural gas flowmeter storage space 102a, and three rows of the third natural gas flowmeter storage space 103 a.

The plurality of horizontal support plates 100 may include one first horizontal support plate 101, two second horizontal support plates 102, three third horizontal support plates 103, and one fourth horizontal support plate 104. One first horizontal support plate 101, two second horizontal support plates 102, three third horizontal support plates 103 and one fourth horizontal support plate 104 are sequentially distributed at intervals in the vertical direction.

The second horizontal support plate 102 is located right above the first horizontal support plate 101, and the first horizontal support plate 101 and the second horizontal support plate 102 adjacent thereto enclose a first natural gas flowmeter storage space 101 a.

The two second horizontal support plates 102 enclose a row of second natural gas flowmeter storage spaces 102a, and the second horizontal support plate 102 and the third horizontal support plate 103 adjacent thereto enclose another row of second natural gas flowmeter storage spaces 102 a.

The third horizontal support plate 103 is positioned directly above the second horizontal support plate 102, and the fourth horizontal support plate 104 is positioned directly above the third horizontal support plate 103. Three third horizontal support plates 103 enclose two rows of third natural gas flowmeter storage spaces 103a, and the third horizontal support plate 103 at the top and the fourth horizontal support plate 104 adjacent to the third horizontal support plate 103 enclose another row of third natural gas flowmeter storage spaces 103 a.

The distance between the first horizontal support plate 101 and the second horizontal support plate 102 adjacent thereto is greater than the distance between the second horizontal support plates 102 adjacent thereto, the distance between the second horizontal support plates 102 adjacent thereto is equal to the distance between the second horizontal support plate 102 and the third horizontal support plate 103 which are most closely spaced, the distance between the second horizontal support plates 102 adjacent thereto is greater than the distance between the third horizontal support plates 103 adjacent thereto, and the distance between the third horizontal support plates 103 adjacent thereto is equal to the distance between the third horizontal support plate 103 and the fourth horizontal support plate 104 which are most closely spaced.

Alternatively, the natural gas flowmeter warehousing system may include a plurality of stereoscopic shelves 10 and a plurality of stackers 20, the stereoscopic shelves 10 are arranged at intervals, and one stacker 20 is arranged between every two adjacent stereoscopic shelves 10. Each stacker 20 can pick and place the natural gas flow meter on two adjacent three-dimensional shelves 10, and a plurality of three-dimensional shelves 10 are arranged to increase the number of the natural gas flow meters which can be stored.

Alternatively, the stock level allocation terminal may be a computer. The library allocation terminal can also be configured with C/S English: Client/Server, Chinese: server/client and B/S english: Browser/Server, Chinese: the warehouse management system is of a browser/server architecture and is used for providing interaction and sharing of warehouse related data.

As shown in fig. 2, the first natural gas flowmeter storage space 101a, the second natural gas flowmeter storage space 102a, and the third natural gas flowmeter storage space 103a may each have a discharge tray 107 placed therein. The natural gas flow meter can be placed on the discharge tray 107, and the discharge tray 107 can be arranged to facilitate the taking and placing of the natural gas flow meter by the fork 2041 of the stacker 20.

The size specifications of the discharge trays 107 placed in the first natural gas flowmeter storage space 101a, the second natural gas flowmeter storage space 102a, and the third natural gas flowmeter storage space 103a may be the same.

The natural gas flow meters are generally in three relatively common sizes, and a maximum of 9 natural gas flow meters can be placed on the discharge tray 107 when placing the natural gas flow meter with the smallest size among the three sizes, a maximum of 4 natural gas flow meters can be placed on the discharge tray 107 when placing the natural gas flow meter with the middle size among the three sizes, and a maximum of 1 natural gas flow meter can be placed on the discharge tray 107 when placing the natural gas flow meter with the largest size among the three sizes.

Optionally, the ratio of the distance between the two horizontal support plates 100 defining the first natural gas flowmeter storage space 101a, the distance between the two horizontal support plates 100 defining the second natural gas flowmeter storage space 102a, and the distance between the two horizontal support plates 100 defining the third natural gas flowmeter storage space 103a is 3: 2: 1.

The space between the horizontal supporting plates 100 is set according to the ratio of 3: 2: 1, so that natural gas flow meters with different sizes can be smoothly placed into the three-dimensional goods shelf 10, and the waste of space can be avoided.

Optionally, a fire sprinkler 106 is disposed on a bottom surface of at least one of the plurality of horizontal support plates 100. For example, as shown in fig. 2, fire sprinklers 106 are disposed on the bottom surface of a second horizontal support plate 102 and the bottom surface of a third horizontal support plate 103. When a fire occurs on the three-dimensional shelf 10, the fire-fighting nozzle 106 can be started in time to quickly eliminate the fire, so that the safety of the natural gas flowmeter storage system is ensured, and the greater loss is avoided.

Fig. 3 is a schematic structural diagram of a stacker provided in the embodiment of the present disclosure. As shown in fig. 3, the stacker crane 20 may include a sky rail 201, a ground rail 202, and a rectangular frame 203. The top rail 201 is positioned at one side of the stereoscopic shelf 10, the top rail 201 is horizontal, and the height of the top rail is not lower than that of the highest horizontal support plate 100. In the disclosed embodiment, the sky rail 201 is higher than the fourth horizontal support plate 104. The ground rail 202 is located right below the sky rail 201 and coplanar with the sky rail 201, and the ground rail 202 is horizontal and not higher than the lowest horizontal support plate 100. I.e. not higher than the first horizontal support plate 101.

The rectangular frame 203 includes an upper beam 2031, a lower beam 2032 and two vertical columns 2033, the two ends of the upper beam 2031 are vertically connected with the top ends of the two vertical columns 2033 respectively, and the upper beam 2031 is slidably arranged on the head rail 201, the two ends of the lower beam 2032 are vertically connected with the bottom ends of the two vertical columns 2033 respectively, and the lower beam 2032 is slidably arranged on the ground rail 202.

A maintenance escalator 20331 can be arranged on one of the vertical columns 2033 to facilitate climbing of maintenance personnel.

The top rail 201 and the ground rail 202 are arranged on one side of the stereoscopic shelf 10 and arranged along the stereoscopic shelf 10, and the rectangular frame 203 can move along the top rail 201 and the ground rail 202, so that the natural gas flow meters on the cargo loading platforms 204 of the stacking machines 20 can be conveniently placed at different positions of the stereoscopic shelf 10, or the natural gas flow meters at different positions of the stereoscopic shelf 10 can be conveniently taken out.

Alternatively, both ends of the ground rail 202 and both ends of the sky rail 201 may be provided with limit stoppers 207, respectively. The limit stopper 207 can limit the movable range of the rectangular frame 203.

The cargo platform 204 of the stacker 20 may be connected to two vertical columns 2033, and the rectangular frame 203 is provided with a lifting device 205 for driving the cargo platform 204 to lift and a walking device 206 for driving the rectangular frame 203 to move along the top rail 201 and the ground rail 202. The height of the cargo platform 204 is adjusted by the lifting device 205, so that the fork 2041 on the cargo platform 204 can be aligned with the first natural gas flowmeter storage space 101a, the second natural gas flowmeter storage space 102a or the third natural gas flowmeter storage space 103a, the walking device 206 can drive the rectangular frame 203, the rectangular frame 203 can move to a proper position along the natural rail 201 and the ground rail 202, and the natural gas flowmeters with different specifications can be conveniently placed into different positions of the stereoscopic shelf 10 or taken away from different positions on the stereoscopic shelf 10 by the lifting device 205 and the walking device 206.

Optionally, the natural gas flow meter warehousing system may further include a forklift for placing or removing the natural gas flow meter on the stacker crane 20. The stacker crane 20 can put the natural gas flowmeter into the shelf 10 or take the natural gas flowmeter out of the shelf 10. When the natural gas flowmeter needs to be warehoused, the natural gas flowmeter can be placed on the stacking machine 20 through the forklift, and when the natural gas flowmeter needs to be warehoused, the natural gas flowmeter can be taken away from the stacking machine 20 through the forklift.

The forklift may be an AGV (Automated Guided Vehicle, chinese). The automatic guide carrier can automatically run to a designated position according to a set route, a driver is not needed, and the efficiency of a natural gas flowmeter storage link can be further improved.

The above description is intended to be exemplary only and not to limit the present disclosure, and any modification, equivalent replacement, or improvement made without departing from the spirit and scope of the present disclosure is to be considered as the same as the present disclosure.

Claims (10)

1. The natural gas flowmeter warehousing system is characterized by comprising a three-dimensional shelf (10), a stacker (20) and a storage location distribution terminal;

the space frame (10) comprises a plurality of horizontal support plates (100) and a plurality of vertical support columns (105);

the plurality of horizontal support plates (100) are connected with the plurality of vertical support columns (105), and the plurality of horizontal support plates (100) are spaced from each other in the vertical direction;

the stereoscopic shelf (10) is provided with a storage space (100a) enclosed by the adjacent horizontal support plates (100);

the storage space (100a) comprises a first natural gas flowmeter storage space (101a), a second natural gas flowmeter storage space (102a) and a third natural gas flowmeter storage space (103 a);

the first natural gas flow meter storage space (101a) is located below the second natural gas flow meter storage space (102a), and the second natural gas flow meter storage space (102a) is located below the third natural gas flow meter storage space (103 a);

the distance between the two horizontal support plates (100) enclosing the first natural gas flowmeter storage space (101a) is larger than the distance between the two horizontal support plates (100) enclosing the second natural gas flowmeter storage space (102 a);

the distance between the two horizontal support plates (100) enclosing the second natural gas flow meter storage space (102a) is larger than the distance between the two horizontal support plates (100) enclosing the third natural gas flow meter storage space (103 a);

the stacker (20) is positioned at one side of the three-dimensional goods shelf (10);

the storage location distribution terminal is connected with the stacking machine (20) to control the stacking machine (20) to put in or take out the natural gas flowmeter on the three-dimensional goods shelf (10).

2. The natural gas flow meter warehousing system according to claim 1, characterized in that a ratio of a spacing between two of the horizontal support plates (100) enclosing the first natural gas flow meter storage space (101a), a spacing between two of the horizontal support plates (100) enclosing the second natural gas flow meter storage space (102a), and a spacing between two of the horizontal support plates (100) enclosing the third natural gas flow meter storage space (103a) is 3: 2: 1.

3. The natural gas flow meter warehousing system of claim 1, characterized in that a fire sprinkler (106) is provided on a bottom surface of at least one of the plurality of horizontal support plates (100).

4. The natural gas flow meter warehousing system of claim 1, characterized in that the stacker crane (20) comprises a sky rail (201), a ground rail (202), and a rectangular frame (203);

the sky rail (201) is positioned on one side of the three-dimensional shelf (10), the sky rail (201) is horizontal, and the height of the sky rail is not lower than that of the highest horizontal supporting plate (100);

the ground rail (202) is positioned right below the sky rail (201) and is coplanar with the sky rail (201), the ground rail (202) is horizontal, and the height of the ground rail is not higher than that of the lowest horizontal support plate (100);

rectangular frame (203) includes entablature (2031), bottom end rail (2032) and two vertical posts (2033), the both ends of entablature (2031) respectively with the top of two vertical posts (2033) is perpendicular to link to each other, just entablature (2031) slidable ground sets up on day rail (201), the both ends of bottom end rail (2032) respectively with the bottom of two vertical posts (2033) is perpendicular to link to each other, just bottom end rail (2032) slidable ground sets up on the ground rail (202).

5. The natural gas flowmeter warehousing system of claim 4, characterized in that the cargo carrying platform (204) of the stacker (20) is connected with the two vertical columns (2033), and a lifting device (205) for driving the cargo carrying platform (204) to lift and a walking device (206) for driving the rectangular frame (203) to move along the sky rail (201) and the ground rail (202) are arranged on the rectangular frame (203).

6. The natural gas flowmeter warehousing system of claim 5, characterized in that both ends of the ground rail (202) and both ends of the sky rail (201) are respectively provided with a limit stop (207).

7. The natural gas flowmeter warehousing system as claimed in any one of claims 1 to 5, wherein discharge trays (107) are placed in the first natural gas flowmeter storage space (101a), the second natural gas flowmeter storage space (102a) and the third natural gas flowmeter storage space (103 a).

8. The natural gas flowmeter warehousing system as claimed in any one of claims 1 to 5, further comprising a forklift for placing or taking a natural gas flowmeter in or out of the stacker crane (20).

9. The natural gas flow meter warehousing system of claim 8, wherein the forklift is an automated guided vehicle.

10. The natural gas flowmeter warehousing system according to any one of claims 1 to 5, characterized in that the natural gas flowmeter warehousing system comprises a plurality of stereoscopic shelves (10) and a plurality of stackers (20), the stereoscopic shelves (10) are arranged at intervals, and one stacker (20) is arranged between every two adjacent stereoscopic shelves (10).

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