CN115405137B

CN115405137B - Battery production factory building

Info

Publication number: CN115405137B
Application number: CN202211131679.9A
Authority: CN
Inventors: 林建业; 丁端; 金帆
Original assignee: Chuneng New Energy Co Ltd
Current assignee: Chuneng New Energy Co Ltd
Priority date: 2022-09-15
Filing date: 2022-09-15
Publication date: 2024-01-30
Anticipated expiration: 2042-09-15
Also published as: CN115405137A

Abstract

The invention relates to the technical field of factory design, and discloses a battery production factory building, which comprises: the room body includes in the room body: the system comprises a finished product bin, a first workshop, a battery core retest workshop, a shipment platform and an in-plant logistics route, wherein the first workshop is positioned on the periphery of the finished product bin; the finished product bin is provided with a first bin wall and a second bin wall which are opposite, the first bin wall is provided with a warehouse-in port and a first warehouse-out port, and the second bin wall is provided with a second warehouse-out port; the first working room is positioned at one end of the first bin wall and is arranged at intervals with the end part of the first bin wall; the battery core retest working chamber is positioned at one side of the first working chamber far away from the finished product bin; the warehouse-out platform is positioned at one side of the second warehouse wall far away from the first warehouse wall; the in-factory logistics route is sequentially connected with a first warehouse outlet, a first workroom and a battery core retest workroom; the delivery logistics route sequentially links the second delivery port and the delivery platform. In the battery production factory building, the utilization rate of the electric core distribution material flow line is higher, and the distribution efficiency of the electric core in the factory is higher.

Description

Battery production factory building

Technical Field

The invention relates to the technical field of factory building design, in particular to a battery production factory building.

Background

Along with the development of new energy vehicles, the demand for power batteries is also larger and larger, a large number of battery modules need to be stored in factories for producing and assembling batteries, warehouses for storing the batteries are arranged in the factories, the electric cores in the warehouses are delivered out of the warehouse, part of the electric cores need to be used for processing and assembling in the factories, part of the electric cores are directly transported and delivered out of the warehouse, and the other electric cores need to be transported back to the warehouse after being treated after being delivered out of the warehouse, so various distribution logistics routes exist for the electric cores delivered out of the warehouse. Most of the current in-plant planning is relatively complicated and confusing for the distribution logistics of the in-plant battery cells, which easily results in lower utilization rate of the distribution route and influences the distribution efficiency of the battery cells.

Disclosure of Invention

The invention aims to provide a battery production plant, wherein in the battery production plant, workshops for processing, assembling or retesting battery cells in the plant are all arranged along the same delivery material flow line, and the in-plant logistics delivery route and the delivery route for delivering the battery cells to the outside of the plant are separated, so that the utilization rate of the in-plant delivery material flow line is effectively improved, and the delivery efficiency of the battery cells in the plant is improved.

In order to achieve the above purpose, the present invention provides the following technical solutions:

a battery production facility comprising: the room body, the internal including in room:

the finished product bin is used for storing the battery cells and is provided with a first bin wall and a second bin wall which are opposite to each other, the first bin wall is provided with a warehouse entry port and a first warehouse exit port, the second bin wall is provided with a second warehouse exit port, the first warehouse exit port is used for outputting the first battery cells to the inside of the house body, and the second warehouse exit port is used for outputting the second battery cells to the outside of the house body;

the first working room is positioned at one end of the first bin wall and is arranged at intervals with the end part of the first bin wall;

the battery cell retest working chamber is positioned at one side of the first working chamber far away from the finished product bin and is used for detecting and charging the first battery cell;

the delivery platform is positioned at one side of the second bin wall away from the first bin wall;

the in-plant logistics route is sequentially communicated with the first warehouse outlet, the first workroom and the battery cell retest workroom;

and the delivery logistics route is sequentially communicated with the second delivery port and the delivery platform.

In the battery production factory building, the workshops for processing, assembling or retesting the battery cells in the factory are all arranged along the same distribution material flow line, and the in-factory logistics distribution route and the distribution route for delivering the battery cells outside the factory are separated, so that the utilization rate of the in-factory distribution material flow line is effectively improved, and the distribution efficiency of the battery cells in the factory is improved.

Optionally, the house further comprises a cell sorting area located between the first workshop and the cell retesting working chamber; the electric core sorting area is located on the in-plant logistics route, and a warehouse-in logistics route is formed by the part from the electric core sorting area to the warehouse-in port along the in-plant logistics route.

Optionally, the house body is provided with at least two floors, at least two floors comprise a first floor and a second floor, the second floor is located above the first floor, the warehouse entry port and the first warehouse exit port are located at the first floor, the first working room, the electric core retest working room, the electric core sorting area and the second floor are located, the first working room is communicated with the first floor, the electric core retest working room is communicated with the first floor, and the electric core sorting area is communicated with the first floor and used for transporting the first electric core to the first floor;

the in-plant logistics route comprises an ex-warehouse delivery route and an in-warehouse delivery route, wherein the ex-warehouse delivery route is delivered along a first delivery route, the first delivery route is a route for delivering from the inside of the finished product warehouse to the outside of the finished product warehouse, and the second delivery route is a route for delivering from the outside of the finished product warehouse to the inside of the finished product warehouse;

the warehouse-in delivery route sequentially and continuously comprises a first warehouse outlet, a first workshop and a battery cell retest working chamber along the first conveying path, and sequentially and continuously comprises the battery cell retest working chamber, a battery cell sorting area, the first workshop and the first warehouse outlet along the second conveying path.

Optionally, the house body further comprises a shipment testing platform, wherein the shipment testing platform is located on the factory logistics line and located between the second warehouse outlet and the shipment platform.

Optionally, when at least two floors are provided in the house, and the at least two floors include a first floor and a second floor, the shipment platform is located at the first floor, and the shipment test platform is located at the second floor and is communicated with the first floor.

Optionally, the finished product bin further comprises a third bin wall and a fourth bin wall which are oppositely arranged, wherein the third bin wall is adjacent to the first bin wall and the second bin wall respectively, the fourth bin wall is adjacent to the first bin wall and the second bin wall respectively, and the first working room is located on one side, away from the fourth bin wall, of the third bin wall.

Optionally, the house body further comprises a control system, and the finished product bin, the first working room, the battery core retest working room and the shipment platform are all in signal connection with the control system.

Optionally, the finished product warehouse comprises a plurality of storage areas, each storage area is provided with a goods shelf and a tray used for being placed on the goods shelf, and the tray is used for bearing the battery cells.

Optionally, each storage area is provided with at least one pair of a smoke sensor and a temperature sensor.

Optionally, each storage area further comprises an alarm device corresponding to the smoke sensor and the temperature sensor, and the alarm device is in signal connection with both the smoke sensor and the temperature sensor.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention. Wherein:

fig. 1 is a schematic top view of a battery production plant according to an embodiment of the present invention.

Icon: 1-a finished product bin; 2-a first workplace; 3-a battery core retest working chamber; 4-a shipment platform; 5-in-plant logistics routes; 6-a factory logistics route; 7-a cell sorting area; 11-a first bin wall; 12-a second bin wall; 13-a third bin wall; 14-fourth bin wall; 51-a delivery route for delivery; 52-warehousing and distribution routes; 111-a warehouse entry port; 112-a first outlet; 121-a second outlet.

Detailed Description

The invention will be described in detail below with reference to the drawings in connection with embodiments. The examples are provided by way of explanation of the invention and not limitation of the invention. Indeed, it will be apparent to those skilled in the art that modifications and variations can be made in the present invention without departing from the scope or spirit of the invention. For example, features illustrated or described as part of one embodiment can be used on another embodiment to yield still a further embodiment. Accordingly, it is intended that the present invention encompass such modifications and variations as fall within the scope of the appended claims and their equivalents.

In the description of the present invention, the terms "longitudinal", "transverse", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", etc. refer to the orientation or positional relationship based on that shown in the drawings, merely for convenience of description of the present invention and do not require that the present invention must be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention. The terms "coupled," "connected," and "configured" as used herein are to be construed broadly and may be, for example, fixedly connected or detachably connected; either directly or indirectly through intermediate components, the specific meaning of the terms being understood by those of ordinary skill in the art as the case may be.

As shown in fig. 1, the present invention provides a battery production plant, wherein for convenience of description, the actual construction position of the battery production plant is used for description, the bottom surface of the plant is the ground, the direction parallel to the ground is the horizontal direction, the direction perpendicular to the ground is the vertical direction, the walls of the plant are constructed along the vertical direction, and the bin walls on the periphery of the finished bin are arranged vertically to the ground. Specifically, the battery production plant includes: the room body includes in the room body: the battery pack comprises a finished product warehouse 1, a first workroom 2, a battery cell retest working room 3, a shipment platform 4, an in-factory logistics route 5 and an out-factory logistics route 6, wherein the finished product warehouse 1 is used for storing battery cells, the finished product warehouse 1 is provided with a first warehouse wall 11 and a second warehouse wall 12 which are opposite, the first warehouse wall 11 is provided with a warehouse-in port 111 and a first warehouse-out port 112, one, two or more warehouse-in ports 111 can be arranged, one, two or more first warehouse-out ports 112 can be arranged, the first warehouse-out port 112 is used for outputting a first battery cell into a house body, the second warehouse-out port 12 is provided with a second warehouse-out port 121, one, two or more second warehouse-out ports 121 are arranged, and the second warehouse-out port 121 is used for outputting a second battery cell out of the house body; the first working room 2 is located at one end of the first bin wall 11 and is spaced from the end of the first bin wall 11 when seen in the horizontal direction, specifically, the first working room 2 may be a module assembly working room, in which the battery cells are assembled to form a battery cell module, and preferably, the module assembly working room includes a battery cell Bian Ku; the battery core retest working chamber 3 is positioned at one side of the first working chamber 2 far away from the finished product bin 1, the battery core retest working chamber 3 is used for detecting and charging the first battery core, the battery core is stored in the finished product bin 1, and the battery core in the finished product bin 1 is subjected to sampling inspection or inspection within a specified time because the electric quantity and the performance of the battery core have required standards, so that the battery core retest working chamber used for inspecting the battery core is arranged in a factory, and after the battery core is tested, if electricity is lack, the battery core can be charged to supplement the electric quantity, so that the arrangement of the battery core retest working chamber can effectively ensure the quality of the battery core in the finished product bin 1, and the battery core can be prevented from being damaged due to the power shortage, thereby being an indispensable unit in the factory; the in-plant logistics route 5 is sequentially connected with the first outlet 112, the first workroom 2 and the battery core retest working chamber 3, wherein the first workroom 2 and the battery core retest working chamber 3 are arranged on the same material flow route, so that the battery core distribution in the plant can be concentrated on one distribution material flow route, the utilization rate of the distribution material flow route is increased, the distribution cost is reduced, the setting of the in-plant distribution route is reduced, the in-plant space is saved, in addition, the first workroom 2 and the battery core retest working chamber 3 are sequentially arranged along the extending direction of the in-plant logistics route 5, and when the in-plant logistics route 5 is needed to be distributed, the materials which are destined for the first workroom 2 and the battery core retest working chamber 3 can be simultaneously distributed, and the battery core can be sequentially discharged at the corresponding position, so that the distribution efficiency is effectively improved; the discharging platform is positioned at one side of the second bin wall 12 far away from the first bin wall 11, and the battery cells can be discharged at the second discharging port 121 and loaded on a vehicle through the discharging platform 4 for discharging; the delivery logistics route 6 sequentially links up the second delivery port 121 and the delivery platform 4, the logistics route for delivering the battery cells is arranged on the opposite side of the logistics route for delivering the battery cells in the factory, so that the battery cells are delivered in the factory and the logistics route for delivering the battery cells to the outside of the factory are separated, the cross mixing among the logistics routes delivered in different directions is avoided, the interference risk among the logistics routes is reduced, the delivery efficiency of the various logistics routes is improved, the battery cell delivery efficiency of the finished product warehouse is improved, and the storage capacity of the finished product warehouse is improved.

Therefore, in the battery production factory building, the workshops for processing and assembling or retesting the battery cells in the factory are all arranged along the same distribution material flow line, and the in-factory logistics distribution route and the distribution route for delivering the battery cells outside the factory are separated, so that the utilization rate of the in-factory distribution material flow line is effectively improved, and the distribution efficiency of the battery cells in the factory is improved.

In a possible embodiment, as shown in fig. 1, the housing further comprises a cell sorting area 7 located between the first working chamber 2 and the cell retesting working chamber 3; the cell sorting area 7 is located on the in-plant logistics route 5, and a warehouse-in logistics route is formed along the part between the cell sorting area 7 and the warehouse-in port 111 along the in-plant logistics route 5, wherein a production line for producing the cells is further arranged in the house, after the production of some raw materials is finished into finished cells, the cells can be transported to the cell sorting area 7, after the qualified cells are sorted out by the cell sorting area 7, the qualified cells are transported to the warehouse-in port 111 of the finished product warehouse 1 along the warehouse-in logistics route, and warehouse-in treatment is performed on the cells, wherein the warehouse-in logistics route is arranged on the local in-plant logistics flow route, so that the utilization rate of the in-plant logistics route can be effectively improved, and the in-plant space is saved.

Specifically, in one possible embodiment, referring to fig. 1, in the above battery production factory building, at least two floors are provided in the house body, the at least two floors include a first floor and a second floor, the second floor is located above the first floor, the finished product bin 1 may be designed as a single floor, where the warehouse entry port 111 and the first warehouse exit port 112 are located at the first floor, the first workroom 2, the battery core retest working room 3, the battery core sorting area 7 and the second floor, the first workroom 2 is communicated with the first floor, a lifting device is provided between the first workroom 2 and the first floor, in particular, the lifting device may be provided between the battery core retest working room 3 and the first floor, in the same manner, the battery core sorting area 7 is communicated with the first floor and is used for transporting the first battery core to the first floor, and in particular, the lifting device may be provided between the battery core sorting area 7 and the first floor; specifically, the in-plant logistics route 5 may be divided into an ex-warehouse delivery route 51 that delivers along a first delivery route, which is a route that delivers from the inside of the product bin 1 to the outside of the product bin 1, and a warehouse-in delivery route 52 that delivers along a second delivery route, which is a route that delivers from the outside of the product bin 1 to the inside of the product bin 1; the first delivery path is followed by the delivery path 51 sequentially connecting the first delivery port 112, the first working room 2 and the cell retest working room 3, and the second delivery path is followed by the delivery path 52 sequentially connecting the cell retest working room 3, the cell sorting area 7, the first working room 2 and the first delivery port 112, that is, when the cell is to be sent to the first working room 2, the cell is delivered from the finished product warehouse 1 to the factory, and is transported from the first delivery port 112 to the position corresponding to the first working room 2 along the delivery path 51, lifted to the second building layer by the lifter, and transported to the first working room 2. When the battery core needs to be restored, the battery core is transported from a first floor along the delivery route 51 from a first delivery port 112 until reaching a position corresponding to the battery core retest working chamber 3, lifted to two floors by a lifting machine, transported to the battery core retest working chamber 3, and returned to the finished product warehouse 1 for warehouse entry after the battery core finishes the operations of testing, charging and the like in the battery core retest working chamber 3, at the moment, the battery core is output in the battery core retest working chamber 3, goes along the warehouse entry delivery route 52 until reaching the battery core sorting area 7, descends to one floor by the lifting machine at the battery core sorting area 7, then reaches the warehouse entry port 111 according to the warehouse entry delivery route 52, and is warehoused again into the finished product warehouse.

In the warehouse-in distribution route, the distribution route between the battery cell retest working chamber and the battery cell sorting area can be a logistics route on a battery cell production line, so that the logistics route in a factory is reasonably planned and utilized, and the utilization rate of the logistics route is improved.

Specifically, in the battery production factory building, the house body further comprises a shipment test platform, the shipment test platform is located on a factory logistics line and located between the second shipment port 121 and the shipment platform 4, and the battery cells are transported to the shipment platform 4 for vehicle shipment after being tested, disassembled, assembled, stacked and packaged on the shipment test platform. The battery core is firstly subjected to the shipment test platform before shipment, and the shipment test platform can test the battery core which is shipped, so that shipment quality is ensured.

Furthermore, when the house body is provided with at least two floors, and the at least two floors comprise a first floor and a second floor, the shipment platform can be arranged on the first floor, the shipment test platform is arranged on the second floor, the shipment test platform is communicated with the first floor, and lifting equipment is arranged.

In a possible implementation manner, referring to fig. 1, the finished product bin 1 is a rectangular bin, the finished product bin 1 further includes a third bin wall 13 and a fourth bin wall 14 which are oppositely arranged, the third bin wall 13 is adjacent to the first bin wall 11 and the second bin wall 12 respectively, the fourth bin wall 14 is adjacent to the first bin wall 11 and the second bin wall 12 respectively, wherein the fourth bin wall 14 is arranged near a wall of a side of a room body, the first working room 2 is located at a side of the third bin wall 13 away from the fourth bin wall 14, and the first working room 2, the retest working room and other working rooms are arranged at a side of the finished product bin 1 facing the factory space, so that the space layout is sufficient, the design of the factory logistics route 5 is simplified, and the improvement of the electrical core distribution efficiency is facilitated.

In the concrete implementation, the house body further comprises a control system, and the finished product warehouse, the first workroom, the battery core retest working room and the shipment platform are all in signal connection with the control system. The control system can comprise a warehouse management system, so that correct warehouse management, inventory control and ex-warehouse management of finished product warehouses in the factory can be effectively ensured, and the battery cells in the factory are reasonably distributed.

Specifically, to the design of finished product storehouse, including a plurality of storage areas in the finished product storehouse, every storage area is provided with goods shelves, and is used for placing the tray on the goods shelves, and the tray is used for bearing the electricity core, and wherein, the goods shelves can adopt the weldment to constitute, and the surface of goods shelves is rust-resistant, and the weldment has sufficient intensity, rigidity, is favorable to improving the overall stability of goods shelves. Wherein the single-layer shelf has a bearing requirement of more than or equal to 175kg.

Further, to the bin wall around the finished bin and each storage area between can separate with rock wool board, have a plurality of storehouse positions on every goods shelves, every storehouse position sets up the two-dimensional code sign, and the top and the below of every storehouse position set up the phenolic aldehyde board that thickness is 20mm respectively, and left side and right set up the carbon steel board that thickness is 0.8mm respectively, and the surface fire prevention lacquer of this carbon steel board, the back of storehouse position sets up the carbon steel board that thickness is 1.5mm, and the surface of this carbon steel board also spouts fire prevention lacquer.

In the finished product bin, each storage area is provided with at least one pair of smoke sensor and temperature sensor, and the smoke sensor and the temperature sensor can be arranged on the top plate of the finished product bin. Specifically, each storage area further comprises an alarm device corresponding to the smoke sensor and the temperature sensor, and the alarm device is in signal connection with both the smoke sensor and the temperature sensor. In addition, still be provided with supervisory equipment in the finished product storehouse, supervisory equipment includes the camera and with camera signal connection's display device, alarm device can be audible and visual alarm, when the special condition appears, and alarm device sends alarm signal, audible and visual alarm sends audible and visual signal, not only the staff hears the sound, still can make the staff see the concrete position of warning in the monitoring room on display device's the screen, can be favorable to the staff to handle the unexpected situation in the finished product storehouse fast.

Specifically, the battery production factory building also comprises a stacker, the stacker is in signal connection with the control system, after the alarm device alarms, the control system can control the stacker to reach an alarm point, and the battery core and the tray at the designated storage position are taken out, wherein a UPS (uninterrupted power supply) standby power supply for providing electric energy for the control system and the stacker is also arranged in the factory.

In addition, the foundation of the battery production factory building is designed to be an anti-seismic structure, has the capability of resisting the earthquake intensity of more than 7 levels, and has the basic earthquake acceleration of 0.05g.

The above is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and variations of the present invention will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A battery production facility, comprising: the room body, the internal including in room:

the finished product bin is used for storing the battery cells and is provided with a first bin wall, a second bin wall, a third bin wall and a fourth bin wall, wherein the first bin wall and the second bin wall are opposite, the third bin wall is adjacent to the first bin wall and the second bin wall respectively, the fourth bin wall is adjacent to the first bin wall and the second bin wall respectively, the first bin wall is provided with a warehouse entry port and a first warehouse exit port, the second bin wall is provided with a second warehouse exit port, the first warehouse exit port is used for outputting the first battery cells to the inside of the room body, and the second warehouse exit port is used for outputting the second battery cells to the outside of the room body;

the first working room is positioned at one end of the first bin wall and is arranged at intervals with the end part of the first bin wall, and the first working room is positioned at one side of the third bin wall away from the fourth bin wall;

the shipment platform is positioned at one side of the second bin wall away from the first bin wall;

the delivery logistics route sequentially communicates with the second delivery port and the delivery platform, and the delivery logistics route is separated from the in-plant logistics route;

the house body further comprises a battery cell sorting area positioned between the first working room and the battery cell retesting working room, wherein the battery cell sorting area is used for sorting qualified battery cells; the electric core sorting area is positioned on the in-plant logistics route, and a warehouse-in logistics route is formed from the electric core sorting area to the warehouse-in port along the in-plant logistics route;

the house body is internally provided with at least two floors, the at least two floors comprise a first floor and a second floor, the second floor is positioned above the first floor, the warehouse entry port and the first warehouse exit port are positioned on the first floor, the first workroom, the battery core retest working chamber and the battery core sorting area are positioned on the second floor, the first workroom is communicated with the first floor, the battery core retest working chamber is communicated with the first floor, and the battery core sorting area is communicated with the first floor and is used for transporting the first battery core to the first floor;

2. The battery production plant of claim 1, wherein the house further comprises a shipment testing platform, the shipment testing platform being located on the factory flow line and between the second outlet and the shipment platform.

3. The battery production plant of claim 2, wherein when at least two floors are present in the house, and the at least two floors include a first floor and a second floor, the shipment test platform is located on the first floor and is in communication with the first floor.

4. The battery production plant of claim 1, wherein the house further comprises a control system, and the finished product warehouse, the first workroom, the battery core retest workroom, and the shipment platform are all in signal connection with the control system.

5. The battery production facility of claim 4, wherein the finished product warehouse comprises a plurality of storage areas, each storage area being provided with a shelf, and a tray for placing on the shelf, the tray for carrying the battery cells.

6. The battery production facility of claim 5, wherein each of the storage areas is provided with at least one pair of a smoke sensor and a temperature sensor.

7. The battery production facility of claim 6, wherein each of the storage areas further comprises an alarm device corresponding to the smoke sensor and the temperature sensor, the alarm device being in signal connection with both the smoke sensor and the temperature sensor.