CN221042450U - Supporting bottom plate of generator equipment - Google Patents

Abstract

The utility model relates to the technical field of generators, in particular to a supporting bottom plate of generator equipment, which comprises a supporting bottom plate body, wherein a storage battery mounting station is arranged on the supporting bottom plate body and used for mounting and arranging a storage battery; the storage battery installation station comprises a lead-acid maintenance-free battery installation station and a lithium battery installation station; the lithium battery mounting station is characterized in that a circle of mounting coaming which is arranged in a rectangular shape overall is arranged on the supporting bottom plate body, the inner contour of the mounting coaming is matched with the outer contour of the aluminum battery, and the aluminum battery can be correspondingly inserted and mounted in the mounting coaming so that the lithium battery mounting station is formed in the mounting coaming; the utility model also discloses a generator. The utility model has the characteristics of simpler and more reasonable structural design, capability of better selecting and installing lead-acid maintenance-free batteries or lithium batteries at the same position according to the requirements of customers, and capability of better reducing the bearing.

Description

Supporting bottom plate of generator equipment

Technical Field

The utility model relates to the technical field of generators, in particular to a supporting bottom plate of generator equipment and a generator thereof.

Background

The generator structure generally comprises an outer housing structure which is integrally of rectangular structural design; the housing structure includes a bottom support floor upon which the generator body is typically disposed; and may also support the base plate with a battery (which typically includes lead-acid maintenance-free batteries and lithium batteries) and an inverter mounted thereon.

However, the structural design of the existing supporting bottom plate is unreasonable, so that the lead-acid maintenance-free battery or lithium battery can not be well selected and installed according to the requirements of customers; the installation arrangement of the inverter is also inconvenient. Secondly, the layout of the existing supporting bottom plate is not reasonable enough, so that the bearing capacity of the supporting bottom plate is large, and the supporting bottom plate is easy to damage.

Therefore, how to design a structural design is simpler and more reasonable, lead-acid maintenance-free batteries or lithium batteries can be better installed and configured at the same position according to the requirements of customers, and the supporting bottom plate of the bearing generator equipment and the generator thereof can be better reduced, so that the technical problem to be solved by the technicians in the field is solved.

Disclosure of utility model

In view of the above-mentioned drawbacks of the prior art, the present utility model is to solve the technical problem of how to design a supporting base plate of a generator device and a generator thereof, which have a simpler and more reasonable structural design, and can better select to install and configure a lead-acid maintenance-free battery or a lithium battery at the same position according to the needs of customers, and can better reduce the load.

In order to achieve the above object, the present utility model provides a support base plate of a generator device, comprising a support base plate body, on which a battery mounting station is provided and which is used for mounting and arranging a battery; the method is characterized in that; the storage battery installation station comprises a lead-acid maintenance-free battery installation station and a lithium battery installation station; the lithium battery mounting station is characterized in that a circle of mounting coaming which is arranged in a rectangular shape overall is arranged on the supporting bottom plate body, the inner contour of the mounting coaming is matched with the outer contour of the aluminum battery, and the aluminum battery can be correspondingly inserted and mounted in the mounting coaming so that the lithium battery mounting station is formed in the mounting coaming; the installation coaming is provided with an installation notch which transversely penetrates through the installation coaming, the lead-acid maintenance-free battery which is integrally in a T-shaped design can be inserted into the installation coaming, and two ends of the T-shaped lead-acid maintenance-free battery can be respectively clamped into the installation notch.

Like this, among the above-mentioned technical scheme, through set up lead acid maintenance-free battery installation station and lithium cell installation station on the supporting baseplate body to lead acid maintenance-free battery and lithium cell are arranged in the selection of according to customer's demand that can be better, thereby better satisfy customer's requirement. The lead-acid maintenance-free battery mounting station and the lithium battery mounting station are overlapped, and in the structure, a circle of mounting coaming which is arranged in a rectangular shape as a whole is arranged on the supporting bottom plate body to form the lithium battery mounting station; and the lead-acid maintenance-free battery is formed by arranging the mounting notch on the mounting coaming, and the two stations are partially overlapped, so that the space required by layout is reduced, and components are saved.

As optimization, a first limit structure and a second limit structure are respectively arranged at the outer sides of two mounting notches on the supporting bottom plate body, and each of the first limit structure and the second limit structure is provided with a limit surface and a limit end; and the limiting surface and the limiting end are respectively abutted against the two ends of the T-shaped lead-acid maintenance-free battery.

Like this, through setting up first limit structure and second limit structure, the lateral position of lead acid maintenance-free battery of restriction that can be better.

As optimization, the first limit structure comprises a limit plate which is vertically arranged upwards on the supporting bottom plate body, and one side surface of the limit plate forms the limit surface.

Like this, first limit structure adopts the limiting plate of vertical setting, and structural design is more simple reasonable.

As the optimization, the second limit structure is including connecting the stopper that sets up whole L shape structure setting on the supporting baseplate body, the tip of stopper forms the limit terminal.

Thus, the second limit structure design is simpler and more reasonable.

As optimization, the storage battery installation station is arranged at one side of the middle part of the supporting bottom plate body; and an inverter installation station is further arranged at one end of the supporting bottom plate body and used for installing and arranging an inverter.

Therefore, the layout design of the storage battery installation station and the inverter installation station is more reasonable.

As optimization, the supporting bottom plate body comprises end baffles formed by vertically extending upwards at two ends, wherein a strip-shaped installation support plate is arranged at the inner side of one end baffle, two ends of the installation support plate are bent and extended towards the end baffle, and a plurality of partition plates are arranged between the end baffle and the installation support plate at intervals; an inverter installation station is formed between the end baffle plate and the installation support plate.

Therefore, an inverter installation station is formed on the better supporting bottom plate body, and the inverter is more convenient to assemble, disassemble and maintain.

As optimization, connecting blocks which are arranged in an upward extending mode are respectively arranged at the two ends of the two end baffles, and connecting holes are formed in the connecting blocks.

Thus, the connection and fixation between the supporting bottom plate body and the rest shell components are more convenient.

As optimization, the supporting bottom plate body comprises side baffles which are formed by vertical upward extension of two sides.

Thus, the structural design of the supporting bottom plate body is more reasonable.

As optimization, longitudinal mounting grooves and transverse mounting grooves are respectively formed on two sides and two ends of the bottom of the supporting bottom plate body in pairs.

In this way, on the one hand, it is possible to form a longitudinal mounting groove and a transverse mounting groove below the support floor body and to arrange the longitudinal bar and the transverse bar respectively in correspondence; on the other hand, the structural strength of the supporting bottom plate body can be improved; further, the supporting bottom plate body is made of PP materials through injection molding.

The technical scheme also discloses a generator which is characterized by comprising the supporting bottom plate of the generator equipment; the combined frame is integrally designed in a rectangular frame structure; the bottom surface inside the combined rack is provided with a supporting bottom plate body, and the inside of the combined rack is provided with a generator body; an inverter is also arranged on the supporting bottom plate body; and a lead-acid maintenance-free battery lithium battery is also arranged on the supporting bottom plate body.

Thus, the combined frame bears the weight of the generator body, and the supporting bottom plate body only needs to bear the weight of the inverter and the storage battery; so that the bearing of the supporting bottom plate body can be better reduced, and the supporting bottom plate body can be better protected from being damaged.

In summary, the above technical scheme has the characteristics that the structural design is simpler and more reasonable, the lead-acid maintenance-free battery or the lithium battery can be better installed and configured at the same position according to the requirements of customers, and the bearing can be better reduced.

Drawings

Fig. 1 is a schematic structural view of a support base plate of a generator device according to an embodiment of the present utility model (in which lead-acid maintenance-free batteries and lithium batteries are arranged in an overlapping manner, and an inverter is also arranged).

Fig. 2 is a schematic view of the structure of fig. 1 after only a lithium battery is disposed.

Fig. 3 is a schematic view of the structure of fig. 1 after only a lead-acid maintenance-free battery is disposed.

Fig. 4 is a schematic view of the structure of fig. 1 showing only the bottom support floor.

Fig. 5 is a partially enlarged schematic view of the a position in fig. 4.

Fig. 6 is a schematic view of the structure of the support base plate.

Fig. 7 is a schematic view of the structure of fig. 1 after the generator body is disposed.

Detailed Description

The present utility model will be further described with reference to the drawings and examples, and it should be noted that in the description of the present utility model, the terms "upper", "lower", "left", "right", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, only for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific manner, and thus should not be construed as limiting the present utility model. The terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

As shown in fig. 1 to 7, a support base plate of a generator apparatus includes a support base plate body on which a battery mounting station 1 is provided and for mounting and arranging a battery; the storage battery installation station comprises a lead-acid maintenance-free battery installation station and a lithium battery installation station; the lithium battery mounting station is characterized in that a circle of mounting coaming 2 which is arranged in a rectangular shape overall is arranged on the supporting bottom plate body, the inner contour of the mounting coaming is matched with the outer contour of the aluminum battery 3, and the aluminum battery can be correspondingly inserted and mounted in the mounting coaming so that the lithium battery mounting station is formed in the mounting coaming; the installation coaming is provided with the installation notch 4 which transversely penetrates through the installation coaming, the lead-acid maintenance-free battery 5 which is integrally of a T-shaped design can be inserted into the installation coaming, and two ends of the T-shaped lead-acid maintenance-free battery can be respectively clamped into the installation notch.

Like this, among the above-mentioned technical scheme, through set up lead acid maintenance-free battery installation station and lithium cell installation station on the supporting baseplate body to lead acid maintenance-free battery and lithium cell are arranged in the selection of according to customer's demand that can be better, thereby better satisfy customer's requirement. The lead-acid maintenance-free battery mounting station and the lithium battery mounting station are overlapped, and in the structure, a circle of mounting coaming which is arranged in a rectangular shape as a whole is arranged on the supporting bottom plate body to form the lithium battery mounting station; and the lead-acid maintenance-free battery is formed by arranging the mounting notch on the mounting coaming, and the two stations are partially overlapped, so that the space required by layout is reduced, and components are saved.

In the specific embodiment, a first limit structure and a second limit structure are respectively arranged outside two mounting notches on the supporting bottom plate body, and each of the first limit structure and the second limit structure is provided with a limit surface and a limit end; and the limiting surface and the limiting end are respectively abutted against the two ends of the T-shaped lead-acid maintenance-free battery.

Like this, through setting up first limit structure and second limit structure, the lateral position of lead acid maintenance-free battery of restriction that can be better.

In this embodiment, the first limit structure includes a limit plate 6 that is disposed vertically upward on the supporting base plate body, and a side surface of the limit plate forms the limit surface.

Like this, first limit structure adopts the limiting plate of vertical setting, and structural design is more simple reasonable.

In this embodiment, the second limit structure is including connecting the stopper 7 that sets up in whole being L shape structure setting on the supporting baseplate body, the tip of stopper forms the limit terminal.

Thus, the second limit structure design is simpler and more reasonable.

In this specific embodiment, the storage battery installation station is disposed at a position on one side of the middle of the supporting base plate body; and an inverter installation station 8 is also arranged at one end of the supporting bottom plate body and is used for installing and arranging an inverter 9.

Therefore, the layout design of the storage battery installation station and the inverter installation station is more reasonable.

In this embodiment, the supporting base plate body includes end baffles 10 formed by extending vertically and upwards at two ends, a strip-shaped mounting support plate 11 is disposed at the inner side of one of the end baffles, two ends of the mounting support plate are bent and extended towards the end baffles, and a plurality of partition plates 12 are disposed between the end baffles and the mounting support plate at intervals; an inverter installation station is formed between the end baffle plate and the installation support plate.

Therefore, an inverter installation station is formed on the better supporting bottom plate body, and the inverter is more convenient to assemble, disassemble and maintain.

In this embodiment, two ends of each of the two end baffles are respectively provided with a connecting block 13 extending upwards, and the connecting blocks are provided with connecting holes.

Thus, the connection and fixation between the supporting bottom plate body and the rest shell components are more convenient.

In this embodiment, the supporting floor body includes side baffles 14 formed by extending vertically upward from both sides.

Thus, the structural design of the supporting bottom plate body is more reasonable.

In this embodiment, longitudinal mounting grooves 15 and transverse mounting grooves 16 are provided in pairs on both sides and both ends of the bottom of the support base body, respectively.

In this way, on the one hand, it is possible to form a longitudinal mounting groove and a transverse mounting groove below the support floor body and to arrange the longitudinal bar and the transverse bar respectively in correspondence; on the other hand, the structural strength of the supporting bottom plate body can be improved; further, the supporting bottom plate body is made of PP materials through injection molding.

Further, the two ends of the supporting bottom plate body, which correspond to the longitudinal installation grooves respectively, are provided with abdicating holes in a penetrating way so that the vertical connecting rods on the combined rack can penetrate through the vertical connecting rods and are connected with the longitudinal rods in the longitudinal installation grooves respectively.

The technical scheme also discloses a generator, which comprises the supporting bottom plate of the generator equipment; the combined frame 17 is designed to be a rectangular frame structure as a whole; the bottom surface inside the combined frame is provided with a supporting bottom plate body, and the inside of the combined frame is provided with a generator body 18; an inverter is also arranged on the supporting bottom plate body; and a lead-acid maintenance-free battery lithium battery is also arranged on the supporting bottom plate body.

Thus, the combined frame bears the weight of the generator body, and the supporting bottom plate body only needs to bear the weight of the inverter and the storage battery; so that the bearing of the supporting bottom plate body can be better reduced, and the supporting bottom plate body can be better protected from being damaged.

In summary, the above technical scheme has the characteristics that the structural design is simpler and more reasonable, the lead-acid maintenance-free battery or the lithium battery can be better installed and configured at the same position according to the requirements of customers, and the bearing can be better reduced.

The foregoing describes in detail preferred embodiments of the present utility model. It should be understood that numerous modifications and variations can be made in accordance with the concepts of the utility model by one of ordinary skill in the art without undue burden. Therefore, all technical solutions which can be obtained by logic analysis, reasoning or limited experiments based on the prior art by the person skilled in the art according to the inventive concept shall be within the scope of protection defined by the claims.

Claims (10)

1. The supporting bottom plate of the generator equipment comprises a supporting bottom plate body, wherein a storage battery installation station is arranged on the supporting bottom plate body and used for installing and arranging storage batteries; the method is characterized in that; the storage battery installation station comprises a lead-acid maintenance-free battery installation station and a lithium battery installation station; the lithium battery mounting station is characterized in that a circle of mounting coaming which is arranged in a rectangular shape overall is arranged on the supporting bottom plate body, the inner contour of the mounting coaming is matched with the outer contour of the aluminum battery, and the aluminum battery can be correspondingly inserted and mounted in the mounting coaming so that the lithium battery mounting station is formed in the mounting coaming; the installation coaming is provided with an installation notch which transversely penetrates through the installation coaming, the lead-acid maintenance-free battery which is integrally in a T-shaped design can be inserted into the installation coaming, and two ends of the T-shaped lead-acid maintenance-free battery can be respectively clamped into the installation notch.

2. A support floor for a generator device as claimed in claim 1, wherein: the outer sides of the two mounting notches on the supporting bottom plate body are respectively provided with a first limiting structure and a second limiting structure, and the first limiting structure and the second limiting structure are respectively provided with a limiting surface and a limiting end; and the limiting surface and the limiting end are respectively abutted against the two ends of the T-shaped lead-acid maintenance-free battery.

3. A support floor for a generator device as claimed in claim 2, wherein: the first limit structure comprises a limit plate which is vertically arranged upwards on the supporting bottom plate body, and one side surface of the limit plate forms the limit surface.

4. A support floor for a generator device as claimed in claim 2, wherein: the second limit structure comprises a limit block which is connected with the support bottom plate body and is integrally arranged in an L-shaped structure, and the end part of the limit block forms a limit end.

5. A support floor for a generator device as claimed in claim 1, wherein: the storage battery installation station is arranged at one side of the middle part of the supporting bottom plate body; and an inverter installation station is further arranged at one end of the supporting bottom plate body and used for installing and arranging an inverter.

6. A support floor for a generator apparatus as set forth in claim 5, wherein: the support bottom plate body comprises end baffles formed by vertically extending upwards at two ends, a strip-shaped installation support plate is arranged on the inner side of one end baffle, two ends of the installation support plate are bent and extended towards the end baffle, and a plurality of partition plates are arranged between the end baffle and the installation support plate at intervals; an inverter installation station is formed between the end baffle plate and the installation support plate.

7. A support floor for a generator apparatus as set forth in claim 6, wherein: connecting blocks which are arranged in an upward extending mode are respectively arranged at two ends of the two end baffles, and connecting holes are formed in the connecting blocks.

8. A support floor for a generator apparatus as set forth in claim 6, wherein: the supporting bottom plate body comprises side baffles which are formed by vertical upward extension of two sides.

9. A support floor for a generator device as claimed in claim 1, wherein: longitudinal mounting grooves and transverse mounting grooves are respectively formed in pairs on two sides and two ends of the bottom of the supporting bottom plate body.

10. A generator comprising a support floor of a generator device according to any one of claims 1 to 9; the combined frame is integrally designed in a rectangular frame structure; the bottom surface inside the combined rack is provided with a supporting bottom plate body, and the inside of the combined rack is provided with a generator body; an inverter is also arranged on the supporting bottom plate body; and a lead-acid maintenance-free battery lithium battery is also arranged on the supporting bottom plate body.