CN220933568U - Acousto-optic alarm mounting structure and energy storage container - Google Patents

Abstract

The application belongs to the technical field of energy storage equipment, and provides an audible and visual alarm mounting structure which comprises an audible and visual alarm, a container, a mounting box and a driving mechanism, wherein the audible and visual alarm is provided with an alarm lamp and an alarm loudspeaker; the container is provided with a transparent outer wall and a sound transmission port, the audible and visual alarm is arranged in the container, the alarm lamp is positioned in the perspective range of the transparent outer wall, and the sound transmission port is communicated with the outside of the container; the mounting box is provided with a side opening, and the container is embedded into the mounting box from the side opening; a drive mechanism is disposed within the mounting box, the drive mechanism being coupled to the container and configured to drive the container out of or into the mounting box from the side opening. The application also provides an energy storage container with the audible and visual alarm installation structure. The application aims to solve the technical problem that the alarm sound is difficult to propagate outwards in the installation structure of the audible and visual alarm in the prior art.

Description

Acousto-optic alarm mounting structure and energy storage container

Technical Field

The application belongs to the technical field of energy storage equipment, and particularly relates to an audible and visual alarm mounting structure and an energy storage container.

Background

The container energy storage system mainly comprises a container body, a battery pack, a battery management system, an energy storage converter, an auxiliary control system (a temperature control system, a fire protection system and the like) and the like. The method has the characteristics of high integration level, convenient installation and transportation, short construction period, strong environment adaptability, high intellectualization and the like, and is widely applied. In order to enable the energy storage system in the energy storage container to safely and reliably operate, the container energy storage system in the prior art is provided with a fire protection system, and the loss is mainly reduced to the minimum when the lithium battery is burnt due to thermal runaway.

The fire-fighting system in the container energy-storage system mainly comprises a detection controller, a fire-fighting control host, an audible and visual alarm (bell/lamp), a temperature and smoke sensor, a steel bottle for storing fire-extinguishing medium and the like. The audible and visual alarm is mainly arranged in the protection area and used for warning people in the protection area to evacuate.

In practical application, the outdoor energy storage equipment may be used in severe environments such as sand, rain and snow, etc., so that the installation structure of the audible and visual alarm adopts a completely sealed structure. In general, related components of the audible and visual alarm are integrated in a relatively closed box, and each component of the audible and visual alarm is covered and protected by the relatively closed box, so that rain, snow or sand and dust are prevented from entering the box, and foreign objects entering the box are prevented from easily affecting the normal operation of each component. But this largely prevents the transmission of alarm sounds, which results in the inability to alert the relevant personnel to further fire measures and even serious fire accidents.

Disclosure of Invention

The embodiment of the application aims to provide an audible and visual alarm mounting structure and an energy storage container, so as to solve the technical problem that the audible and visual alarm mounting structure in the prior art is difficult to spread alarm sound.

In order to achieve the above purpose, the application adopts the following technical scheme: there is provided an energy storage container comprising:

the audible and visual alarm is provided with an alarm lamp and an alarm loudspeaker;

the sound-light alarm is arranged in the container, the alarm lamp is positioned in the perspective range of the transparent outer wall, and the sound transmission port is communicated with the outside of the container;

A mounting box having a side opening from which the container is inserted into the mounting box;

A drive mechanism is disposed within the mounting box, the drive mechanism being coupled to the container and configured to drive the container out of or into the mounting box from the side opening.

The sound-light alarm mounting structure provided by the application has the beneficial effects that: compared with the prior art, the container in the audible and visual alarm installation structure adopts an open structure, and the container is provided with the sound transmission opening and the transparent outer wall, so that the alarm sound emitted by the audible and visual alarm arranged in the container can be transmitted outwards through the sound transmission opening, the alarm visual signal can be irradiated outwards through the transparent outer wall, and the transmission effect of the audible and visual signal is ensured.

The sound-light alarm mounting structure is further provided with a storable movable structure, the container is stored in the mounting box, the mounting box is used for being embedded on the energy storage equipment, and a driving mechanism is arranged in the mounting box and can drive the container to extend out of the mounting box. Therefore, under the conventional condition, the audible and visual alarm is hidden on the energy storage equipment; when special conditions, such as fire alarms and the like, occur, the trigger drive mechanism is started, and the container is moved out of the mounting box and extends out of the whole energy storage device. The alarm sound and the alarm visual signal sent by the audible and visual alarm can be transmitted outside the energy storage equipment, so that personnel are reminded to take further measures, and the influence of special conditions such as safety accidents and the like is effectively reduced.

The structure of the driving mechanism is improved, the driving mechanism comprises a driver and a folding frame, and the folding frame is connected with the container; the output end of the driver is connected with the folding frame and can drive the folding frame to do expansion or contraction movement. Therefore, the driver drives the folding frame to stretch and deform and drives the container to move so that the container can be moved out of or retracted into the mounting box.

Optionally, the folding frame includes a pair of branch of alternately setting, the intersection overlap department between a pair of branch is equipped with first pivot, the output of driver connect in first pivot. Therefore, the first rotating shafts are arranged at the crossed and overlapped positions of the pair of support rods, so that the pair of support rods can rotate by taking the first rotating shafts at the overlapped positions as shafts, and the directional deformation effect of stretching, expanding or shrinking and overlapping is realized.

Optionally, a first vertical groove is formed in the container, a second vertical groove parallel to the first vertical groove is formed in the mounting box, a second rotating shaft is arranged at each end of the pair of supporting rods, and the end parts at two ends of the pair of supporting rods are respectively arranged in the first vertical groove and the second vertical groove through the second rotating shaft. Therefore, the end parts at the two ends of the pair of support rods can slide on the first vertical groove and the second vertical groove respectively by utilizing the second rotating shaft, so that the interlocking container is matched with the telescopic deformation action of the pair of support rods and directionally translated in the mounting box.

Optionally, the mounting box is further provided with a transversely arranged travel groove, and the travel groove extends towards the opening direction of the side part of the mounting box; the first rotating shaft on the folding frame is arranged in the travel groove and can reciprocate and translate along the travel groove. Therefore, the travel groove is used as a guide rail and used for limiting the travel of the folding frame for driving the container to move, so that the stability and the positioning accuracy of the container pushed to move are effectively ensured.

In one embodiment, a slide plate is provided within the mounting box for supporting the container, the container resting for movement on the slide plate. The friction between the whole ground of the container and the inner bottom surface of the mounting box is avoided, the contact area and friction force are reduced, the balance supporting effect on the container can be achieved, and the displacement stability of the container is improved.

In another embodiment, a row wheel is provided within the mounting box for supporting the containers, the containers being moved upon the row wheel. Not only plays a role in balancing and supporting the container, but also can improve the displacement smoothness of the container.

The structure of the container is improved, a separation plate is arranged in the container, the interior of the container is separated into an upper cavity and a lower cavity by the separation plate, the audible-visual annunciator is arranged in the upper cavity, the sound transmission opening is formed in the lower cavity, and a plurality of through holes penetrating through the upper cavity and the lower cavity are formed in the separation plate. Therefore, as the sound transmission port is formed in the lower cavity, and the audible and visual alarm is arranged in the upper cavity, the external water liquid can be prevented from entering the upper cavity by utilizing the height difference to influence the audible and visual alarm, and the wading risk is effectively reduced. In addition, through holes on the partition plate are used for communicating the upper cavity and the lower cavity of the container with the outside, so that external air can flow into the container through the sound transmission port and flow into the upper cavity and the lower cavity, and the heat dissipation effect of the audible and visual alarm is improved.

Optionally, a baffle is disposed in the lower chamber, and the baffle is obliquely disposed towards the direction of the sound transmission port. On the one hand, after the outside air or air flow can enter the lower cavity from the sound transmission port, the outside air or air flow is guided into the upper cavity along the guide plate, so that the guiding effect on the channeling heat dissipation air flow is achieved. On the other hand, the guide plate can guide the water possibly entering the container to the sound transmission port, so that the water is discharged from the sound transmission port to the outside of the container, and the guide plate plays a role in guiding and discharging the water.

The application also provides an energy storage container, which comprises the audible and visual alarm mounting structure, wherein the mounting box is arranged on the energy storage container, and the driving mechanism can drive the container to move out of the mounting box and extend out of the energy storage container. Therefore, the audible and visual alarm is hidden on the energy storage container, the driving mechanism is triggered when special conditions occur, the container is moved out of the mounting box by the driving mechanism and extends out of the energy storage container, so that the propagation of audible and visual signals is realized, and surrounding personnel are reminded.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments or the description of the prior art will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic perspective view of an energy storage container according to an embodiment of the present application;

FIG. 2 is a schematic diagram of an installation structure of an audible and visual alarm according to an embodiment of the present application;

Fig. 3 is a schematic perspective view of a container with an audible and visual alarm provided in an embodiment of the present application;

Fig. 4 is a schematic diagram of an extension state of an audible and visual alarm on an energy storage container according to an embodiment of the present application;

Fig. 5 is a schematic diagram of a storage state of an audible and visual alarm on an energy storage container according to an embodiment of the present application;

FIG. 6 is a schematic diagram of an assembled structure of a container and a mounting box according to an embodiment of the present application;

Fig. 7 is a schematic structural diagram of a container according to an embodiment of the present application in a state of being received in a mounting box;

FIG. 8 is a schematic view showing a state structure of a container according to an embodiment of the present application being output outside a mounting box;

fig. 9 is a schematic perspective view of a mounting box according to an embodiment of the present application;

Fig. 10 is a schematic diagram II of a three-dimensional structure of a container with an audible and visual alarm built-in according to an embodiment of the present application;

FIG. 11 is a schematic view of an exploded structure of a container according to an embodiment of the present application;

fig. 12 is a schematic view of the internal structure of a container according to an embodiment of the present application.

Wherein, each reference sign in the figure:

100-an energy storage container;

200-an audible and visual alarm mounting structure;

1-an audible and visual alarm;

2-a container; 21-a transparent outer wall; 22-sound transmission port; 23-a first vertical slot; 24-dividing plates; 241-through holes; 25-upper chamber; 26-a lower chamber; 261-mesh; 27-a deflector;

3-mounting boxes; 31-side opening; 32-a second vertical slot; 33-stroke groove; 34-skateboard;

4-a driving mechanism; 41-a driver; 42-folding frames; 421-a pair of struts; 422-a first spindle; 423-a second rotating shaft.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear, the application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the application.

It will be understood that when an element is referred to as being "mounted" or "disposed" on another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

It is to be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are merely for convenience in describing and simplifying the description based on the orientation or positional relationship shown in the drawings, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus are not to be construed as limiting the application.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present application, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

The fire-fighting system in the container energy-storage system mainly comprises a detection controller, a fire-fighting control host, an audible and visual alarm (bell/lamp), a temperature and smoke sensor, a steel bottle for storing fire-extinguishing medium and the like. The audible and visual alarm is mainly arranged in the protection area and used for warning people in the protection area to evacuate.

The outdoor energy storage equipment such as an energy storage container and the like can be used in severe environments such as sand wind, rain and snow and the like, so that the installation structure of the audible and visual alarm adopts a completely sealed structure. Conventionally, related components of the audible and visual alarm are integrated in a relatively closed box, and each component of the audible and visual alarm is covered and protected by the relatively closed box, so that rain, snow or sand and dust are prevented from entering the box, foreign objects such as rainwater, sand and the like entering the box are avoided, and the normal operation of each component is easily influenced.

But this largely prevents the transmission of alarm sounds, which results in the inability to alert the relevant personnel to further fire measures and even serious fire accidents. Meanwhile, the airtight structure is unfavorable for heat dissipation of all parts of the audible and visual alarm, so that the internal temperature is too high, all parts cannot normally operate, and the service life is influenced.

The embodiment of the application provides a novel audible and visual alarm mounting structure and an energy storage container, which can effectively solve the technical problem that the conventional audible and visual alarm mounting structure is difficult to spread the alarm sound outwards. The audible and visual annunciator mounting structure may be provided on conventional energy storage devices, particularly outdoor energy storage devices such as energy storage containers. The energy storage container will be described in detail as an example.

Referring to fig. 1, an embodiment of an audible and visual annunciator mounting structure 200 is provided on an energy storage container 100. In this embodiment, the audible and visual annunciator mounting structure 200 is preferably disposed on a side portion of the energy storage container 100, such as a significant portion above a door of the energy storage container 100, for easy viewing by personnel. In other embodiments, may also be provided on top of the energy storage container 100. The specific configuration may be set according to practical application requirements, and is not particularly limited herein.

Referring to fig. 2 and 3, the audible and visual annunciator mounting structure 200 includes an audible and visual annunciator 1, a container 2, a mounting box 3, and a driving mechanism 4.

The audible and visual alarm 1 is arranged in the container 2, and the audible and visual alarm 1 is integrated with an alarm lamp and an alarm horn, so that the audible and visual alarm can be controlled to emit alarm sound or the alarm lamp can be lightened and can emit visual signals. The acousto-optic signal on the audible and visual annunciator 1 can be activated simultaneously or alternatively, and is not particularly limited herein. In this embodiment, the audible and visual alarm 1 is provided in plurality and is orderly arranged in the container 2.

The container 2 is preferably a rectangular box body, and a cuboid or square structure can be adopted according to the arrangement layout of the audible and visual alarm 1 so as to improve the space utilization rate.

The container 2 is provided with a transparent outer wall 21 and a sound transmission port 22, the alarm lamp of the audible and visual alarm 1 is positioned in the perspective range of the transparent outer wall 21, and the sound transmission port 22 is communicated with the outside of the container 2. The transparent outer wall 21 of the container 2 may be made of transparent acrylic plates, and may be formed by enclosing a plurality of acrylic plates, and the joints between the plates are adhered by sealant.

The mounting box 3 is intended to be arranged on an energy storage device, such as the energy storage container 100 of the present embodiment. The mounting box 3 has a side opening 31, and the container 2 can be fitted into the mounting box 3 through the side opening 31.

A drive mechanism 4 is provided within the mounting box 3, the drive mechanism 4 being connected to the container 2 and being adapted to drive the container 2 out of the mounting box 3 from a side opening 31 of the mounting box 3 and out of the exterior of the energy storage container 100, as shown in fig. 4; or the container 2 is retracted into the mounting box 3 so that it is hidden from view on the storage container 100, as shown in fig. 5.

Compared with the prior art, the installation structure 200 of the audible and visual alarm 1 provided by the embodiment of the application has the advantages that the container 2 for accommodating the audible and visual alarm 1 adopts an open structure, the container 2 is provided with the sound transmission port 22 and the transparent outer wall 21, so that the alarm sound emitted by the audible and visual alarm 1 arranged in the container 2 can be transmitted outwards through the sound transmission port 22, and the alarm visible signal can be irradiated outwards through the transparent outer wall 21, so that the transmission effect of the audible and visual signal is effectively ensured.

For use in outdoor severe environments, the installation structure 200 of the audible and visual alarm 1 of the application is also provided with a stowable movable structure, the container 2 is housed in the installation box 3, the installation box 3 is used for being embedded on energy storage equipment such as the energy storage container 100, a driving mechanism 4 is arranged in the installation box 3, and the driving mechanism 4 can drive the container 2 to extend out of the installation box 3. In this way, in the conventional case, the audible and visual alarm 1 is hidden on the energy storage device; when a special situation occurs, such as a fire alarm or the like, the trigger drive mechanism 4 is activated and the container 2 is moved out of the mounting box 3 and out of the whole energy storage device. The alarm sound and alarm visual signals sent by the audible and visual alarm 1 can be transmitted outside the energy storage equipment, so that personnel are reminded to take further measures, and the influence of special conditions such as safety accidents and the like is effectively reduced.

With respect to the structure of the drive mechanism 4, in one embodiment of the present application, referring to fig. 6, the drive mechanism 4 includes a driver 41 and a folding leg 42, the folding leg 42 being connected to the container 2. The output of the driver 41 is connected to the folding frame 42 and is capable of driving the folding frame 42 to perform an expanding or contracting movement.

In this embodiment, as shown in fig. 6, the driving mechanism 4 includes two sets of folding frames 42, where each set of folding frames 42 is connected to the back of the container 2, and the driver 41 is connected to at least one set of folding frames 42, and the driver 41 may preferably be a linear cylinder. The container 2 can be synchronously driven to displace in the mounting box 3 under the driving of the driver 41.

In this way, the actuator 41 drives the folding frame 42 to deform telescopically and drive the container 2 to displace, so that the container 2 can be moved out of or retracted into the mounting box 3.

In the embodiment of the present application, referring to fig. 7 and 8, the folding frame 42 includes a pair of struts 421 disposed in a crossing manner, a first shaft 422 is disposed at a crossing and overlapping portion between the pair of struts 421, and an output end of the driver 41 is connected to the first shaft 422, so that the pair of struts 421 can rotate about the first shaft 422 at the overlapping portion to achieve an expansion or contraction and overlapping directional deformation effect.

Since the folding frame 42 needs to be deformed in a telescopic manner during driving, two ends of the folding frame 42 need to be movably connected with the container 2 and the mounting box 3 respectively, so as to drive the container 2 to translate in the mounting box 3. In this regard, in the embodiment of the present application, referring to fig. 7, 8 and 9, the container 2 is provided with a first vertical groove 23, and the mounting box 3 is provided with a second vertical groove 32, and the first vertical groove 23 is parallel to the second vertical groove 32. The second rotating shafts 423 are disposed at the respective ends of the pair of supporting rods 421, and the ends of the two ends of the pair of supporting rods 421 are disposed in the first vertical groove 23 and the second vertical groove 32 through the second rotating shafts 423, respectively.

In this way, the ends of the pair of struts 421 can slide on the first vertical groove 23 and the second vertical groove 32 by the second rotation shaft 423, respectively, and the interlocking container 2 is moved in the mounting case 3 in an oriented manner in accordance with the expansion/contraction deformation operation of the pair of struts 421.

In the present embodiment, the expansion and contraction deformation operation of the pair of struts 421 is set as follows: the container 2 is pushed out of the mounting box 3 when the pair of the struts 421 are expanded and expanded, and the container 2 is pulled back into the mounting box 3 when the pair of the struts 421 are contracted and overlapped.

In the embodiment of the present application, referring to fig. 6, 8 and 9, the mounting box 3 is further provided with a laterally disposed travel groove 33, and the travel groove 33 extends toward the side opening 31 of the mounting box 3. The first rotating shaft 422 on the folding frame 42 is disposed in the travel groove 33 and can reciprocate along the travel groove 33 under the driving of the driver 41.

In this way, the travel groove 33 serves as a guide rail and is used for limiting the travel of the folding frame 42 for driving the container 2 to move, so that the stability and positioning accuracy of the container 2 pushed and moved are effectively ensured.

Wherein the length of the travel groove 33 is matched with the displacement range of the container 2. In the present embodiment, the driver 41 is preferably a linear cylinder and is disposed in parallel with the extending direction of the stroke groove 33. The driver 41 drives the first shaft 422 to reciprocate in the travel groove 33, and when the entire container 2 is accommodated in the mounting box 3, the first shaft 422 moves to one end of the travel groove 33; when the container 2 is completely pushed out of the mounting box 3, the first spindle 422 moves to the other end of the stroke groove 33. In this way, both ends of the travel groove 33 can be used as the end of the extending or receiving movement of the container 2, which is advantageous for positioning the moving position of the container 2.

In practical application, the container 2 is accommodated in the mounting box 3, and the bottom surface of the container 2 rubs against the inner bottom surface of the mounting box 3, so that a damping force is formed, the driver 41 needs to output a relatively large power to drive the folding frame 42 to deform, and then drive the container 2 to move, so that the smoothness of the driven displacement of the container 2 is affected, and the container 2 is easy to block and difficult to be moved out of the mounting box 3, and cannot work normally.

In this regard, in one embodiment of the present application, referring to fig. 8 and 9 together, a sliding plate 34 for supporting the container 2 is provided in the mounting box 3, and the container 2 is placed on the sliding plate 34 to move, so that the entire floor of the container 2 is prevented from rubbing against the inner bottom surface of the mounting box 3.

In this embodiment, the slide plate 34 is provided on both side walls inside the mounting box 3, and a highly isolated space is provided between the slide plate 34 and the inner bottom surface of the mounting box 3. The sliding plates 34 on the two side walls extend in parallel, and each sliding plate 34 is respectively contacted with the bottom edge of the container 2. The balance supporting function of the container 2 is achieved, the displacement stability of the container 2 is improved, and the contact area and friction force can be further reduced. The driving force of the driver 41 is advantageously reduced, so that a linear cylinder with ordinary output power can be adopted, and the production cost is effectively reduced.

In another embodiment of the application (not shown), a row wheel (not shown) is provided in the mounting box 3 for supporting the containers 2, on which the containers 2 rest for movement. Not only plays a role of balancing and supporting the container 2, but also can improve the displacement smoothness of the container 2.

In this embodiment, the row of rollers may be understood as a row of rollers orderly arranged on inner walls of two sides of the installation box 3, where the row of rollers is spaced from an inner bottom surface of the installation box 3, and each roller has the same size and can independently operate, so that each roller can synchronously abut against the bottom surface of the container 2, and further the smoothness of the driven displacement of the container 2 is improved.

As for the structure of the container 2, referring to fig. 10, 11 and 12, in one embodiment of the present application, a partition plate 24 is provided in the container 2, and the partition plate 24 divides the interior of the container 2 into an upper chamber 25 and a lower chamber 26. The audible and visual alarm 1 is arranged in the upper chamber 25, and at least three side walls on the upper chamber 25 are transparent outer walls 21, so that visual signals sent by an alarm lamp of the audible and visual alarm 1 can be transmitted through external perspective irradiation. The sound transmission port 22 is formed in the lower chamber 26, and the side wall of the lower chamber 26 may be preferably provided with a mesh 261, and the mesh 261 may be used as a sound transmission hole or a flow hole of heat dissipation air flow.

Accordingly, since the sound transmission port 22 is formed in the lower chamber 26, the audible and visual annunciator 1 is arranged in the upper chamber 25, external water can be prevented from entering the upper chamber 25 by utilizing the height difference, the audible and visual annunciator 1 is influenced, and the wading risk is reduced.

The partition plate 24 has a plurality of through holes 241 penetrating the upper chamber 25 and the lower chamber 26, and the through holes 241 communicate the upper chamber 25 and the lower chamber 26 of the container 2 with the outside so that the outside air can flow into the container 2 through the sound-transmitting port 22 and flow into the upper chamber 25 and the lower chamber 26, which is advantageous for improving the heat radiation effect of the audible and visual alarm 1.

In this embodiment, referring to fig. 12, a baffle 27 is further disposed in the lower chamber 26 of the container 2, the baffle 27 and the sound transmission port 22 are respectively located at two opposite sides of the lower chamber 26, and the baffle 27 is disposed obliquely to the direction of the sound transmission port 22.

In this way, the deflector 27 can serve two functions. On the one hand, the outside air or air flow can enter the lower chamber 26 from the sound transmission port 22 and be guided into the upper chamber 25 along the guide plate 27, so that the guiding effect of the entering heat dissipation air flow is achieved.

On the other hand, the baffle 27 guides the water possibly flowing into the interior of the container 2 to the sound-transmitting port 22, and discharges the water from the sound-transmitting port 22 to the outside of the container 2, thereby guiding and discharging the water.

The foregoing description of the preferred embodiments of the application is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the application.

Claims (10)

1. An audible and visual alarm mounting structure for setting up on energy storage device, its characterized in that includes:

the audible and visual alarm is provided with an alarm lamp and an alarm loudspeaker;

the sound-light alarm is arranged in the container, the alarm lamp is positioned in the perspective range of the transparent outer wall, and the sound transmission port is communicated with the outside of the container;

A mounting box having a side opening from which the container is inserted into the mounting box;

A drive mechanism is disposed within the mounting box, the drive mechanism being coupled to the container and configured to drive the container out of or into the mounting box from the side opening.

2. The audible and visual annunciator mounting structure of claim 1, wherein: the driving mechanism comprises a driver and a folding frame, and the folding frame is connected with the container; the output end of the driver is connected with the folding frame and can drive the folding frame to do expansion or contraction movement.

3. The audible and visual annunciator mounting structure of claim 2, wherein: the folding frame comprises a pair of supporting rods which are arranged in a crossing mode, a first rotating shaft is arranged at the crossing and overlapping position between the pair of supporting rods, and the output end of the driver is connected to the first rotating shaft.

4. An audible and visual annunciator mounting structure according to claim 3, characterized in that: the container is provided with a first vertical groove, the mounting box is provided with a second vertical groove parallel to the first vertical groove, each end part of the pair of support rods is provided with a second rotating shaft, and the end parts at two ends of the pair of support rods are respectively arranged in the first vertical groove and the second vertical groove through the second rotating shafts.

5. An audible and visual annunciator mounting structure according to claim 3, characterized in that: the mounting box is also provided with a transversely arranged travel groove which extends towards the opening direction of the side part of the mounting box; the first rotating shaft on the folding frame is arranged in the travel groove and can do reciprocating translation along the travel groove.

6. The audible and visual annunciator mounting structure of claim 1, wherein: a slide plate for supporting the container is arranged in the mounting box, and the container is placed on the slide plate to move.

7. The audible and visual annunciator mounting structure of claim 1, wherein: a row wheel for supporting the container is arranged in the mounting box, and the container is placed on the row wheel to move.

8. The audible and visual annunciator mounting structure according to any one of claims 1-7, characterized in that: the inside of the container is divided into an upper cavity and a lower cavity by the partition plate, the audible-visual annunciator is arranged in the upper cavity, the sound transmission opening is arranged on the lower cavity, and the partition plate is provided with a plurality of through holes which penetrate through the upper cavity and the lower cavity.

9. The audible and visual annunciator mounting structure of claim 8, and further characterized by: the lower chamber is internally provided with a guide plate which is obliquely arranged towards the direction of the sound transmission opening.

10. An energy storage container comprising an audible and visual alarm mounting structure as claimed in any one of claims 1 to 9, said mounting box being provided on said energy storage container, said drive mechanism being capable of driving said container out of said mounting box and out of said energy storage container.