CN113949125A - UPS battery charging overheat remote alarm device - Google Patents

Abstract

The invention discloses a UPS storage battery charging overheat remote alarm device, which relates to the technical field of UPS storage batteries and comprises a storage battery shell, a bottom surface overheat detection assembly and a side surface overheat detection assembly, wherein an upper cover is arranged above the storage battery shell, a handle is fixed above the upper cover, an inner core assembly is arranged inside the storage battery shell, a lower mounting groove is formed in the lower portion of the inner part of the storage battery shell, the bottom surface overheat detection assembly is arranged inside the lower mounting groove and positioned at the lower side of the inner core assembly, moving assemblies are arranged on the left side and the right side of the front side and the rear side inside the storage battery shell, and the side surface overheat detection assembly is arranged on the front side and the rear side inside the storage battery shell. This UPS battery overheated remote alarm device that charges can carry out temperature detection to the front and back both sides face and the bottom surface of the inside inner core assembly of battery case to detection range is wider, but remote alarm moreover, and the security is higher.

Description

UPS battery charging overheat remote alarm device

Technical Field

The invention relates to the technical field of UPS storage batteries, in particular to a remote alarm device for charging overheating of a UPS storage battery.

Background

The UPS storage battery is called an uninterruptible power supply, because the UPS storage battery can be quickly converted into an 'inversion' state when power is cut off, so that a computer in use cannot lose important files because the computer cannot be stored in time due to sudden power failure. Generally, the factor that greatly affects battery life is ambient temperature. The battery temperature during charging is controlled within a range of-15C to + 40C. And therefore encounters a temperature at which it is charged.

When the conventional UPS storage battery is charged and overheated, the temperature of each surface in the storage battery cannot be detected, and the conventional UPS storage battery also has a remote alarm function, so that the safety is insufficient.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a UPS storage battery charging overheating remote alarm device, which solves the problems in the background technology.

In order to achieve the purpose, the invention is realized by the following technical scheme: a UPS storage battery charging overheating remote alarm device comprises a storage battery shell, a bottom surface overheating detection assembly and a side surface overheating detection assembly, wherein an upper cover is installed above the storage battery shell, a handle is fixed above the upper cover, an inner core assembly is installed inside the storage battery shell, a lower installation groove is formed in the lower portion of the inner portion of the storage battery shell, the bottom surface overheating detection assembly is arranged inside the lower installation groove, the bottom surface overheating detection assembly is located on the lower side of the inner core assembly, moving assemblies are installed on the left side and the right side of the front portion and the rear portion inside the storage battery shell, the side surface overheating detection assembly is arranged on the front side and the rear side inside the storage battery shell and comprises a limiting rod, a sliding sleeve, a first rotating shaft, a moving rod, a micro telescopic rod, a second rotating shaft, a fixed rod, an installation plate, a side surface temperature sensor and a smoke monitoring sensor, the utility model discloses a smog monitoring sensor, including gag lever post, sliding sleeve, telescopic link, mounting panel, side temperature sensor, smog monitoring sensor, the both ends outside of movable rod is installed to the outside slidable mounting of gag lever post has the sliding sleeve, and the middle part outside of sliding sleeve is provided with first pivot, the externally mounted of first pivot has the movable rod, and the both ends inboard of movable rod installs miniature telescopic link, miniature telescopic link's top is fixed with the dead lever, and the upper and lower both ends of dead lever all rotate through the second pivot and install the mounting panel, side temperature sensor is all installed to the front and back both sides face of mounting panel, smog monitoring sensor is installed in the both ends outside of movable rod.

Optionally, the inner core subassembly includes side guard plate, negative plate, positive plate, baffle and seal material, the side guard plate is located the inside left and right sides of battery case, and installs negative plate and positive plate in the middle of the inside of battery case respectively, be provided with the baffle between the inside adjacent inner core of battery case, and the inside top of battery case is filled there is the seal material.

Optionally, the two sides of the upper part of the storage battery shell are respectively fixed with a negative pole column and a positive pole column, and the negative pole column, the positive pole column and the inner core assembly are electrically connected.

Optionally, the bottom surface overheat detection assembly comprises a heat conduction sheet, a bottom temperature sensor and a wireless signal transmitter, the bottom temperature sensor is arranged on the lower side of the heat conduction sheet, and the wireless signal transmitter is arranged below the bottom temperature sensor.

Optionally, the moving assembly comprises a motor, a threaded screw rod, a threaded sleeve and a connecting rod, the threaded screw rod is mounted above one side of a motor shaft of the motor, the threaded sleeve is arranged on the outer side of the threaded screw rod, and the connecting rod is mounted on one side of the threaded sleeve, which is close to the side overheating detection assembly.

Optionally, the threaded sleeve forms an integrated structure with the sliding sleeve through the connecting rod, and the symmetry center of the sliding sleeve coincides with the symmetry center of the limiting rod sliding sleeve.

Optionally, an indicator light is disposed on the outer side of the battery case, and the indicator light is electrically connected with the wireless signal transmitter.

Optionally, two sets of upper and lower are symmetrically arranged between the mounting plates about the transverse center line of the movable rod, and the movable rod is rotatably connected with the sliding sleeve through a first rotating shaft.

Optionally, the wireless signal transmitter is connected with the remote alarm system unit, and the remote alarm system unit includes temperature monitoring module, smog monitoring module, signal transmission module, remote control terminal, overheated alarm module and auto-power-off module, signal transmission module links to each other with temperature monitoring module and smog monitoring module, and signal transmission module's output is connected with remote control terminal, remote control terminal links to each other with overheated alarm module, and remote control terminal and overheated alarm module's output are connected with the auto-power-off module.

Optionally, the bottom temperature sensors are equidistantly distributed below the inner core assembly, and the bottom temperature sensors and the side temperature sensors are electrically connected with the temperature monitoring module.

The invention provides a UPS storage battery charging overheating remote alarm device, which has the following beneficial effects:

this UPS battery overheated remote alarm device that charges can carry out temperature detection to the front and back both sides face and the bottom surface of the inside inner core assembly of battery case to detection range is wider, but remote alarm moreover, and the security is higher.

1. This UPS battery charging overheat remote alarm device is provided with the overheated detection subassembly in bottom surface, and the conducting strip can be with the leading-in to bottom temperature sensor position of the heat of inner core subassembly bottom, detects to inner core subassembly bottom temperature detection by bottom temperature sensor, and three bottom temperature sensors of group that the equidistance distributes can carry out temperature detection to the different positions of inner core subassembly bottom, and the pilot lamp can carry out the scintillation suggestion when the high temperature.

2. This UPS battery charges overheated remote alarm device is provided with the removal subassembly, can drive the rotation of screw lead screw through the motor to can drive reciprocating of threaded sleeve, threaded sleeve passes through to constitute the integral structure between connecting rod and the sliding sleeve, make threaded sleeve can drive reciprocating of three sliding sleeves of group through the connecting rod, so that carry out temperature detection through the different positions of side temperature sensor to the side of the inner core subassembly.

3. This overheated remote alarm device of UPS battery charging is provided with the overheated determine module in side, first pivot and second pivot are all through the micro motor drive, can drive the rotation of movable rod through micro motor and first pivot, thereby be convenient for drive the mounting panel activity of the movable rod left and right sides, increase temperature detection range, be convenient for the front and back position of flexible adjustment dead lever through miniature telescopic link, make the inboard side temperature sensor in dead lever top mounting panel can closely laminate with inner core assembly side.

4. This overheated remote alarm device of UPS battery charging is provided with the overheated detection subassembly in side, be convenient for drive the upset of mounting panel through micro motor and second pivot, flexible removal through miniature telescopic link conveniently provides certain space for the upset of mounting panel, thereby be convenient for overturn the side temperature sensor who changes another side when the side temperature sensor of one side damages, can carry out smog detection to battery case inside through smoke monitoring module, so that warn when the circumstances such as short circuit smoking appear, the security is improved.

5. The UPS storage battery charging overheating remote alarm device is provided with a remote alarm system unit, a temperature monitoring module is connected with a bottom temperature sensor and a side temperature sensor and can collect temperature monitoring data, a smoke monitoring module is connected with a smoke monitoring sensor and can collect smoke monitoring data, a wireless signal transmitter can transmit the monitoring data to a remote control terminal through a signal transmission module and store the data for real-time display, an overheating alarm module can give an alarm when the temperature data is too high, and a charging power supply is cut off through an automatic power-off module, thereby avoiding the situation that the UPS storage battery is damaged due to overheating, and the UPS storage battery can be cooled through external heat dissipation equipment, meanwhile, the overheating alarm module can also alarm in time when the smoke monitoring module detects smoke, so that the smoke condition can be detected and maintained in time.

Drawings

FIG. 1 is a front view of the external structure of the battery case according to the present invention;

FIG. 2 is a schematic view showing a cross-sectional view of the inside of a battery case according to the present invention;

FIG. 3 is a schematic cross-sectional view of the inner wall of the battery case according to the present invention;

FIG. 4 is a schematic top view of a side overheat detection module according to the present invention;

FIG. 5 is an enlarged view of the structure at A in FIG. 3 according to the present invention;

fig. 6 is a schematic structural diagram of a remote alarm system unit according to the present invention.

In the figure: 1. a battery case; 2. an upper cover; 3. a handle; 4. an inner core assembly; 401. a side guard plate; 402. a negative plate; 403. a positive plate; 404. a partition plate; 405. sealing the material; 5. a negative pole post; 6. a positive post; 7. a lower mounting groove; 8. a bottom surface overheat detection unit; 801. a heat conductive sheet; 802. a bottom temperature sensor; 803. a wireless signal transmitter; 9. a moving assembly; 901. a motor; 902. a threaded lead screw; 903. a threaded sleeve; 904. a connecting rod; 10. a side overheat detection assembly; 1001. a limiting rod; 1002. a sliding sleeve; 1003. a first rotating shaft; 1004. a movable rod; 1005. a miniature telescopic rod; 1006. fixing the rod; 1007. a second rotating shaft; 1008. mounting a plate; 1009. a side temperature sensor; 1010. a smoke monitoring sensor; 11. an indicator light; 12. a remote alarm system unit; 1201. a temperature monitoring module; 1202. a smoke monitoring module; 1203. a signal transmission module; 1204. a remote control terminal; 1205. an overheating alarm module; 1206. and an automatic power-off module.

Detailed Description

Referring to fig. 1 to 6, the present invention provides a technical solution: the utility model provides a UPS battery charging overheat remote alarm device, including battery case 1, overheated detection subassembly 8 in bottom surface and overheated detection subassembly 10 in side, battery case 1's top is installed upper cover 2, and the top of upper cover 2 is fixed with handle 3, battery case 1's internally mounted has inner core assembly 4, and battery case 1's inside below is provided with lower mounting groove 7, overheated detection subassembly 8 in bottom surface sets up in the inside of lower mounting groove 7, and overheated detection subassembly 8 in bottom surface is located the downside of inner core assembly 4, battery case 1 is inside, the left and right sides in front and at the back installs removal subassembly 9, overheated detection subassembly 10 in side is settled in battery case 1 is inside front and back side, and overheated detection subassembly 10 in side includes gag lever post 1001, sliding sleeve 1002, first pivot 1003, movable rod 1004, miniature telescopic link 1005, second pivot 1006, dead lever 1007, mounting panel 1008, mounting panel 1006, the side is installed to overheated detection subassembly 10, Side temperature sensor 1009 and smog monitoring sensor 1010, the outside slidable mounting of gag lever post 1001 has sliding sleeve 1002, and the middle part outside of sliding sleeve 1002 is provided with first pivot 1003, the externally mounted of first pivot 1003 has movable rod 1004, and miniature telescopic link 1005 is installed to the both ends inboard of movable rod 1004, the top of miniature telescopic link 1005 is fixed with dead lever 1006, and the upper and lower both ends of dead lever 1006 all rotate through second pivot 1007 and install mounting panel 1008, side temperature sensor 1009 is all installed to the front and back both sides face of mounting panel 1008, smog monitoring sensor 1010 is installed in the both ends outside of movable rod 1004, settle in the outside of battery case 1 has pilot lamp 11, and be electric connection between pilot lamp 11 and the radio signal transmitter 803.

Referring to fig. 2, the inner core assembly 4 includes side guard plates 401, negative plates 402, positive plates 403, separators 404 and a sealing material 405, the side guard plates 401 are located on the left and right sides inside the battery case 1, the negative plates 402 and the positive plates 403 are respectively installed in the middle inside the battery case 1, the separators 404 are arranged between adjacent inner cores inside the battery case 1, and the sealing material 405 is filled above the inside of the battery case 1. A negative pole post 5 and a positive pole post 6 are respectively fixed on two sides above the storage battery shell 1, and the negative pole post 5 and the positive pole post 6 are electrically connected with the inner core assembly 4;

in particular, the negative electrode plate 402 and the positive electrode plate 403 constitute an important component of the core assembly 4, and the negative electrode tab 5 and the positive electrode tab 6 are used for power connection during charging.

Referring to fig. 2, the bottom overheat detecting assembly 8 includes a heat conducting sheet 801, a bottom temperature sensor 802 and a wireless signal transmitter 803, the bottom temperature sensor 802 is disposed on the lower side of the heat conducting sheet 801, and the wireless signal transmitter 803 is disposed below the bottom temperature sensor 802;

the heat conducting sheet 801 can conduct heat at the bottom of the inner core assembly 4 to the position of the bottom temperature sensor 802, the bottom temperature sensor 802 can detect the temperature at the bottom of the inner core assembly 4, and three groups of bottom temperature sensors 802 distributed at equal intervals can detect the temperature at different positions at the bottom of the inner core assembly 4.

Referring to fig. 3, the moving assembly 9 includes a motor 901, a threaded screw 902, a threaded sleeve 903 and a connecting rod 904, the threaded screw 902 is installed above one side of a motor shaft of the motor 901, the threaded sleeve 903 is disposed outside the threaded screw 902, and the connecting rod 904 is installed on one side of the threaded sleeve 903 close to the side overheating detection assembly 10. The threaded sleeve 903 and the sliding sleeve 1002 form an integrated structure through the connecting rod 904, and the symmetry center of the sliding sleeve 1002 is overlapped with the symmetry center of the sliding sleeve 1002 of the limiting rod 1001;

the specific operation is as follows, can drive the rotation of screw lead screw 902 through motor 901 to can drive reciprocating of threaded sleeve 903, threaded sleeve 903 passes through and constitutes the integral structure between connecting rod 904 and the sliding sleeve 1002, make threaded sleeve 903 can drive reciprocating of three sliding sleeves 1002 of group through connecting rod 904, so that carry out temperature detection through the different positions of side temperature sensor 1009 to the side of inner assembly 4.

Referring to fig. 3-5, two sets of upper and lower mounting plates 1008 are symmetrically disposed about a transverse center line of the movable rod 1004, and the movable rod 1004 is rotatably connected to the sliding sleeve 1002 through a first rotating shaft 1003;

the operation is as follows, the first rotating shaft 1003 and the second rotating shaft 1007 are both driven by the micro motor, the micro motor and the first rotating shaft 1003 can drive the movable rod 1004 to rotate, so as to drive the mounting plates 1008 on the left side and the right side of the movable rod 1004 to move, the temperature detection range is enlarged, the micro telescopic rod 1005 is used for conveniently adjusting the front position and the rear position of the fixed rod 1006 in a telescopic manner, so that the side temperature sensor 1009 on the inner side of the mounting plate 1008 at the top end of the fixed rod 1006 can be tightly attached to the side of the inner core component 4, the micro motor and the second rotating shaft 1007 are used for conveniently driving the mounting plate 1008 to turn over, a certain space is conveniently provided for the mounting plate 1008 to turn over through the telescopic movement of the micro telescopic rod 1005, so that the side temperature sensor 1009 on one side can be conveniently turned over and replaced when the side temperature sensor 1009 on the other side is damaged, and the smoke detection can be carried out on the interior of the storage battery shell 1 through the smoke monitoring module 1202, so as to be convenient for warning when short circuit smoke or the like occurs, and the safety is improved.

Referring to fig. 6, the wireless signal transmitter 803 is connected to the remote alarm system unit 12, and the remote alarm system unit 12 includes a temperature monitoring module 1201, a smoke monitoring module 1202, a signal transmission module 1203, a remote control terminal 1204, an overheat alarm module 1205 and an auto power-off module 1206, the signal transmission module 1203 is connected to the temperature monitoring module 1201 and the smoke monitoring module 1202, an output end of the signal transmission module 1203 is connected to the remote control terminal 1204, the remote control terminal 1204 is connected to the overheat alarm module 1205, and output ends of the remote control terminal 1204 and the overheat alarm module 1205 are connected to the auto power-off module 1206; the bottom temperature sensors 802 are equidistantly distributed below the inner core assembly 4, and the bottom temperature sensors 802 and the side temperature sensors 1009 are electrically connected with the temperature monitoring module 1201;

the operation is as follows, the temperature monitoring module 1201 is connected with the bottom temperature sensor 802 and the side temperature sensor 1009, and can collect the temperature monitoring data, the smoke monitoring module 1202 is connected with the smoke monitoring sensor 1010, and can collect the smoke monitoring data, the wireless signal transmitter 803 can transmit the monitoring data to the remote control terminal 1204 through the signal transmission module 1203 and store the data for real-time display, the overheat alarm module 1205 can alarm when the temperature data is too high, and cut off the charging power supply through the automatic power-off module 1206, so as to avoid the situation of overheat damage of the UPS storage battery, and can cool down the UPS storage battery through the external heat dissipation equipment, and the overheat alarm module 1205 can also alarm in time when the smoke monitoring module 1202 detects smoke, so as to detect and maintain the smoke situation in time, the use safety is improved.

To sum up, the inner core assembly 4 is installed inside the battery case 1 of the UPS battery charging overheating remote alarm device, when in use, the negative pole post 5 and the positive pole post 6 are used for power connection during charging, in the charging process, the heat conducting sheet 801 can guide the heat at the bottom of the inner core assembly 4 into the position of the bottom temperature sensor 802, the bottom temperature sensor 802 detects the temperature at the bottom of the inner core assembly 4, and the three sets of bottom temperature sensors 802 distributed at equal intervals can detect the temperature at different positions at the bottom of the inner core assembly 4;

meanwhile, the temperature of different positions of the side surface of the inner core assembly 4 is detected by the side surface temperature sensor 1009, the motor 901 can drive the threaded screw rod 902 to rotate during detection, so that the threaded sleeve 903 can be driven to move up and down, the threaded sleeve 903 and the sliding sleeve 1002 form an integrated structure through the connecting rod 904, the threaded sleeve 903 can drive the three groups of sliding sleeves 1002 to move up and down through the connecting rod 904, the micro motor and the first rotating shaft 1003 can drive the movable rod 1004 to rotate, so that the mounting plates 1008 on the left side and the right side of the movable rod 1004 can be driven to move, the temperature detection range is enlarged, and the temperature of different positions of the side surface of the inner core assembly 4 can be detected by the side surface temperature sensor 1009;

in the process, when the side temperature sensor 1009 on the inner side is damaged, the micro motor and the second rotating shaft 1007 can be used for driving the mounting plate 1008 to turn over, a certain space is conveniently provided for the turning over of the mounting plate 1008 through the telescopic movement of the micro telescopic rod 1005, and the front and back positions of the fixing rod 1006 can be conveniently adjusted in a telescopic manner through the micro telescopic rod 1005 after the turning over, so that the side temperature sensor 1009 on the inner side of the mounting plate 1008 at the top end of the fixing rod 1006 can be tightly attached to the side of the inner core assembly 4, and the smoke detection can be carried out on the inner part of the storage battery shell 1 through the smoke monitoring module 1202 during use, so that the alarm can be conveniently carried out when the conditions such as short circuit smoke generation and the like occur, and the safety is improved;

the temperature monitoring module 1201 is connected with the bottom temperature sensor 802 and the side temperature sensor 1009, and can collect temperature monitoring data, the smoke monitoring module 1202 is connected with the smoke monitoring sensor 1010, and can collect smoke monitoring data, then the wireless signal transmitter 803 can transmit the monitoring data to the remote control terminal 1204 through the signal transmission module 1203 and store the data for real-time display, the overheating alarm module 1205 can alarm when the temperature data is too high, and cut off the charging power supply through the automatic power-off module 1206, so as to avoid the situation of damage caused by overheating of the UPS storage battery, and can perform heat dissipation and cooling on the UPS storage battery by controlling external heat dissipation equipment, meanwhile, the overheating alarm module 1205 can also alarm in time when the smoke monitoring module 1202 detects smoke, so as to perform timely detection and maintenance on the smoke emission situation, the use process of the whole UPS storage battery charging overheating remote alarm device is completed.

Claims (10)

1. The UPS storage battery charging overheating remote alarm device is characterized by comprising a storage battery shell (1), a bottom surface overheating detection assembly (8) and a side surface overheating detection assembly (10), wherein an upper cover (2) is installed above the storage battery shell (1), a handle (3) is fixed above the upper cover (2), an inner core assembly (4) is installed inside the storage battery shell (1), a lower installation groove (7) is formed in the lower portion inside the storage battery shell (1), the bottom surface overheating detection assembly (8) is arranged inside the lower installation groove (7), the bottom surface overheating detection assembly (8) is located on the lower side of the inner core assembly (4), moving assemblies (9) are installed on the left side and the right side of the front and the rear side inside the storage battery shell (1), and the side surface overheating detection assembly (10) is installed on the front side and the rear side inside the storage battery shell (1), and the lateral overheating detection component (10) comprises a limiting rod (1001), a sliding sleeve (1002), a first rotating shaft (1003), a movable rod (1004), a micro telescopic rod (1005), a second rotating shaft (1006), a fixed rod (1007), a mounting plate (1008), a lateral temperature sensor (1009) and a smoke monitoring sensor (1010), wherein the sliding sleeve (1002) is slidably mounted outside the limiting rod (1001), the first rotating shaft (1003) is arranged outside the middle of the sliding sleeve (1002), the movable rod (1004) is mounted outside the first rotating shaft (1003), the micro telescopic rod (1005) is mounted on the inner sides of the two ends of the movable rod (1004), the fixed rod (1006) is fixed at the top end of the micro telescopic rod (1005), the mounting plate (1008) is rotatably mounted at the upper end and the lower end of the fixed rod (1006) through the second rotating shaft (1007), and lateral temperature sensors (1009) are mounted on the front side and the rear side of the mounting plate (1008), and smoke monitoring sensors (1010) are arranged on the outer sides of two ends of the movable rod (1004).

2. The UPS storage battery charging overheating remote alarm device according to claim 1, wherein the inner core assembly (4) comprises side protection plates (401), negative plates (402), positive plates (403), separators (404) and sealing materials (405), the side protection plates (401) are located on the left side and the right side of the inside of the storage battery shell (1), the negative plates (402) and the positive plates (403) are respectively installed in the middle of the inside of the storage battery shell (1), the separators (404) are arranged between adjacent inner cores in the storage battery shell (1), and the sealing materials (405) are filled above the inside of the storage battery shell (1).

3. The UPS storage battery charging overheating remote alarm device according to claim 1, wherein a negative pole column (5) and a positive pole column (6) are respectively fixed on two sides of the upper portion of the storage battery shell (1), and the negative pole column (5) and the positive pole column (6) are electrically connected with the inner core assembly (4).

4. The UPS storage battery charging overheating remote alarm device according to claim 1, wherein the bottom surface overheating detection assembly (8) comprises a heat conducting sheet (801), a bottom temperature sensor (802) and a wireless signal transmitter (803), the bottom temperature sensor (802) is arranged on the lower side of the heat conducting sheet (801), and the wireless signal transmitter (803) is installed below the bottom temperature sensor (802).

5. The UPS storage battery charging overheating remote alarm device according to claim 1, wherein the moving assembly (9) comprises a motor (901), a threaded screw rod (902), a threaded sleeve (903) and a connecting rod (904), the threaded screw rod (902) is installed above one side of a motor shaft of the motor (901), the threaded sleeve (903) is arranged on the outer side of the threaded screw rod (902), and the connecting rod (904) is installed on one side, close to the side overheating detection assembly (10), of the threaded sleeve (903).

6. The UPS storage battery charging overheating remote alarm device according to claim 5, wherein the threaded sleeve (903) and the sliding sleeve (1002) form an integrated structure through the connecting rod (904), and the symmetry center of the sliding sleeve (1002) coincides with the symmetry center of the sliding sleeve (1002) of the limiting rod (1001).

7. The UPS storage battery charging overheating remote alarm device according to claim 4, wherein an indicator light (11) is arranged on the outer side of the storage battery housing (1), and the indicator light (11) is electrically connected with the wireless signal transmitter (803).

8. The UPS storage battery charging overheating remote alarm device according to claim 1, wherein the mounting plates (1008) are symmetrically provided with an upper group and a lower group about a transverse center line of the movable rod (1004), and the movable rod (1004) is rotatably connected with the sliding sleeve (1002) through the first rotating shaft (1003).

9. The UPS battery charging overheat remote alarm device of claim 4, characterized in that the wireless signal transmitter (803) is connected to a remote alarm system unit (12), and the remote alarm system unit (12) comprises a temperature monitoring module (1201), a smoke monitoring module (1202), a signal transmission module (1203), a remote control terminal (1204), an overheating alarm module (1205) and an automatic power-off module (1206), the signal transmission module (1203) is connected with the temperature monitoring module (1201) and the smoke monitoring module (1202), the output end of the signal transmission module (1203) is connected with a remote control terminal (1204), the remote control terminal (1204) is connected to an overheating alarm module (1205), and the output ends of the remote control terminal (1204) and the overheating alarm module (1205) are connected with an automatic power-off module (1206).

10. The UPS battery charging overheating remote alarm device according to claim 9, wherein the bottom temperature sensors (802) are equidistantly distributed below the inner core assembly (4), and the bottom temperature sensors (802) and the side temperature sensors (1009) are electrically connected with the temperature monitoring module (1201).

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