Buffer-type 24V and 9.6Ah ferric phosphate lithium cell group
Technical field
The invention belongs to battery pack technical field, be specifically related to a kind of buffer-type 24V and 9.6Ah ferric phosphate lithium cell group.
Background technology
Will be ferric phosphate lithium cell group, the particularly operating straight-flow system real time information of buffer-type 24V and 9.6Ah ferric phosphate lithium cell group, as: voltage, female electric current and voltage is closed in control, charging current, battery information etc., carry out wireless collection by powerful mobile network and be uploaded to backstage to reach intelligent management, a kind of buffer-type 24V and 9.6Ah ferric phosphate lithium cell group have so just been proposed, it comprises AC distribution module, battery pack, for the charging module of described batteries charging, the monitoring module being connected with described battery pack and charging module, and wireless communication module and output module, the input of described AC distribution module connects AC power, and its output connects described charging module, in order to provide electric energy to charging module, described monitoring module comprises voltage monitoring unit, current monitoring unit, insulating monitoring unit and temperature monitoring unit, in order to monitor respectively voltage, electric current, insulating properties and the temperature of battery pack, described wireless communication module is connected with described monitoring module, in order to monitor signal is sent to Surveillance center, the input of described output module connects described battery pack, and described battery pack electric energy is exported by the first output.
But in use, wireless communication module is generally set up in the container that is positioned at operating room, and on-the-spot often have some wireless communication modules and be all set up in the container that is positioned at operating room, when must carrying out start and stop to wireless communication module, just must be the pull-out of the front shroud of the container of each correspondence to carry out wireless communication module start and stop, but when operating room's vigour parts are more and more, clear area will be fewer and feweri, front shroud pull-out just must take more interval; If wireless communication module quantity increases described container framework and is not easy towards operating room to realize efficient execution by not high expense in addition.
Be exactly that container temperature rise in the time that wireless communication module moves obtains very fast in addition, but also there is no now cooling device, and in container start and stop wireless communication module inconvenience, easily occur colliding with protecting without buffer device while adding mobile radio communication module.
Summary of the invention
Object of the present invention provides a kind of buffer-type 24V and 9.6Ah ferric phosphate lithium cell group, avoided front shroud pull-out in prior art just must take more interval, wireless communication module quantity increase container framework be not easy to come towards operating room the not high expense of use realize efficient execution, container and also there is no cooling device, in container start and stop wireless communication module inconvenience, easily there is the defect of colliding with and protecting without buffer device while adding mobile radio communication module.
In order to overcome deficiency of the prior art, the invention provides the solution of a kind of buffer-type 24V and 9.6Ah ferric phosphate lithium cell group, specific as follows:
A kind of buffer-type 24V and 9.6Ah ferric phosphate lithium cell group, comprise AC distribution module, battery pack, the charging module for described batteries charging, the monitoring module being connected with described battery pack and charging module, and wireless communication module and output module; The input of described AC distribution module connects AC power, and its output connects described charging module, in order to provide electric energy to charging module; Described monitoring module comprises voltage monitoring unit, current monitoring unit, insulating monitoring unit and temperature monitoring unit, in order to monitor respectively voltage, electric current, insulating properties and the temperature of battery pack; Described wireless communication module is connected with described monitoring module, in order to monitor signal is sent to Surveillance center; The input of described output module connects described battery pack, and described battery pack electric energy is exported by the first output;
Described wireless communication module quantity is more than two in addition, all described wireless communication modules are arranged in container, described container contains container body A9 and is erected at the first wireless communication module A94 that is positioned at one side and the second wireless communication module A95 that is positioned at another side in the region in container body A9, described container body A9 upper with on the relative end wall of its back wall with the perforation chamber A91 towards operational staff, the region of described container body A9 the inside connects the first enclosed region and the second enclosed region that offers described the second wireless communication module A95 that A91 both sides, chamber whereabouts is configured to offer described the first wireless communication module A94 separately being in, described the first enclosed region is all closed towards operational staff's part with the relative end wall of its back wall with the second enclosed region whereabouts,
Described the first wireless communication module A94 and the second wireless communication module A95 are respectively via the slide block A940 that is located at its lower end, and A950 carries out from one side reciprocatingly sliding to another side for the chute that allows respectively described the first wireless communication module A94 and the second wireless communication module A95 and then be erected on described container body A9;
On the relative end wall of the same back wall of described container A 9, setting up first for spacing Gou road A92 and second for spacing Gou road A93, described first is higher for the position of spacing Gou road A93 than second for spacing Gou road A92, described first for spacing Gou road A92 and the described second bisection position for spacing Gou road A93 all with spacing hole A923, the top and bottom of described the first wireless communication module A94 is connecting force-applied the first glass bronze flake A942 bending and stretching separately, be connected separately force-applied the second glass bronze flake A952 bending and stretching with the top and bottom of the second wireless communication module A95, described the first glass bronze flake A942 and the second glass bronze flake A952 are used for combining for the corresponding of spacing Gou road A93 for spacing Gou road A92 and second with described first, the A9429 of convergent portion that all straighten with the reverse direction in bottom towards for spacing Gou road its underpart in addition, A9520,
Rely on chute from one side to when the reciprocatingly sliding of another side at described the first wireless communication module A94, described the first glass bronze flake A942 can move for the bottom of spacing Gou road A92 according to described first of correspondence, in addition when described the first wireless communication module A94 moves to described perforation chamber, described the first glass bronze flake A942 combines to carry out spacing to described the first wireless communication module A94 with described spacing hole A923;
Rely on chute from one side to when the reciprocatingly sliding of another side at described the second wireless communication module A95, described the second glass bronze flake A952 can move for the bottom of spacing Gou road A93 according to described second of correspondence, in addition when described the second wireless communication module A95 moves to described perforation chamber, described the second glass bronze flake A952 combines to carry out spacing to described the second wireless communication module A95 with described spacing hole A923;
In described container A 9, setting up and be used for the first wireless communication module A94 and the motor apparatus A81 of described the second wireless communication module A95 from being connected to the lead screw transmission components A 82 of another side with described lead screw transmission components A 82 axles described in transmission separately on one side;
Described lead screw transmission components A 82 contains the first hollow tubular rod piece A 821 and sees through the transfer roller A820 of described the first hollow tubular rod piece A 821, described transfer roller A820 comprise the first roll body A8202 of being wrapped in the first hollow tubular rod piece A 821 and see through described the first hollow tubular rod piece A 821 outwardly and towards the second roll body A8201 extending on one side, the surface of described the first hollow tubular rod piece A 821 is all come to connect with described the first wireless communication module A94 and the second wireless communication module A95 phase silk respectively with silk groove with the surface of described the second roll body A8201, described the first roll body A8202 is erected in described the first hollow tubular rod piece A 821 via rotation seat, one of described the first hollow tubular rod piece A 821 and described the second roll body A8201 is erected at via rotation seat on described container body A9 in addition,
Described transfer roller A820 see through described the first hollow tubular rod piece A 821 outwardly and the horizontal span of end A82021 extending towards another side longer than the horizontal span of described transfer roller A820 remainder, described the first hollow tubular rod piece A 821 same second hollow tubular rod piece A 8210 nearest apart from end A82021 is connected, described motor apparatus A81 is with bull stick A811, described bull stick A811 upwards can relatively move and be connected with the 3rd hollow tubular rod piece A 6 in interlocking mode and in level, on the outer wall of described the 3rd hollow tubular rod piece A 6 with uniform ring the first scarf joint A61 around this outer wall, described the 3rd hollow tubular rod piece A 6 apart from the end A82021 inwall of farthest with uniform ring the second scarf joint A62 around this inwall, between the hollow area of described the 3rd hollow tubular rod piece A 6 the insides, be divided into A620 between corresponding the first interval A621 of described the second scarf joint A62 and other Second Region, in the time that described the 3rd hollow tubular rod piece A 6 moves, can allow described end A82021 be between described Second Region does not but combine with described the second scarf joint A62 in A620, described the first scarf joint A61 combines with described the second hollow tubular rod piece A 8210, described like this motor apparatus A81 can drive described the first hollow tubular rod piece A 821 turns, in the time that described the 3rd hollow tubular rod piece A 6 moves, can also allow described end A82021 be in described the first interval A621 and combine with described the second scarf joint A62, described the first scarf joint A61 separates mutually with described the second hollow tubular rod piece A 8210, and described like this motor apparatus A81 can drive described transfer roller A820 turn,
On described container A 9 surface on one side with air feeder A8102, on the surface of described container A 9 another sides with outlet passageway A8103 and dust block board A8104, described outlet passageway A8103 and dust block board A8104 arrange in opposite directions, on described motor apparatus A81 wall with fin pipe A8101;
On described the 3rd hollow tubular rod member, linear actuator is installed, the clamping equipment phase clamping on the same wall that is erected at described motor apparatus of described linear actuator, can carry out and handle along the center line extension direction of described the 3rd hollow tubular rod member like this;
Described the first glass bronze flake A942 and described the second glass bronze flake A952 come in the face of play cushioning effect for the lower wall on spacing Gou road through the first glass bronze wire A941 and the second glass bronze wire A951 separately;
Described wireless communication module is made up of with single-chip microcomputer is connected therewith respectively input interface circuit, output interface circuit single-chip microcomputer;
Described single-chip microcomputer is STM32F103.
Through such framework, because practical some wireless communication modules need only one connect the framework of cavity, so prevented all wireless communication modules to open separately front shroud and offer the problem that connects chamber; Use in addition a drive disk assembly, need only a motor apparatus, just can complete the transmission to some wireless communication modules, expense is not high; Because under general condition, wireless communication module moves to enclosed region, just can prevent that wireless communication module is impaired; Space to front shroud pull-out also need not have been considered.
Brief description of the drawings
Fig. 1For the structure of buffer-type 24V of the present invention and 9.6Ah ferric phosphate lithium cell groupFigure。
Fig. 2For the signal of container of the present inventionFigure。
Fig. 3For the part signal of container of the present inventionFigure。
Fig. 4For part signal of the present inventionFigure。
Fig. 5For the connection of the 3rd hollow tubular rod member of the present inventionFigure。
Detailed description of the invention
Below in conjunction withAccompanying drawingWith embodiment, summary of the invention is described further:
ReferenceFig. 1-Fig. 5Shown in, buffer-type 24V and 9.6Ah ferric phosphate lithium cell group, comprise AC distribution module, battery pack, the charging module for described batteries charging, the monitoring module being connected with described battery pack and charging module, and wireless communication module and output module; The input of described AC distribution module connects AC power, and its output connects described charging module, in order to provide electric energy to charging module; Described monitoring module comprises voltage monitoring unit, current monitoring unit, insulating monitoring unit and temperature monitoring unit, in order to monitor respectively voltage, electric current, insulating properties and the temperature of battery pack; Described wireless communication module is connected with described monitoring module, in order to monitor signal is sent to Surveillance center; The input of described output module connects described battery pack, and described battery pack electric energy is exported by the first output;
Described wireless communication module quantity is more than two in addition, all described wireless communication modules are arranged in container, described container contains container body A9 and is erected at the first wireless communication module A94 that is positioned at one side and the second wireless communication module A95 that is positioned at another side in the region in container body A9, described container body A9 upper with on the relative end wall of its back wall with the perforation chamber A91 towards operational staff, the region of described container body A9 the inside connects the first enclosed region and the second enclosed region that offers described the second wireless communication module A95 that A91 both sides, chamber whereabouts is configured to offer described the first wireless communication module A94 separately being in, described the first enclosed region is all closed towards operational staff's part with the relative end wall of its back wall with the second enclosed region whereabouts,
Described the first wireless communication module A94 and the second wireless communication module A95 are respectively via the slide block A940 that is located at its lower end, A950 carries out from one side reciprocatingly sliding to another side for the chute that allows respectively described the first wireless communication module A94 and the second wireless communication module A95 and then be erected on described container body A9, like this, described the first wireless communication module A94 and described the second wireless communication module A95 optional slide into described perforation chamber A91 and allow operational staff carry out;
On the relative end wall of the same back wall of described container A 9, setting up first for spacing Gou road A92 and second for spacing Gou road A93, described first is higher for the position of spacing Gou road A93 than second for spacing Gou road A92, described first for spacing Gou road A92 and the described second bisection position for spacing Gou road A93 all with spacing hole A923, the top and bottom of described the first wireless communication module A94 is connecting force-applied the first glass bronze flake A942 bending and stretching separately, be connected separately force-applied the second glass bronze flake A952 bending and stretching with the top and bottom of the second wireless communication module A95, described the first glass bronze flake A942 and the second glass bronze flake A952 are used for combining for the corresponding of spacing Gou road A93 for spacing Gou road A92 and second with described first, the A9429 of convergent portion that all straighten with the reverse direction in bottom towards for spacing Gou road its underpart in addition, A9520,
Rely on chute from one side to when the reciprocatingly sliding of another side at described the first wireless communication module A94, described the first glass bronze flake A942 can move for the bottom of spacing Gou road A92 according to described first of correspondence, in addition when described the first wireless communication module A94 moves to described perforation chamber, described the first glass bronze flake A942 combines to carry out spacing to described the first wireless communication module A94 with described spacing hole A923;
Rely on chute from one side to when the reciprocatingly sliding of another side at described the second wireless communication module A95, described the second glass bronze flake A952 can move for the bottom of spacing Gou road A93 according to described second of correspondence, in addition when described the second wireless communication module A95 moves to described perforation chamber, described the second glass bronze flake A952 combines to carry out spacing to described the second wireless communication module A95 with described spacing hole A923;
In described container A 9, setting up and be used for the first wireless communication module A94 and the motor apparatus A81 of described the second wireless communication module A95 from being connected to the lead screw transmission components A 82 of another side with described lead screw transmission components A 82 axles described in transmission separately on one side;
Here, described lead screw transmission components A 82 contains the first hollow tubular rod piece A 821 and sees through the transfer roller A820 of described the first hollow tubular rod piece A 821, described transfer roller A820 comprise the first roll body A8202 of being wrapped in the first hollow tubular rod piece A 821 and see through described the first hollow tubular rod piece A 821 outwardly and towards the second roll body A8201 extending on one side, here, the surface of described the first hollow tubular rod piece A 821 is all come to connect with described the first wireless communication module A94 and the second wireless communication module A95 phase silk respectively with silk groove with the surface of described the second roll body A8201, described the first roll body A8202 is erected in described the first hollow tubular rod piece A 821 via rotation seat, one of described the first hollow tubular rod piece A 821 and described the second roll body A8201 is erected at via rotation seat on described container body A9 in addition,
Described transfer roller A820 see through described the first hollow tubular rod piece A 821 outwardly and the horizontal span of end A82021 extending towards another side longer than the horizontal span of described transfer roller A820 remainder, described the first hollow tubular rod piece A 821 same second hollow tubular rod piece A 8210 nearest apart from end A82021 is connected, described motor apparatus A81 is with bull stick A811, described bull stick A811 upwards can relatively move and be connected with the 3rd hollow tubular rod piece A 6 in interlocking mode and in level, on the outer wall of described the 3rd hollow tubular rod piece A 6 with uniform ring the first scarf joint A61 around this outer wall, described the 3rd hollow tubular rod piece A 6 apart from the end A82021 inwall of farthest with uniform ring the second scarf joint A62 around this inwall, like this, between the hollow area of described the 3rd hollow tubular rod piece A 6 the insides, be divided into A620 between corresponding the first interval A621 of described the second scarf joint A62 and other Second Region, like this, in the time that described the 3rd hollow tubular rod piece A 6 moves, can allow described end A82021 be between described Second Region does not but combine with described the second scarf joint A62 in A620, described the first scarf joint A61 combines with described the second hollow tubular rod piece A 8210, described like this motor apparatus A81 can drive described the first hollow tubular rod piece A 821 turns, in the time that described the 3rd hollow tubular rod piece A 6 moves, can also allow described end A82021 be in described the first interval A621 and combine with described the second scarf joint A62, described the first scarf joint A61 separates mutually with described the second hollow tubular rod piece A 8210, and described like this motor apparatus A81 can drive described transfer roller A820 turn,
On described container A 9 surface on one side with air feeder A8102, on the surface of described container A 9 another sides with outlet passageway A8103 and dust block board A8104, described outlet passageway A8103 and dust block board A8104 arrange in opposite directions, on described motor apparatus A81 wall with fin pipe A8101;
Described the first glass bronze flake A942 and described the second glass bronze flake A952 come in the face of play cushioning effect for the lower wall on spacing Gou road through the first glass bronze wire A941 and the second glass bronze wire A951 separately.
Described chute is list structure.
Described transfer roller is prism-shaped.
Described dust block board is plastic material.
Described single-chip microcomputer is STM32F103.
Described power supply is battery or the alternating current with transformer.
Described single-chip microcomputer can be replaced by PLC.
In described the 3rd hollow tubular rod piece A 6, linear actuator A52 is installed, clamping equipment phase clamping on the same wall that is erected at described motor apparatus A81 of described linear actuator A52, can carry out and handle along the center line extension direction of described the 3rd hollow tubular rod piece A 6 like this.
Operation principle of the present invention is: when beginning, be that described the first wireless communication module A94 and the second wireless communication module A95 are in separately the first enclosed region of offering described the first wireless communication module A94 and offer in the second enclosed region of described the second wireless communication module A95, when operational staff must carry out start and stop manipulation to described the first wireless communication module A94, described the 3rd hollow tubular rod piece A 6 is just moved on one side, described the first hollow tubular rod piece A 821 is under screw rod transmission, described the first wireless communication module A94 migrates to A91 position, described perforation chamber, after start and stop manipulation finishes, move to again and start place, when operational staff must carry out start and stop manipulation to described the second wireless communication module A95, described the 3rd hollow tubular rod piece A 6 is just moved into another side, described transfer roller A820 is under screw rod transmission, described the second wireless communication module A95 migrates to A91 position, described perforation chamber, after start and stop manipulation finishes, move to again and start place, in addition container need cooling when, just start air feeder A8102 cold air is introduced to container, and heat is sent from outlet passageway, and further strengthen cooling effect by fin pipe A8101.
Through such framework, because some wireless communication modules need only one connect the framework of cavity, so prevented all wireless communication modules to open separately front shroud and offer the problem that connects chamber; Use in addition a drive disk assembly, need only a motor apparatus, just can complete the transmission to some wireless communication modules, expense is not high; Because under general condition, wireless communication module moves to enclosed region, just can prevent that wireless communication module is impaired; Space to front shroud pull-out also need not have been considered. In addition container need cooling when, just start air feeder A8102 cold air introduced to container, and heat is sent from outlet passageway, and further strengthen cooling effect by fin pipe A8101. And the performance that the first glass bronze flake A942 and described the second glass bronze flake A952 reset after deformation and decompression separately after the pressurized of the first glass bronze wire A941 and the second glass bronze wire A951 can play cushioning effect in transmission wireless communication module process. Described single-chip microcomputer is STM32F103. Described power supply is battery or the alternating current with transformer. Described single-chip microcomputer can be replaced by PLC.
The above, it is only preferred embodiment of the present invention, not the present invention is done to any pro forma restriction, although the present invention discloses as above with preferred embodiment, but not in order to limit the present invention, any those skilled in the art, do not departing within the scope of technical solution of the present invention, when can utilizing the technology contents of above-mentioned announcement to make a little change or being modified to the equivalent embodiment of equivalent variations, in every case be not depart from technical solution of the present invention content, according to technical spirit of the present invention, within the spirit and principles in the present invention, the any simple amendment that above embodiment is done, be equal to replacement and improvement etc., within all still belonging to the protection domain of technical solution of the present invention.