CN105720651A

CN105720651A - Cooling type 24V and 9.6Ah lithium iron phosphate battery pack

Info

Publication number: CN105720651A
Application number: CN201610229205.6A
Authority: CN
Inventors: 沈平安
Original assignee: Jiangsu FGY Energy Storage Research Institute Co Ltd
Current assignee: SHIYAN MENGSHI NEW ENERGY TECHNOLOGY Co.,Ltd.
Priority date: 2016-04-13
Filing date: 2016-04-13
Publication date: 2016-06-29
Anticipated expiration: 2036-04-13
Also published as: CN105720651B

Abstract

Disclosed is a cooling type 24V and 9.6Ah lithium iron phosphate battery pack. A charging management circuit is connected with a storage battery; an output filtering circuit and the output end of the storage battery are connected with a change-over switch; the output end of the change-over switch is connected with a second voltage stabilizer and a third voltage stabilizer; a container comprises a container body, and a first wireless communication module positioned on one edge and a second wireless communication module positioned on the other edge of a region in the container body; all the wireless communication modules are mounted in the container; an air outlet channel and an ash blocking board are arranged on the surface of the other side of the container; the air outlet channel and the ash blocking board are arranged in opposite; and a fin pipe is arranged on the wall of motor equipment. By adoption of the lithium iron phosphate battery pack, the following problems existing in the prior art can be avoided: more sections are occupied when the front cover board is pulled out; the number of the wireless communication module is increased, so that the efficient implementation of the container framework oriented to an working room at a low cost cannot be realized easily; and cooling equipment is not available to cool the container.

Description

Cooling type 24V and 9.6Ah ferric phosphate lithium cell group

Technical field

The invention belongs to battery technology field, be specifically related to a kind of cooling type 24V and 9.6Ah ferric phosphate lithium cell group.

Background technology

Will ferric phosphate lithium cell group, particularly cooling type 24V and the operating straight-flow system real time information of 9.6Ah ferric phosphate lithium cell group, as: voltage, female voltage x current 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, thus propose a kind of cooling type 24V and 9.6Ah ferric phosphate lithium cell group, it includes AC distribution module, set of cells, for the charging module that described set of cells is charged, the monitoring module being connected with described set of cells and charging module, and wireless communication module and output module；The input of described AC distribution module connects alternating current power supply, and its outfan connects described charging module, in order to provide electric energy to charging module；Described monitoring module includes voltage monitoring unit, current monitoring unit, insulating monitoring unit and temperature monitoring unit, in order to monitor the voltage of set of cells, electric current, insulating properties and temperature respectively；Described wireless communication module is connected with described monitoring module, in order to send monitor signal to Surveillance center；The input of described output module connects described set of cells, by described set of cells electric energy by the first outfan output.

But in use, wireless communication module is generally set up in the container being positioned at operating room, and scene often has some wireless communication modules and is all set up in the container being positioned at operating room, when must performing start and stop to wireless communication module, just the front shroud of the container of each correspondence must be pulled out to perform 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 additionally container framework described in wireless communication module increasing number is not easy to use not high expense to realize efficiently performing towards operating room.

Also having is exactly that container temperature when wireless communication module runs rises quickly, but currently there are no cooling device.

Summary of the invention

It is an object of the invention to provide a kind of cooling type 24V and 9.6Ah ferric phosphate lithium cell group, it is to avoid in prior art, front shroud pull-out just must take more interval, wireless communication module increasing number container framework is not easy to use towards operating room not high expense to realize efficient execution, container but without the defect of cooling device.

In order to overcome deficiency of the prior art, the invention provides a kind of cooling type 24V and the solution of 9.6Ah ferric phosphate lithium cell group, specific as follows:

A kind of cooling type 24V and 9.6Ah ferric phosphate lithium cell group, including the monitoring module that AC distribution module, set of cells, the charging module that charges for described set of cells are connected with described set of cells and charging module, and wireless communication module and output module；The input of described AC distribution module connects alternating current power supply, and its outfan connects described charging module, in order to provide electric energy to charging module；Described monitoring module includes voltage monitoring unit, current monitoring unit, insulating monitoring unit and temperature monitoring unit, in order to monitor the voltage of set of cells, electric current, insulating properties and temperature respectively；Described wireless communication module is connected with described monitoring module, in order to send monitor signal to Surveillance center；The input of described output module connects described set of cells, by described set of cells electric energy by the first outfan output；

Additionally described wireless communication module quantity is two or more, all of described wireless communication module is arranged in container, described container contains container body A9 and the first wireless communication module A94 and the second wireless communication module A95 being positioned at another side being positioned at one side in the region being erected in container body A9, on described container body A9 with on the relative end wall of its back wall with the lumen therethrough A91 towards operational staff, region inside described container body A9 is each configured to the first enclosed region being supplied to described first wireless communication module A94 and is supplied to second enclosed region of described second wireless communication module A95 being in lumen therethrough A91 both sides whereabouts, described first enclosed region and the second enclosed region whereabouts are all closed towards the part of operational staff with the relative end wall of its back wall；

Described first wireless communication module A94 and the second wireless communication module A95 is respectively via being located at slide block A940, the A950 of its lower end for allowing described first wireless communication module A94 and the second wireless communication module A95 chute being and then erected on described container body A9 carry out from reciprocatingly sliding to another side respectively；

The end wall that the same back wall of described container A 9 is relative sets up first for spacing ditch road A92 and the second for spacing ditch road A93, described first is higher for the position of spacing ditch road A93 than second for spacing ditch road A92, described first is used for the bisection position of spacing ditch road A93 all with spacing hole A923 for spacing ditch road A92 with described second, the top and bottom of described first wireless communication module A94 is each connected to force-applied the first glass bronze flake A942 bent and stretched, force-applied the second glass bronze flake A952 bent and stretched each it is connected to the top and bottom of the second wireless communication module A95, described first glass bronze flake A942 and the second glass bronze flake A952 is used for combining for correspond in spacing ditch road A93 for spacing ditch road A92 and second with described first, the convergent portion A9429 that additionally its underpart is all straightened with the direction reverse towards the bottom for spacing ditch road, A9520；

At described first wireless communication module A94 by chute from while to when the reciprocatingly sliding of another side, described first glass bronze flake A942 can move according to the corresponding described first bottom being used for spacing ditch road A92, additionally when described first wireless communication module A94 moves to described lumen therethrough, described first glass bronze flake A942 combine with described spacing hole A923 perform described first wireless communication module A94 spacing；

At described second wireless communication module A95 by chute from while to when the reciprocatingly sliding of another side, described second glass bronze flake A952 can move according to the corresponding described second bottom being used for spacing ditch road A93, additionally when described second wireless communication module A95 moves to described lumen therethrough, described second glass bronze flake A952 combine with described spacing hole A923 perform described second wireless communication module A95 spacing；

Set up in described container A 9 for the first wireless communication module A94 described in respective transmission and described second wireless communication module A95 from while to the lead screw transmission components A 82 of another side and the motor apparatus A81 that is connected with described lead screw transmission components A 82 axle；

Described lead screw transmission components A 82 is containing the first hollow tubular rod piece A 821 and the transfer roller A820 passing through described first hollow tubular rod piece A 821, the first roll body A8202 that described transfer roller A820 includes being wrapped in the first hollow tubular rod piece A 821 and through described first hollow tubular rod piece A 821 outwardly and towards the second roll body A8201 of extension on one side, the surface of described first hollow tubular rod piece A 821 and the surface of described second roll body A8201 are all come respectively with described first wireless communication module A94 and the second wireless communication module A95 phase wire connection with silk groove, described first roll body A8202 is erected in described first hollow tubular rod piece A 821 via rotation seat, additionally of described first hollow tubular rod piece A 821 and described second roll body A8201 is erected on described container body A9 via rotation seat；

Described transfer roller A820 through described first hollow tubular rod piece A 821 outwardly and the horizontal span of end A82021 that extends towards another side longer than the horizontal span of described transfer roller A820 remainder, described first hollow tubular rod piece A 821 is connected with the second hollow tubular rod piece A 8210 apart from nearest for end A82021 one, described motor apparatus A81 is with bull stick A811, described bull stick A811 upwards can be connected with the 3rd hollow tubular rod piece A 6 relatively movably in the mode of interlocking and in level, with the uniform ring the first scarf joint A61 around this outer wall on the outer wall of described 3rd hollow tubular rod piece A 6, described 3rd hollow tubular rod piece A 6 on the inwall of farthest for end A82021 with the uniform ring the second scarf joint A62 around this inwall, hollow interval inside described 3rd hollow tubular rod piece A 6 is divided into the interval A621 of described second scarf joint A62 corresponding first and other the second interval A620, when described 3rd hollow tubular rod piece A 6 moves, described end A82021 can be allowed to be in the described second interval A620 but do not combine with described second scarf joint A62, described first scarf joint A61 combines with described second hollow tubular rod piece A 8210, so described motor apparatus A81 can drive described first hollow tubular rod piece A 821 turn；When described 3rd hollow tubular rod piece A 6 moves, described end A82021 can also be allowed to be in the described first interval A621 and combine with described second scarf joint A62, with described second hollow tubular rod piece A 8210 phase separately, so described motor apparatus A81 can drive described transfer roller A820 turn to described first scarf joint A61；

With air feeder A8102 on described container A 9 surface on one side, with outlet passageway A8103 and dust block board A8104 on the surface of described container A 9 another side, described outlet passageway A8103 and dust block board A8104 is oppositely arranged, with fin pipe A8101 on described motor apparatus A81 wall.

Through such framework because the some wireless communication modules of practicality need only the framework of a through cavity, so preventing, all wireless communication modules are each opened front shroud and the problem offering lumen therethrough；Additionally use 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, it becomes possible to prevent wireless communication module impaired；To the space of front shroud pull-out without considering.

Accompanying drawing explanation

Fig. 1 is the structure chart of cooling type 24V and the 9.6Ah ferric phosphate lithium cell group of the present invention.

Fig. 2 is the schematic diagram of the container of the present invention.

Fig. 3 is the partial schematic diagram of the container of the present invention.

Fig. 4 is the partial schematic diagram of the present invention.

Fig. 5 is the connection figure of the 3rd hollow tubular rod member of the present invention.

Detailed description of the invention

Below in conjunction with drawings and Examples, summary of the invention is described further:

With reference to shown in Fig. 1-Fig. 5, cooling type 24V and 9.6Ah ferric phosphate lithium cell group, including the monitoring module that AC distribution module, set of cells, the charging module that charges for described set of cells are connected with described set of cells and charging module, and wireless communication module and output module；The input of described AC distribution module connects alternating current power supply, and its outfan connects described charging module, in order to provide electric energy to charging module；Described monitoring module includes voltage monitoring unit, current monitoring unit, insulating monitoring unit and temperature monitoring unit, in order to monitor the voltage of set of cells, electric current, insulating properties and temperature respectively；Described wireless communication module is connected with described monitoring module, in order to send monitor signal to Surveillance center；The input of described output module connects described set of cells, by described set of cells electric energy by the first outfan output；

Described first wireless communication module A94 and the second wireless communication module A95 is respectively via the slide block A940 being located at its lower end, A950 carries out from while reciprocatingly sliding to another side for allowing described first wireless communication module A94 and the second wireless communication module A95 chute being and then erected on described container body A9 respectively, so, described first wireless communication module A94 and described second wireless communication module A95 optional slides into described lumen therethrough A91 to allow operational staff perform；

Here, described lead screw transmission components A 82 is containing the first hollow tubular rod piece A 821 and the transfer roller A820 passing through described first hollow tubular rod piece A 821, the first roll body A8202 that described transfer roller A820 includes being wrapped in the first hollow tubular rod piece A 821 and through described first hollow tubular rod piece A 821 outwardly and towards the second roll body A8201 of extension on one side, here, the surface of described first hollow tubular rod piece A 821 and the surface of described second roll body A8201 are all come respectively with described first wireless communication module A94 and the second wireless communication module A95 phase wire connection with silk groove, described first roll body A8202 is erected in described first hollow tubular rod piece A 821 via rotation seat, additionally of described first hollow tubular rod piece A 821 and described second roll body A8201 is erected on described container body A9 via rotation seat；

Described transfer roller A820 through described first hollow tubular rod piece A 821 outwardly and the horizontal span of end A82021 that extends towards another side longer than the horizontal span of described transfer roller A820 remainder, described first hollow tubular rod piece A 821 is connected with the second hollow tubular rod piece A 8210 apart from nearest for end A82021 one, described motor apparatus A81 is with bull stick A811, described bull stick A811 upwards can be connected with the 3rd hollow tubular rod piece A 6 relatively movably in the mode of interlocking and in level, with the uniform ring the first scarf joint A61 around this outer wall on the outer wall of described 3rd hollow tubular rod piece A 6, described 3rd hollow tubular rod piece A 6 on the inwall of farthest for end A82021 with the uniform ring the second scarf joint A62 around this inwall, so, hollow interval inside described 3rd hollow tubular rod piece A 6 is divided into the interval A621 of described second scarf joint A62 corresponding first and other the second interval A620, so, when described 3rd hollow tubular rod piece A 6 moves, described end A82021 can be allowed to be in the described second interval A620 but do not combine with described second scarf joint A62, described first scarf joint A61 combines with described second hollow tubular rod piece A 8210, so described motor apparatus A81 can drive described first hollow tubular rod piece A 821 turn；When described 3rd hollow tubular rod piece A 6 moves, described end A82021 can also be allowed to be in the described first interval A621 and combine with described second scarf joint A62, with described second hollow tubular rod piece A 8210 phase separately, so described motor apparatus A81 can drive described transfer roller A820 turn to described first scarf joint A61；

Described transfer roller is prism-shaped.

Described dust block board is plastic material.

The operation principle of the present invention is: be that described first wireless communication module A94 and the second wireless communication module A95 is each in the first enclosed region being supplied to described first wireless communication module A94 and the second enclosed region being supplied to described second wireless communication module A95 during beginning, when described first wireless communication module A94 must be carried out start and stop manipulation by operational staff, described 3rd hollow tubular rod piece A 6 is just moved on one side, described first hollow tubular rod piece A 821 is under screw rod transmission, described first wireless communication module A94 migrates to described lumen therethrough A91 position, beginning place is moved to again after start and stop manipulation terminates；When described second wireless communication module A95 must be carried out start and stop manipulation by operational staff, described 3rd hollow tubular rod piece A 6 is just moved into another side, described transfer roller A820 is under screw rod transmission, described second wireless communication module A95 migrates to described lumen therethrough A91 position, beginning place is moved to again after start and stop manipulation terminates, when additionally container needs cooling, just start air feeder A8102 and cold air is introduced container, and heat is sent from outlet passageway, and further enhance cooling effect by fin pipe A8101.

Through such framework because some wireless communication modules need only the framework of a through cavity, so preventing, all wireless communication modules are each opened front shroud and the problem offering lumen therethrough；Additionally use 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, it becomes possible to prevent wireless communication module impaired；To the space of front shroud pull-out without considering.When additionally container needs cooling, just start air feeder A8102 and cold air is introduced container, and heat is sent from outlet passageway, and further enhance cooling effect by fin pipe A8101.

The above, it it is only presently preferred embodiments of the present invention, not the present invention is done any pro forma restriction, although the present invention is disclosed above with preferred embodiment, but it is not limited to the present invention, any those skilled in the art, without departing within the scope of technical solution of the present invention, when the technology contents of available the disclosure above makes a little change or is modified to the Equivalent embodiments of equivalent variations, in every case it is without departing from technical solution of the present invention content, technical spirit according to the present invention, within the spirit and principles in the present invention, the any simple amendment that above example is made, equivalent replacement and improvement etc., all still fall within the protection domain of technical solution of the present invention.

Claims

1. a cooling type 24V and 9.6Ah ferric phosphate lithium cell group, it is characterised in that including: protection circuit, current rectifying and wave filtering circuit, voltage conversion circuit, the first mu balanced circuit, output filter circuit and charge management circuit；Described protection circuit is connected with power supply, the outfan of described protection circuit connects current rectifying and wave filtering circuit, the outfan of described current rectifying and wave filtering circuit connects voltage conversion circuit, the outfan of described voltage conversion circuit connects the first mu balanced circuit, the outfan of described first mu balanced circuit connects output filter circuit, the outfan of described output filter circuit connects charge management circuit, described charge management circuit is connected with accumulator, described output filter circuit is connected permutator with described accumulator output end, the outfan of described permutator connects the second manostat and the 3rd manostat；

Additionally described wireless communication module quantity is two or more, all of described wireless communication module is arranged in container, described container contains container body and the first wireless communication module being positioned at one side being erected in the region in container body and the second wireless communication module being positioned at another side, on described container body with on the relative end wall of its back wall with the lumen therethrough towards operational staff, region inside described container body is each configured to the first enclosed region being supplied to described first wireless communication module and is supplied to the second enclosed region of described second wireless communication module being in lumen therethrough both sides whereabouts, described first enclosed region and the second enclosed region whereabouts are all closed towards the part of operational staff with the relative end wall of its back wall；

Described first wireless communication module and the second wireless communication module are respectively via being located at the slide block of its lower end for allowing the chute that described first wireless communication module and the second wireless communication module are and then erected on described container body carry out from while reciprocatingly sliding to another side respectively；

The end wall that the same back wall of described container is relative sets up first for spacing ditch road with second for spacing ditch road, described first is higher for the position on spacing ditch road than second for spacing ditch road, described first is used for the bisection position on spacing ditch road all with spacing hole for spacing ditch road with described second, the top and bottom of described first wireless communication module is each connected to force-applied the first glass bronze flake bent and stretched, force-applied the second glass bronze flake bent and stretched each it is connected to the top and bottom of the second wireless communication module, described first glass bronze flake is all used for the second glass bronze flake combining for correspond in spacing ditch road for spacing ditch road and second with described first, the convergent portion that additionally its underpart is all straightened with the direction reverse towards the bottom for spacing ditch road；

At described first wireless communication module by chute from while to when the reciprocatingly sliding of another side, described first glass bronze flake can be moved according to the corresponding described first bottom being used for spacing ditch road, additionally when described first wireless communication module moves to described lumen therethrough, described first glass bronze flake combine with described spacing hole perform described first wireless communication module spacing；

At described second wireless communication module by chute from while to when the reciprocatingly sliding of another side, described second glass bronze flake can be moved according to the corresponding described second bottom being used for spacing ditch road, additionally when described second wireless communication module moves to described lumen therethrough, described second glass bronze flake combine with described spacing hole perform described second wireless communication module spacing；

Set up in described container for the first wireless communication module described in respective transmission and described second wireless communication module from while to the lead screw transmission parts of another side and the motor apparatus that is connected with described lead screw transmission parts axle；

Described lead screw transmission parts contain the first hollow tubular rod member and the transfer roller through described first hollow tubular rod member, the first roll body that described transfer roller includes being wrapped in the first hollow tubular rod member and through described first hollow tubular rod member outwardly and towards the second roll body of extension on one side, the surface of described first hollow tubular rod member and the surface of described second roll body are all come respectively with described first wireless communication module and the second wireless communication module phase wire connection with silk groove, described first roll body is erected in described first hollow tubular rod member via rotation seat, additionally of described first hollow tubular rod member and described second roll body is erected on described container body via rotation seat；

Described transfer roller through described first hollow tubular rod member outwardly and the horizontal span of end that extends towards another side longer than the horizontal span of described transfer roller remainder, described first nearest one, hollow tubular rod member distance end is connected with the second hollow tubular rod member, described motor apparatus is with bull stick, described bull stick upwards can be connected with the 3rd hollow tubular rod member relatively movably in the mode of interlocking and in level, with the uniform ring the first scarf joint around this outer wall on the outer wall of described 3rd hollow tubular rod member, with the uniform ring the second scarf joint around this inwall on the inwall of farthest one, described 3rd hollow tubular rod member distance end, hollow interval inside described 3rd hollow tubular rod member is divided into described second scarf joint corresponding first interval interval with other second, when described 3rd hollow tubular rod member moves, described end can be allowed but not combine with described second scarf joint in described second interval, described first scarf joint combines with described second hollow tubular rod member, so described motor apparatus can drive described first hollow tubular rod member turn；When described 3rd hollow tubular rod member moves, can also allow described end described first interval in and combine with described second scarf joint, described first scarf joint separates mutually with described second hollow tubular rod member, and so described motor apparatus can drive described transfer roller turn；

With air feeder on described container surface on one side, with outlet passageway and dust block board on the surface of described container another side, described outlet passageway and dust block board are oppositely arranged, with fin pipe on described motor apparatus wall.

2. cooling type cooling type 24V according to claim 1 and 9.6Ah ferric phosphate lithium cell group, is characterized by that described transfer roller is prism-shaped.

3. cooling type cooling type 24V according to claim 1 and 9.6Ah ferric phosphate lithium cell group, is characterized by that described dust block board is plastic material.