CN105655656B - Buffer-type 24V and 9.6Ah ferric phosphate lithium cell group - Google Patents

Abstract

A kind of buffer-type 24V and 9.6Ah ferric phosphate lithium cell groups, wireless communication module quantity are two or more, with fin pipe on motor apparatus wall；Linear actuator is installed, the linear actuator is mutually clamped with the clamping equipment being erected on the wall of the motor apparatus, can execute manipulation along the center line extension direction of the third hollow tubular rod piece in this way on third hollow tubular rod piece；The first glass bronze flake respectively faces to work as a buffer for the lower wall on the ditch road of limit by the first glass bronze wire with the second glass bronze flake with the second glass bronze wire；Avoid front shroud in the prior art pull out must just occupy more sections, wireless communication module quantity increase container framework be not easy towards operating room come with not high expense come realize efficiently execution, container not yet cooling equipment, start and stop wireless communication module is inconvenient in container, mobile radio communication module when be susceptible to the defect collided with and protected without equipment is buffered.

Description

Buffer-type 24V and 9.6Ah ferric phosphate lithium cell group

Technical field

The invention belongs to battery technology fields, and in particular to a kind of buffer-type 24V and 9.6Ah ferric phosphate lithium cell groups.

Background technology

Ferric phosphate lithium cell group, especially buffer-type 24V and the running direct current system of 9.6Ah ferric phosphate lithium cell groups System real time information, such as：Voltage, control close female voltage and current, charging current, battery information etc., pass through powerful mobile network It carries out wireless collection and is uploaded to backstage to reach intelligent management, thus propose a kind of buffer-type 24V and 9.6Ah ferric phosphates Lithium battery group comprising AC distribution module, battery pack, for the battery pack charging charging module, with the battery pack and The monitoring module and wireless communication module and output module of charging module connection；The input terminal of the AC distribution module connects AC power is connect, output end connects the charging module, to provide electric energy to charging module；The monitoring module includes electricity Press monitoring unit, current monitoring unit, insulating monitoring unit and temperature monitoring unit, to monitor respectively battery pack voltage, Electric current, insulating properties and temperature；The wireless communication module is connect with the monitoring module, monitoring signals are sent to monitoring Center；The input terminal of the output module connects the battery pack, and the battery pack electric energy is exported by the first output end.

However in use, wireless communication module is generally set up in the container of operating room, and scene is often Several wireless communication modules are had all to be set up in the container of operating room, must to wireless communication module execute start and stop it Border must just pull out the front shroud of each corresponding container to execute wireless communication module start and stop, however in operating room's vigour When component is more and more, clear area will be fewer and fewer, and front shroud, which pulls out, must just occupy more sections；In addition if nothing Line communication module quantity increases the container framework and is not easy that not high expense is used to realize efficiently execution towards operating room.

Also it is exactly that container temperature rise when wireless communication module is run obtains quickly, but cooling is set currently not yet It is standby, and in container start and stop wireless communication module it is inconvenient, plus mobile radio communication module when be susceptible to and collide with without slow Equipment is rushed to be protected.

Invention content

It is an object of the invention to provide a kind of buffer-type 24V and 9.6Ah ferric phosphate lithium cell groups, before avoiding in the prior art Cover board, which pulls out, must just occupy more sections, wireless communication module quantity increases container framework and is not easy to use not towards operating room High expense come realize efficiently execution, container not yet cooling equipment, start and stop wireless communication module is inconvenient in container, adds The defect collided with and protected without buffering equipment is susceptible to when mobile radio communication module.

A kind of buffer-type 24V and 9.6Ah ferric phosphate lithium cells in order to overcome the deficiencies in the prior art, the present invention provides The solution of group, it is specific as follows：

A kind of buffer-type 24V and 9.6Ah ferric phosphate lithium cell groups, including AC distribution module, battery pack, be the battery The charging module of group charging, the monitoring module being connect with the battery pack and charging module and wireless communication module and output Module；The input terminal of the AC distribution module connects AC power, and output end connects the charging module, to charging Module provides electric energy；The monitoring module includes voltage monitoring unit, current monitoring unit, insulating monitoring unit and temperature monitoring Unit, to monitor voltage, electric current, insulating properties and the temperature of battery pack respectively；The wireless communication module and the monitoring mould Block connects, monitoring signals are sent to monitoring center；The input terminal of the output module connects the battery pack, will be described Battery pack electric energy is exported by the first output end；

In addition the wireless communication module quantity is two or more, and all wireless communication modules are mounted on container Interior, the container contains the first wireless telecommunications positioned at one side in container body A9 and the region that is erected in container body A9 On the end wall opposite with its back wall on the second wireless communication module A95, the container body A9 of another side with being located at of modules A 94 With the region inside the lumen therethrough A91, the container body A9 towards operational staff where being in the both sides lumen therethrough A91 it Place respectively is configured to be supplied to the first enclosed region of the first wireless communication module A94 and is supplied to described second wireless The second enclosed region of communication module A95, first enclosed region are opposite with its back wall with the second enclosed region whereabouts End wall be all closed towards the part of operational staff；

The first wireless communication module A94 and the second wireless communication module A95 are respectively via the sliding block for being located at its lower end A940, A950 are erected at institute to be used to allow the first wireless communication module A94 and the second wireless communication module A95 to follow respectively The sliding slot stated on container body A9 carries out reciprocatingly sliding from one side to another side；

Set up on the opposite end wall of the same back wall of the container A 9 first for limit ditch road A92 be used to limit with second The roads Wei Gou A93, described first for limit positions of the ditch road A92 than second for the ditch road A93 of limit it is high, described the Bisection positions of the one ditch road A92 and described second for limiting for the ditch road A93 of limit all carries limit hole A923, institute The top and bottom for stating the first wireless communication module A94 is respectively connected to force-applied the first glass bronze flake A942 bent and stretched, with The top and bottom of two wireless communication module A95 is respectively connected to force-applied the second glass bronze flake A952 bent and stretched, and described first Glass bronze flake A942 and the second glass bronze flake A952 is used for the described first ditch road A92 and second for limiting for limiting Ditch road A93 in correspond to and be combined, in addition its underpart is all carried towards the reversed direction in the lower part on the ditch road for limit The tapered portion A9429, A9520 straightened；

When the first wireless communication module A94 is by sliding slot reciprocatingly sliding from one side to another side, described the One glass bronze flake A942 can be moved according to the lower part of the corresponding described first ditch road A92 for limiting, in addition described first When wireless communication module A94 moves to the lumen therethrough, the first glass bronze flake A942 is tied with the limit hole A923 phases It closes to execute the limit to the first wireless communication module A94；

When the second wireless communication module A95 is by sliding slot reciprocatingly sliding from one side to another side, described the Two glass bronze flake A952 can be moved according to the lower part of the corresponding described second ditch road A93 for limiting, in addition described second When wireless communication module A95 moves to the lumen therethrough, the second glass bronze flake A952 is tied with the limit hole A923 phases It closes to execute the limit to the second wireless communication module A95；

It is set up in the container A 9 for being respectively driven the first wireless communication module A94 and second channel radio It interrogates lead screw transmission components A 82 of the modules A 95 from one side to another side and is set with the motor of 82 axis connection of lead screw transmission components A Standby A81；

The lead screw transmission components A 82 is containing the first hollow tubular rod piece A 821 and penetrates the first hollow tubular rod piece The transfer roller A820, the transfer roller A820 of A821 include the first roll body A8202 for being wrapped in the first hollow tubular rod piece A 821 and Through the first hollow tubular rod piece A 821 outwardly and towards the second roll body A8201 that one side is extended, described first is hollow The surface of tubular rod segments A821 and the surface of the second roll body A8201 are all come respectively with silk slot with first wireless telecommunications Modules A 94 connects with the second wireless communication module A95 phase silks, and the first roll body A8202 is erected at described first via rotation seat In hollow tubular rod piece A 821, in addition one of the first hollow tubular rod piece A 821 and the second roll body A8201 via Rotation seat and be erected on the container body A9；

The ends outwardly and towards another side extended of the transfer roller A820 through the first hollow tubular rod piece A 821 The horizontal span of A82021 is longer than the horizontal span of the transfer roller A820 rest parts, the first hollow tubular rod piece A 821 A same second hollow tubular rod piece A 8210 nearest apart from end A82021 is connected, and the motor apparatus A81 carries bull stick A811, the bull stick A811 can be relatively movably the same as 6 phases of third hollow tubular rod piece A in a manner of rabbeting and in horizontal direction Connect, on the outer wall of the third hollow tubular rod piece A 6 with uniform ring in the first scarf joint A61 of the outer wall, the third With uniform ring around the second scarf joint of the inner wall on one inner wall farthest apart from end A82021 of blank pipe shape rod piece A 6 The hollow section of A62,6 the inside of the third hollow tubular rod piece A are divided into the corresponding first intervals of the second scarf joint A62 A621 and other second interval A620 can allow the end A82021 when the third hollow tubular rod piece A 6 moves It is in the second interval A620 and is not combined with the second scarf joint A62 but, the first scarf joint A61 is the same as described Two hollow tubular rod piece As 8210 are combined, and the motor apparatus A81 described in this way can drive the first hollow tubular rod piece A 821 to revolve It is dynamic；When the third hollow tubular rod piece A 6 moves, additionally it is possible to the end A82021 be allowed to be in the first interval A621 Interior and be combined with the second scarf joint A62, the first scarf joint A61 is the same as 8210 phase of the second hollow tubular rod piece A It separates, the motor apparatus A81 described in this way can drive the transfer roller A820 turns；

Air feeder A8102 is carried on the surface on 9 one side of the container A, is carried out on the surface of 9 another side of the container A Gas channel A8103 is oppositely arranged with dust block board A8104, the outlet passageway A8103 and dust block board A8104, the motor apparatus With fin pipe A8101 on A81 walls；

Linear actuator is installed, the linear actuator is described with being erected on the third hollow tubular rod piece Clamping equipment on the wall of motor apparatus is mutually clamped, in this way can be along the center line extension side of the third hollow tubular rod piece To executing manipulation；

The first glass bronze flake A942 and the second glass bronze flake A952 respectively pass through the first glass bronze wire A941 and Second glass bronze wire A951 faces to work as a buffer for the lower wall on the ditch road of limit；

The wireless communication module is the input interface circuit being connected by microcontroller and respectively with this microcontroller, output Interface circuit forms；

The microcontroller is STM32F103.

By such framework because practical several wireless communication modules need only a perforation cavity framework, Prevent the problem of respectively opening front shroud to all wireless communication modules and open up lumen therethrough；In addition a transmission parts are used, As soon as need only motor apparatus, the transmission to several wireless communication modules can be completed, expense is not high；Because under general condition, Wireless communication module moves to enclosed region, it will be able to prevent wireless communication module impaired；The space pulled out to front shroud is not yet With considering.

Description of the drawings

Fig. 1 is the structure chart of buffer-type 24V and 9.6Ah the 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 third hollow tubular rod piece of the present invention.

Specific implementation mode

Invention content is described further with reference to the accompanying drawings and examples：

Referring to Fig.1 shown in-Fig. 5, buffer-type 24V and 9.6Ah ferric phosphate lithium cell group, including AC distribution module, battery Group, the charging module for battery pack charging, the monitoring module and channel radio that are connect with the battery pack and charging module Interrogate module and output module；The input terminal of the AC distribution module connects AC power, and output end connects the charging mould Block, to provide electric energy to charging module；The monitoring module includes voltage monitoring unit, current monitoring unit, insulating monitoring Unit and temperature monitoring unit, to monitor voltage, electric current, insulating properties and the temperature of battery pack respectively；The wireless telecommunications mould Block is connect with the monitoring module, monitoring signals are sent to monitoring center；The input terminal of the output module connects institute Battery pack is stated, the battery pack electric energy is exported by the first output end；

In addition the wireless communication module quantity is two or more, and all wireless communication modules are mounted on container Interior, the container contains the first wireless telecommunications positioned at one side in container body A9 and the region that is erected in container body A9 On the end wall opposite with its back wall on the second wireless communication module A95, the container body A9 of another side with being located at of modules A 94 With the region inside the lumen therethrough A91, the container body A9 towards operational staff where being in the both sides lumen therethrough A91 it Place respectively is configured to be supplied to the first enclosed region of the first wireless communication module A94 and is supplied to described second wireless The second enclosed region of communication module A95, first enclosed region are opposite with its back wall with the second enclosed region whereabouts End wall be all closed towards the part of operational staff；

The first wireless communication module A94 and the second wireless communication module A95 are respectively via the sliding block for being located at its lower end A940, A950 are erected at institute to be used to allow the first wireless communication module A94 and the second wireless communication module A95 to follow respectively The sliding slot stated on container body A9 carries out reciprocatingly sliding from one side to another side, in this way, the first wireless communication module A94 Operational staff is allowed to execute to slide into the lumen therethrough A91 with the second wireless communication module A95 optional one；

Set up on the opposite end wall of the same back wall of the container A 9 first for limit ditch road A92 be used to limit with second The roads Wei Gou A93, described first for limit positions of the ditch road A92 than second for the ditch road A93 of limit it is high, described the Bisection positions of the one ditch road A92 and described second for limiting for the ditch road A93 of limit all carries limit hole A923, institute The top and bottom for stating the first wireless communication module A94 is respectively connected to force-applied the first glass bronze flake A942 bent and stretched, with The top and bottom of two wireless communication module A95 is respectively connected to force-applied the second glass bronze flake A952 bent and stretched, and described first Glass bronze flake A942 and the second glass bronze flake A952 is used for the described first ditch road A92 and second for limiting for limiting Ditch road A93 in correspond to and be combined, in addition its underpart is all carried towards the reversed direction in the lower part on the ditch road for limit The tapered portion A9429, A9520 straightened；

When the first wireless communication module A94 is by sliding slot reciprocatingly sliding from one side to another side, described the One glass bronze flake A942 can be moved according to the lower part of the corresponding described first ditch road A92 for limiting, in addition described first When wireless communication module A94 moves to the lumen therethrough, the first glass bronze flake A942 is tied with the limit hole A923 phases It closes to execute the limit to the first wireless communication module A94；

When the second wireless communication module A95 is by sliding slot reciprocatingly sliding from one side to another side, described the Two glass bronze flake A952 can be moved according to the lower part of the corresponding described second ditch road A93 for limiting, in addition described second When wireless communication module A95 moves to the lumen therethrough, the second glass bronze flake A952 is tied with the limit hole A923 phases It closes to execute the limit to the second wireless communication module A95；

It is set up in the container A 9 for being respectively driven the first wireless communication module A94 and second channel radio It interrogates lead screw transmission components A 82 of the modules A 95 from one side to another side and is set with the motor of 82 axis connection of lead screw transmission components A Standby A81；

Here, the lead screw transmission components A 82 containing the first hollow tubular rod piece A 821 and penetrates first hollow tube The transfer roller A820, the transfer roller A820 of shape rod piece A 821 include the first roll body being wrapped in the first hollow tubular rod piece A 821 A8202 and through the first hollow tubular rod piece A 821 outwardly and towards the second roll body A8201 that one side is extended, here, The surface of the first hollow tubular rod piece A 821 and the surface of the second roll body A8201 are all come respectively with silk slot with described First wireless communication module A94 connects with the second wireless communication module A95 phase silks, and the first roll body A8202 is via rotation mounting It is located in the first hollow tubular rod piece A 821, in addition the first hollow tubular rod piece A 821 and second roll body One of A8201 is erected at via rotation seat on the container body A9；

The ends outwardly and towards another side extended of the transfer roller A820 through the first hollow tubular rod piece A 821 The horizontal span of A82021 is longer than the horizontal span of the transfer roller A820 rest parts, the first hollow tubular rod piece A 821 A same second hollow tubular rod piece A 8210 nearest apart from end A82021 is connected, and the motor apparatus A81 carries bull stick A811, the bull stick A811 can be relatively movably the same as 6 phases of third hollow tubular rod piece A in a manner of rabbeting and in horizontal direction Connect, on the outer wall of the third hollow tubular rod piece A 6 with uniform ring in the first scarf joint A61 of the outer wall, the third With uniform ring around the second scarf joint of the inner wall on one inner wall farthest apart from end A82021 of blank pipe shape rod piece A 6 A62, in this way, the hollow section of the inside of the third hollow tubular rod piece A 6 is divided into the second scarf joint A62 corresponding the One section A621 and other second interval A620 can allow described in this way, when the third hollow tubular rod piece A 6 moves End A82021, which is in the second interval A620, not to be combined with the second scarf joint A62 but, first scarf joint A61 is combined with the second hollow tubular rod piece A 8210, and the motor apparatus A81 described in this way can drive first hollow tube 821 turn of shape rod piece A；When the third hollow tubular rod piece A 6 moves, additionally it is possible to allow the end A82021 to be in described It is combined in first interval A621 and with the second scarf joint A62, the first scarf joint A61 is the same as second hollow tubular 8210 phase of rod piece A separates, and the motor apparatus A81 described in this way can drive the transfer roller A820 turns；

Air feeder A8102 is carried on the surface on 9 one side of the container A, is carried out on the surface of 9 another side of the container A Gas channel A8103 is oppositely arranged with dust block board A8104, the outlet passageway A8103 and dust block board A8104, the motor apparatus With fin pipe A8101 on A81 walls；

The first glass bronze flake A942 and the second glass bronze flake A952 respectively pass through the first glass bronze wire A941 and Second glass bronze wire A951 faces to work as a buffer for the lower wall on the ditch road of limit.

The sliding slot is strip structure.

The transfer roller is prism-shaped.

The dust block board is plastic material.

The microcontroller is STM32F103.

The power supply is battery or the alternating current with transformer.

The microcontroller can be replaced by PLC.

Linear actuator A52, the linear actuator A52 unit-frames are installed in the third hollow tubular rod piece A 6 The clamping equipment being located on the wall of the motor apparatus A81 is mutually clamped, in this way can be along the third hollow tubular rod piece A 6 Center line extension direction execute manipulation.

The operation principle of the present invention is that：It is the first wireless communication module A94 and the second wireless communication module when beginning A95 is respectively in the first enclosed region for being supplied to the first wireless communication module A94 and is supplied to second channel radio In the second enclosed region for interrogating modules A 95, start and stop behaviour must be carried out to the first wireless communication module A94 in operational staff When vertical, the third hollow tubular rod piece A 6 is just moved on one side, and the first hollow tubular rod piece A 821 is passed in lead screw Under dynamic, the first wireless communication module A94 is migrated to the positions the lumen therethrough A91, is moved to again after start and stop manipulate Where starting；When operational staff must carry out start and stop manipulation to the second wireless communication module A95, the third hollow tube Shape rod piece A 6 is just moved into another side, and the transfer roller A820 is under screw rod transmission, the second wireless communication module A95 It migrates to the positions the lumen therethrough A91, where moving to beginning again after start and stop manipulate, in addition container needs to cool down it Border just starts air feeder A8102 cold air and introduces container, and heat is sent out from outlet passageway, and comes by fin pipe A8101 Further enhance cooling effect.

By such framework because several wireless communication modules need only a perforation cavity framework, prevent The problem of are respectively opened by front shroud and opens up lumen therethrough for all wireless communication modules；In addition a transmission parts, Zhi Xuyi are used A motor apparatus, can complete the transmission to several wireless communication modules, and expense is not high；Because of under general condition, channel radio News module moves to enclosed region, it will be able to prevent wireless communication module impaired；To front shroud pull out space without consideration .In addition container need it is cooling when, just start air feeder A8102 and cold air introduced container, and heat from outlet passageway It sends out, and cooling effect is further enhanced by fin pipe A8101.And the first glass bronze flake A942 and second glass bronze The respective property that resets after deformation and decompression after the compression of the first glass bronze wire A941 and the second glass bronze wire A951 of piece A952 Can, it can play cushioning effect during transmitting wireless communication module.The microcontroller is STM32F103.The electricity Source is battery or the alternating current with transformer.The microcontroller can be replaced by PLC.

The above described is only a preferred embodiment of the present invention, be not intended to limit the present invention in any form, though So the present invention has been disclosed as a preferred embodiment, and however, it is not intended to limit the invention, any technology people for being familiar with this profession Member, without departing from the scope of the present invention, when the technology contents using the disclosure above make a little change or modification For the equivalent embodiment of equivalent variations, as long as be without departing from technical solution of the present invention content, according to the technical essence of the invention, Within the spirit and principles in the present invention, to any simple modification, equivalent replacement and improvement etc. made by above example, still Belong within the protection domain of technical solution of the present invention.

Claims (4)

1. a kind of buffer-type 24V and 9.6Ah ferric phosphate lithium cell groups, which is characterized in that including：Protect circuit, rectifying and wave-filtering electricity Road, voltage conversion circuit, the first regulator circuit, output filter circuit and charge management circuit；The protection circuit and power supply electricity Source connects, and the output end of the protection circuit connects current rectifying and wave filtering circuit, and the output end of the current rectifying and wave filtering circuit connects voltage The output end of conversion circuit, the voltage conversion circuit connects the first regulator circuit, and the output end of first regulator circuit connects Output filter circuit is connect, the output end of the output filter circuit connects charge management circuit, the charge management circuit and storage Battery connects, and the output filter circuit connect change-over switch, the output end of the change-over switch with the accumulator output end Connect the second voltage-stablizer and third voltage-stablizer；

In addition wireless communication module quantity is two or more, and all wireless communication modules are mounted in container, the appearance Device contain container body and the first wireless communication module positioned at one side for being erected in the region in container body with positioned at another Second wireless communication module on one side carries passing through towards operational staff on the container body on the end wall opposite with its back wall Cavity, region inside the container body are respectively configured to be supplied to described first being in lumen therethrough both sides whereabouts First enclosed region of wireless communication module and the second enclosed region for being supplied to second wireless communication module, described first The enclosed region end wall opposite with its back wall with the second enclosed region whereabouts is all closed towards the part of operational staff；

First wireless communication module is used to distinguish via the sliding block for being located at its lower end respectively with the second wireless communication module Allow first wireless communication module and the second wireless communication module follow the sliding slot being erected on the container body carry out from Reciprocatingly sliding for another side is arrived on one side；

Set up on the opposite end wall of the same back wall of the container first for limit ditch road and the second ditch road for limiting, Described first for limit ditch road than second for limit ditch road position it is high, described first for limit ditch road with The bisection position on the described second ditch road for limiting all carries limit hole, the top and bottom of first wireless communication module Portion is respectively connected to force-applied the first glass bronze flake bent and stretched, and is respectively connected to the top and bottom of the second wireless communication module Force-applied the second glass bronze flake bent and stretched, the first glass bronze flake and the second glass bronze flake are all used for described first for limiting The roads Wei Gou and the second ditch road for limiting, which correspond to, to be combined, and in addition its underpart is all carried towards the ditch road for limit The tapered portion that the reversed direction in lower part is straightened；

When first wireless communication module is by sliding slot reciprocatingly sliding from one side to another side, the first glass bronze Piece can be moved according to the lower part on the corresponding described first ditch road for limiting, and in addition be migrated in first wireless communication module When the lumen therethrough, the first glass bronze flake is combined to execute to the first wireless telecommunications mould with the limit hole The limit of block；

When second wireless communication module is by sliding slot reciprocatingly sliding from one side to another side, the second glass bronze Piece can be moved according to the lower part on the corresponding described second ditch road for limiting, and in addition be migrated in second wireless communication module When the lumen therethrough, the second glass bronze flake is combined to execute to the second wireless telecommunications mould with the limit hole The limit of block；

Set up in the container for be respectively driven first wireless communication module and second wireless communication module from The lead screw transmission component of another side and the motor apparatus with the lead screw transmission component axis connection are arrived on one side；

The lead screw transmission component contains the first hollow tubular rod piece and the transfer roller through the first hollow tubular rod piece, described Transfer roller include the first roll body being wrapped in the first hollow tubular rod piece and through the first hollow tubular rod piece outwardly simultaneously The surface of the second roll body to extend towards one side, the surface of the first hollow tubular rod piece and second roll body all carries silk Slot respectively connects with first wireless communication module and the second wireless communication module phase silk, and first roll body is via rotation seat Be erected in the first hollow tubular rod piece, in addition one of the first hollow tubular rod piece and second roll body via Rotation seat and be erected on the container body；

Horizontal span ratio of the transfer roller through the end of the first hollow tubular rod piece extended outwardly and towards another side The horizontal span of the transfer roller rest part will be grown, the first hollow tubular rod piece apart from end nearest one with second in Empty tubular rod segments are connected, and the motor apparatus carries bull stick, and the bull stick opposite can move in a manner of rabbeting and in horizontal direction Dynamicly it is connected with third hollow tubular rod piece, with uniform ring around the of the outer wall on the outer wall of the third hollow tubular rod piece One scarf joint, with uniform ring around the of the inner wall on the third hollow tubular rod piece one inner wall farthest apart from end Two scarf joints, the hollow section inside the third hollow tubular rod piece are divided into the corresponding first interval of the second scarf joint The end can be allowed in the second interval when the third hollow tubular rod piece moves with other second intervals It is not combined with second scarf joint but inside, first scarf joint is combined with the second hollow tubular rod piece, in this way The motor apparatus can drive the first hollow tubular rod piece turn；When the third hollow tubular rod piece moves, moreover it is possible to It enough allows the end in the first interval and is combined with second scarf joint, first scarf joint is the same as described Two hollow tubular rod pieces mutually separate, and the motor apparatus described in this way can drive the transfer roller turn；

Air feeder is carried on the surface on described container one side, and outlet passageway and gear ash are carried on the surface of the container another side Plate, the outlet passageway are oppositely arranged with dust block board, with fin pipe on the motor apparatus wall；

Linear actuator is installed, the linear actuator is same to be erected at the motor on the third hollow tubular rod piece Clamping equipment on the wall of equipment is mutually clamped, and can be held in this way along the center line extension direction of the third hollow tubular rod piece Row manipulates；

The first glass bronze flake respectively comes face with the second glass bronze flake by the first glass bronze wire and the second glass bronze wire Lower wall for the ditch road of limit is worked as a buffer；

The wireless communication module is input interface circuit, the output interface being connected by microcontroller and respectively with this microcontroller Circuit forms；

The microcontroller is STM32F103.

2. buffer-type 24V according to claim 1 and 9.6Ah ferric phosphate lithium cell groups, it is characterized in that the transfer roller is rib Column.

3. buffer-type 24V according to claim 1 and 9.6Ah ferric phosphate lithium cell groups, it is characterized in that the sliding slot is item Shape structure.

4. buffer-type 24V according to claim 1 and 9.6Ah ferric phosphate lithium cell groups, it is characterized in that the power supply is Battery or alternating current with transformer.