CN208238489U - Aluminium silicon nitride cell sidewall brick blank drying system - Google Patents

Abstract

A kind of aluminium silicon nitride cell sidewall brick blank drying system, the system includes drying trolley, first transhipment unit, drying unit, second transhipment unit, first transhipment unit and the second transhipment cellular construction are identical, second transhipment unit is installed in drying unit, first transhipment unit includes moving assembly, moving assembly includes mobile item, jacking block mechanism, jacking block mechanism includes trapezoid block, since trapezoid block is eccentrically mounted in the utility model, when mobile item moves right, trapezoid block can withstand drying trolley, when mobile item moves downward, trapezoid block and drying trolley disengage, to utilize the reciprocal operation of mobile item, multiple jacking block mechanisms of aligned arrangement successively act on drying trolley, previous jacking block mechanism pushes a distance for trolley is dried, then disengage, drying trolley is pushed a distance again by the latter jacking block mechanism again, then again The case where disengagement, whole process without human intervention, realizes automatic operation, worker is avoided to burn, get an electric shock.

Description

Aluminium silicon nitride cell sidewall brick blank drying system

Technical field

The utility model relates to aluminium silicon nitride cell sidewall bricks to produce equipment technology field, in particular to a kind of silicon nitride Aluminium cell sidewall block base drying system.

Background technique

When aluminium silicon nitride cell sidewall brick produces, after being formed first by molding machine, it is re-fed into drying equipment drying, nitridation Sial cell sidewall brick body product is big, and weight weight is made troubles to handling process.In general, being electrolysed by molding aluminium silicon nitride Groove sidewall adobe goes to transfer cart using drying trolley, and trolley moves on guide rail, needs manually to push；Especially will It dries trolley to be sent into from the entrance of drying equipment, the process pulled out from the outlet of equipment is also required to manually push, and worker is on the one hand It can be burnt, be provided with resistive heating system in another aspect drying equipment, it is possible to worker be caused to get an electric shock.

Summary of the invention

In view of this, in view of the above deficiencies, it is necessary to propose that one kind can solve aluminium silicon nitride cell sidewall brick and dry It needs manually to push drying trolley, the aluminium silicon nitride cell sidewall brick blank drying system for burning, getting an electric shock to avoid worker in the process System.

A kind of aluminium silicon nitride cell sidewall brick blank drying system, the system include drying trolley, first transhipment unit, in Turn unit, drying unit, the second transhipment unit, being arranged side by side in the side of relay unit there are multiple molding machines, each molding Machine one first transhipment unit of corresponding configuration, the aluminium silicon nitride cell sidewall adobe that molding machine suppresses are packed into drying trolley, And relay unit is transported to by the first transhipment unit, being arranged side by side in the other side of relay unit has multiple drying units, each One second transhipment unit is installed, the relay unit is selectable will to come from one first transhipment unit in a drying unit The drying trolley that transhipment comes is transported to one second transhipment unit, and described second transports unit to by the drying in drying unit Trolley is sent into from the entrance of drying unit, so that the aluminium silicon nitride cell sidewall of the small car of drying on the second transhipment unit Adobe is dried in drying unit, is then sent out again from the outlet of drying unit, and described first transports unit and second turn Waybill meta structure is identical, it is described first transhipment unit include the first two-way guide rails, driving assembly, moving assembly, described first pair Direction guiding rail includes left rail and right rail disposed in parallel, and the driving component is set to one end of the first two-way guide rails, The moving assembly is placed between the left rail and right rail of the first two-way guide rails, and the driving component and moving assembly connect It connects, to drive moving assembly to move back and forth along the first two-way guide rails by driving assembly, the drying trolley is across described The top of left rail and right rail, the moving assembly are moved back and forth along the first two-way guide rails direction, to drive drying Along the unidirectional intermittent movement of the first two-way guide rails, the moving assembly includes support wheel, moves item, jacking block mechanism trolley, multiple For support wheel along the first two-way guide rails direction aligned arrangement, the mobile item is fastened on support wheel, and rolls and cooperate with support wheel, moves The end of dynamic item is connect with driving assembly, is evenly equipped with multiple jacking block mechanisms along its length direction in mobile upper surface, described Jacking block mechanism includes two fixed blocks, trapezoid block, axises, and described two fixed blocks are relatively fixed to move a upper surface, described The side of trapezoid block is installed with axis, and the position that the axis passes through trapezoid block side is located on the right side of center of gravity, and trapezoid block can lead to relatively Axis rotation, the both ends of axis are fixedly connected with two fixed blocks respectively, and the side of the trapezoid block includes bottom, left side, Right edge, bottom are in a horizontal position, and the height between bottom and ground is the first height, and left side is in horizontal position It sets, the height between bottom and the intersection point and ground of right edge is the second height, and the bottom surface of the bottom wall of above-mentioned drying trolley is arrived The distance on ground is third height, and the third height is greater than the first height, and the third height is less than the second height.

Preferably, the relay unit includes the second two-way guide rails, mobile platform, third two-way guide rails, positioning unit, institute It states the second two-way guide rails to be set between the first transhipment unit and drying unit, the mobile platform and the second two-way guide rails roll Cooperation, the third two-way guide rails are installed on the upper surface of mobile platform, and the left side of the third two-way guide rails can be with first turn Transportation unit docking, so that drying trolley is transported to third two-way guide rails, the right side of the third two-way guide rails by the first transhipment unit Side can be docked with drying unit, so that drying trolley is transported to drying unit by third two-way guide rails, the positioning unit includes First magnet, the second magnet, the first Hall sensor, the second Hall sensor, controller, in the right-hand end of the first transhipment unit Portion is equipped with the first magnet, is equipped with the second magnet on the left of drying unit, installs respectively in the left and right sides of mobile platform There are the first Hall sensor, the second Hall sensor, the first Hall sensor, the second Hall sensor electrically connect with controller It connects, controller and electrical connection of motor, the output end of motor and the idler wheel below mobile platform are rotatablely connected, motor driven idler wheel Rotation, and then mobile platform is driven to move along the second guide rail.

Preferably, the drying trolley includes bottom wall, is equipped with left side wall, right side wall, the left side on the top of bottom wall Wall, right side wall are oppositely arranged, and are placed towards drying trolley moving direction；The left side wall includes fixed part, movable part, described Movable part is mounted at fixed part, and in fixed part two sides, the top of side wall is symmetrically provided with strip-shaped hole, engaging slot, in activity The lower part of portion two sides side wall is symmetrically installed with shaft, fastener, and the shaft set is in strip-shaped hole, so that movable part is with shaft Centered on rotated relative to fixed portion, the shaft can move up and down in strip-shaped hole, so as to move down in the relatively fixed portion of movable part Dynamic, the shaft is located at the lower part of strip-shaped hole, and fastener is caught in engaging slot, and the shaft is located at the top of strip-shaped hole, engaging Part is separated with engaging slot.

Preferably, it on two inner sidewalls opposite in the left side wall, right side wall, is symmetrically equipped with from top to down The angle steel of multiple settings being parallel to each other, left side wall, right side wall same level height two angle steel between detachably install There is partition.

Preferably, the driving component includes supporting frame, first gear, second gear, the first chain, motor, Two chains, first position sensor, second position sensor, controller, the first gear, second gear are rotatably fixed In on supporting frame, the input terminal of the first gear is connected by the output end of the first chain and motor, first gear Output end is sequentially connected by the second chain and second gear, and the middle part of second chain and the end of above-mentioned mobile item are fixed Connection, the first position sensor, second position sensor are respectively arranged in the both ends of supporting frame, the end of the mobile item Portion reaches the position of first position sensor, and mobile item triggering first position sensor issues positive rotaring signal to controller, control Control motor rotates forward after device receives positive rotaring signal, and the end of the mobile item reaches the position of second position sensor, moves Dynamic item triggering second position sensor issues reverse signal to controller, and control motor is anti-after controller receives reverse signal Turn.

Preferably, the two sides that the mobile item connect one end end with driving assembly are equipped with directive wheel, in supporting frame It is equipped with guide groove, the directive wheel and guide groove, which roll, to be cooperated, so that one end end edge that mobile item is connect with driving assembly Supporting frame move back and forth.

Since trapezoid block is eccentrically mounted in the utility model, when mobile item moves right, trapezoid block can withstand drying trolley, When mobile item moves downward, trapezoid block and drying trolley are disengaged, thus using the reciprocal operation of mobile item, aligned arrangement it is multiple Jacking block mechanism successively acts on drying trolley, and previous jacking block mechanism pushes a distance for trolley is dried, then disengages, latter Drying trolley is pushed a distance again by a jacking block mechanism again, is then disengaged again, and so on, and then realizes drying trolley interval The case where forward, whole process without human intervention, realizes automatic operation, and worker is avoided to burn, get an electric shock.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the aluminium silicon nitride cell sidewall brick blank drying system main view direction.

Fig. 2 is the structural schematic diagram of the aluminium silicon nitride cell sidewall brick blank drying system overlook direction.

Fig. 3 by drying trolley and transhipment unit main view direction structural schematic diagram.

Fig. 4 is the drying trolley and the structural schematic diagram for transporting unit overlook direction.

Fig. 5 is the drying trolley and the structural schematic diagram for transporting unit left view direction.

Fig. 6 is the structural schematic diagram of the drying trolley main view direction.

Fig. 7 is the fixed part and movable part connection relationship partial view of the drying trolley left side wall.

Fig. 8 is the structural schematic diagram of jacking block mechanism main view direction.

Fig. 9 is the structural schematic diagram of jacking block mechanism overlook direction.

Figure 10 is the structural schematic diagram of jacking block mechanism left view direction.

Figure 11 is the schematic diagram of the trapezoid block main view direction.

In figure: drying trolley 10, bottom wall 11, left side wall 12, fixed part 121, strip-shaped hole 1211, engaging slot 1212, activity Portion 122, shaft 1221, fastener 1222, right side wall 13, angle steel 14, partition 15, first transport unit 20, the first two-way guide rails 21, driving assembly 22, supporting frame 221, first gear 222, the first chain 223, motor 224, the second chain 225, second Gear 226, first position sensor 227, second position sensor 228, moving assembly 23, support wheel 231, mobile item 232, top Block mechanism 233, fixed block 2331, trapezoid block 2332, bottom 23321, left side 23322, right edge 23323, axis 2333, Relay unit 30, the second two-way guide rails 31, mobile platform 32, third two-way guide rails 33, positioning unit 34, the first magnet 341, Two magnets 342, the first Hall sensor 343, the second Hall sensor 344, drying unit 40, second transport unit 50.

Specific embodiment

It, below will be to use required in embodiment in order to illustrate more clearly of the technical solution of the utility model embodiment Attached drawing be briefly described, it should be apparent that, the accompanying drawings in the following description is some embodiments of the utility model, for this For the those of ordinary skill of field, without creative efforts, it can also be obtained according to these attached drawings others Attached drawing.

Referring to Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 8, Fig. 9, Figure 10, Figure 11, the utility model embodiment provides one kind Aluminium silicon nitride cell sidewall brick blank drying system, the system include that drying trolley 10, first transports unit 20, relay unit 30, drying unit 40, second transport unit 50, the side of relay unit 30 be arranged side by side have multiple molding machines, each at Type machine one first transhipment unit 20 of corresponding configuration, it is small that the aluminium silicon nitride cell sidewall adobe that molding machine suppresses is packed into drying Vehicle 10, and relay unit 30 is transported to by the first transhipment unit 20, being arranged side by side in the other side of relay unit 30 has multiple bakings Dry unit 40 is equipped with one second transhipment unit 50 in each drying unit 40, and relay unit 30 will be selectable to be come from The drying trolley 10 that the one first transhipment transhipment of unit 20 comes is transported to one second transhipment unit 50, the second transhipment unit 50 the drying trolley 10 in drying unit 40 to be sent into from the entrance of drying unit 40, so that on the second transhipment unit 50 Drying trolley 10 in the adobe of aluminium silicon nitride cell sidewall dried in drying unit 40, then again from drying unit 40 outlet is sent out, and the first transhipment unit 20 is identical as the second transhipment 50 structure of unit, and the first transhipment unit 20 includes the One two-way guide rails 21, driving assembly 22, moving assembly 23, the first two-way guide rails 21 include left rail disposed in parallel and right side Guide rail, driving assembly 22 are set to one end of the first two-way guide rails 21, and moving assembly 23 is placed in the left side of the first two-way guide rails 21 Between guide rail and right rail, driving assembly 22 is connect with moving assembly 23, to drive moving assembly 23 by driving assembly 22 It is moved back and forth along the first two-way guide rails 21, dries trolley 10 across the top in left rail and right rail, moving assembly 23 move back and forth along 21 direction of the first two-way guide rails, to drive drying trolley 10 to move along the unidirectional interval of the first two-way guide rails 21 Dynamic, moving assembly 23 includes support wheel 231, mobile item 232, jacking block mechanism 233, and multiple support wheels 231 are along the first two-way guide rails 21 direction aligned arrangements, mobile item 232 is fastened on support wheel 231, and rolls and cooperate with support wheel 231, the end of mobile item 232 It is connect with driving assembly 22, is evenly equipped with multiple jacking block mechanisms 233, jacking block machine along its length direction in mobile 232 upper surface of item Structure 233 includes two fixed blocks 2331, trapezoid block 2332, axis 2333, and two fixed blocks 2331 are relatively fixed in mobile item 232 Upper surface, the side of trapezoid block 2332 are installed with axis 2333, and the position that axis 2333 passes through 2332 side of trapezoid block is located at center of gravity Right side, trapezoid block 2332 can be rotated relative to axis 2333, and the both ends of axis 2333 are fixedly connected with two fixed blocks 2331 respectively, The side of trapezoid block 2332 includes bottom 23321, left side 23322, and right edge 23323, bottom 23321 is in horizontal position It sets, the height between bottom 23321 and ground is the first height, and left side 23322 is in a horizontal position, bottom 23321 Height between the intersection point and ground of right edge 23323 is the second height, and the bottom surface of the bottom wall 11 of above-mentioned drying trolley 10 is arrived The distance on ground is third height, and third height is greater than the first height, and third height is less than the second height.

When in use, because trapezoid block 2332 is eccentrically mounted, in the case where recast is exerted oneself, trapezoid block 2332 is around axis 2333 for the present apparatus Rotation, left side 23322 are overlapped with mobile 232 upper surface of item, and right edge 23323 is kept vertically, at this point, mobile item 232 is to the left Movement, trapezoid block 2332 can withstand drying trolley 10, thus drive drying trolley 10 mobile, when mobile item 232 moves right, ladder For shape block 2332 due to the effect rotation of drying trolley 10, trapezoid block 2332 and the drying disengagement of trolley 10, the present apparatus utilize mobile item 232 reciprocal operation, multiple jacking block mechanisms 233 of aligned arrangement successively act on drying trolley 10, previous jacking block mechanism 233 Will drying trolley 10 push a distance, then disengage, the latter jacking block mechanism 233 again will drying trolley 10 push again one section away from From, then disengage again, and so on, so realize drying trolley 10 intermittently move ahead, whole process without human intervention, realizes Automatic operation.

Since trapezoid block 2332 is eccentrically mounted in the utility model, when mobile item 232 moves right, trapezoid block 2332 can be pushed up Trolley 10 is firmly dried, when mobile item 232 moves downward, trapezoid block 2332 and drying trolley 10 are disengaged, to utilize mobile item 232 Reciprocal operation, multiple jacking block mechanisms 233 of aligned arrangement successively act on drying trolley 10, and previous jacking block mechanism 233 will Dry trolley 10 push a distance, then disengage, the latter jacking block mechanism 233 again will drying trolley 10 push again one section away from From, then disengage again, and so on, so realize drying trolley 10 intermittently move ahead, whole process without human intervention, realizes Automatic operation, the case where avoiding worker from burning, get an electric shock.

Referring to Fig. 1 and Fig. 2, further, relay unit 30 is two-way including the second two-way guide rails 31, mobile platform 32, third Guide rail 33, positioning unit 34, the second two-way guide rails 31 are set between the first transhipment unit 20 and drying unit 40, mobile platform 32 and second two-way guide rails 31 roll and cooperate, third two-way guide rails 33 are installed on the upper surface of mobile platform 32, and third is two-way to be led The left side of rail 33 can be docked with the first transhipment unit 20, so that drying trolley is transported to by the first transhipment unit 20, third is two-way to be led The right side of rail 33, third two-way guide rails 33 can be docked with drying unit 40, so that drying trolley is transported by third two-way guide rails 33 To drying unit 40, positioning unit 34 includes the first magnet 341, the second magnet 342, the first Hall sensor 343, the second Hall Sensor 344, controller are equipped with the first magnet 341, on a left side for drying unit 40 in the right-hand end of the first transhipment unit 20 Side is equipped with the second magnet 342, is separately installed with the first Hall sensor 343, second suddenly in the left and right sides of mobile platform 32 That sensor 344, the first Hall sensor 343, the second Hall sensor 344 are electrically connected with controller, controller and electricity Machine is electrically connected, and the idler wheel of 32 lower section of output end and mobile platform of motor is rotatablely connected, the rotation of motor driven idler wheel, and then band Dynamic mobile platform 32 is moved along the second guide rail.

When close to magnet, with the variation of magnets magnetic fields, Hall sensor can export different size of Hall sensor Hall voltage is based on this, and in present embodiment, controller is of different sizes according to the Hall voltage that Hall sensor exports, to sentence Disconnected Hall sensor is apart from the distance between magnet, so that the controller Hall voltage size that is exported according to Hall sensor is controlled The revolving speed of motor processed, for example, Hall sensor can export maximum Hall when Hall sensor and magnet distance reach nearest Voltage, at this point, controller control motor stops.

Specifically, passing through the first Hall sensor 343 and first when relay unit 30 is docked with the first transhipment unit 20 Magnet 341 controls motor；When relay unit 30 is docked with drying unit 40, pass through the second Hall sensor 344 and second Magnet 342 controls motor.

The distance between Hall sensor and magnet are detected using Hall sensor in present embodiment, is passing through control Device controls the revolving speed of motor according to the distance that Hall sensor detects, to accurately control relay unit 30 and the first transhipment Unit 20,40 automatic butt of drying unit, solve manually-operated inconvenience, and reduce the labor intensity of worker.

Referring to Fig. 3 to Fig. 7, further, drying trolley 10 includes bottom wall 11, is equipped with left side wall on the top of bottom wall 11 12, right side wall 13, left side wall 12, right side wall 13 are oppositely arranged, and are placed towards drying 10 moving direction of trolley；Left side wall 12 wraps Fixed part 121, movable part 122 are included, movable part 122 is mounted at fixed part 121, in 121 two sides side wall of fixed part Top is symmetrically provided with strip-shaped hole 1211, engaging slot 1212, is symmetrically installed with shaft in the lower part of 122 two sides side wall of movable part 1221, fastener 1222, shaft 1221 are set in strip-shaped hole 1211, so that movable part 122 is opposite centered on shaft 1221 Fixed part 121 rotates, and shaft 1221 can move up and down in strip-shaped hole 1211, so that relatively fixed about 121 portion of movable part 122 Mobile, shaft 1221 is located at the lower part of strip-shaped hole 1211, and fastener 1222 is caught in engaging slot 1212, and shaft 1221 is located at bar shaped The top in hole 1211, fastener 1222 are separated with engaging slot 1212.

Referring to Fig. 6, under normal circumstances, the movable part 122 of trolley 10 is dried in location A, in the case where charging, dried The movable part 122 of dry trolley 10 goes to B location along the direction of the arrow, and referring to Fig. 3, movable part 122 goes to the roller of molding machine at this time The lower section in road, aluminium silicon nitride cell sidewall adobe are dried in trolley 10 by roller-way horizontal feed to drying trolley 10, are avoided Manually aluminium silicon nitride cell sidewall adobe is lifted, then crosses movable part 122 in location A, then by aluminium silicon nitride Cell sidewall adobe is put into drying trolley 10, effectively reduces the labor intensity of worker.

122 switching process of movable part: movable part 122 is lifted, and the shaft 1221 of movable part 122 reaches in strip-shaped hole 1211 Portion position, fastener 1222 is separated with engaging slot 1212 at this time, and movable part 122 is being rotated centered on shaft 1221, will lived Dynamic portion 122 is overturn；Conversely, then movable part 122 is pressed downward by the overturning of movable part 122 to vertical position, movable part 122 Shaft 1221 reaches 1211 lower position of strip-shaped hole, and fastener 1222 is caught in engaging slot 1212 at this time, thus by movable part 122 It is fixed on fixed part 121.

In the present embodiment, left side wall 12 is arranged to fixed part 121, movable part 122, the shaft being arranged on movable part 122 1221, fastener 1222 and the strip-shaped hole 1211 of the setting of fixed part 121, engaging slot 1212 cooperate, and realize 122 phase of movable part Fixed part 121 is overturn, to not need worker in aluminium silicon nitride cell sidewall brick entrucking and be improved and reduce worker Labor intensity.

It is further, symmetrical from top to down to pacify on two opposite inner sidewalls of left side wall 12, right side wall 13 referring to Fig. 6 Angle steel 14 equipped with multiple settings being parallel to each other, left side wall 12,13 same level height of right side wall two angle steel 14 it Between partition 15 is detachably installed.

Referring to Fig. 3, Fig. 4, further, driving assembly 22 include supporting frame 221, first gear 222, second gear 226, First chain 223, motor 224, the second chain 225, first position sensor 227, second position sensor 228, controller, First gear 222, second gear 226 are rotatably fixed on supporting frame 221, and the input terminal of first gear 222 passes through the One chain 223 is connect with the output end of motor 224, and the output end of first gear 222 passes through the second chain 225 and second gear 226 transmission connections, the middle part of the second chain 225 are fixedly connected with the end of above-mentioned mobile item 232, first position sensor 227, Second position sensor 228 is respectively arranged in the both ends of supporting frame 221, and the end of mobile item 232 reaches first position sensing The position of device 227, mobile item 232 trigger first position sensor 227 and issue positive rotaring signal to controller, and controller receives just It controls motor 224 after rotaring signal to rotate forward, the end of mobile item 232 reaches the position of second position sensor 228, mobile item 232 triggering second position sensors 228 issue reverse signal to controller, and controller controls motor after receiving reverse signal 224 reversions.

The prior art needs to realize the bilateral reciprocation of moving assembly 23 using either-rotation motor, and in the utility model, Driving assembly 22 is merely with a motor 224, using the positive and negative bilateral reciprocation that moving assembly 23 can be realized of motor, The structure for simplifying driving assembly 22 reduces the configuration of driving assembly 22, and then also reduces the cost of equipment.

Further, mobile item 232 is equipped with directive wheel with the two sides that driving assembly 22 connect one end end, in supporting frame 221 are equipped with guide groove, and directive wheel and guide groove, which roll, to be cooperated, so that one end end that mobile item 232 is connect with driving assembly 22 Portion is moved back and forth along supporting frame 221.

Module or unit in the utility model embodiment device can be merged according to actual needs, divide and be deleted Subtract.

Above disclosures are merely preferred embodiments of the utility model, the utility model cannot be limited with this certainly Interest field, those skilled in the art can understand all or part of the processes for realizing the above embodiment, and according to this reality The equivalent variations made by novel claim, still falls within the scope of the utility model.

Claims (6)

1. a kind of aluminium silicon nitride cell sidewall brick blank drying system, it is characterised in that: the system includes drying trolley, first turn Transportation unit, relay unit, drying unit, the second transhipment unit, being arranged side by side in the side of relay unit has multiple molding machines, often One molding machine one first transhipment unit of corresponding configuration, the aluminium silicon nitride cell sidewall adobe that molding machine suppresses, which is packed into, dries Dry trolley, and relay unit is transported to by the first transhipment unit, being arranged side by side in the other side of relay unit has multiple drying single Member is equipped with one second transhipment unit in each drying unit, and the relay unit is selectable will to come from one first The drying trolley that transhipment unit transhipment comes is transported to one second transhipment unit, and described second transports unit to by drying unit Interior drying trolley is sent into from the entrance of drying unit, so that the aluminium silicon nitride electricity of the small car of drying on the second transhipment unit Solution groove sidewall adobe is dried in drying unit, is then sent out again from the outlet of drying unit, the first transhipment unit Identical as the second transhipment cellular construction, the first transhipment unit includes the first two-way guide rails, driving assembly, moving assembly, institute Stating the first two-way guide rails includes left rail and right rail disposed in parallel, and the driving component is set to the first two-way guide rails One end, the moving assembly is placed between the left rail and right rail of the first two-way guide rails, the driving component and moves Dynamic component connection, to drive moving assembly to move back and forth along the first two-way guide rails by driving assembly, the drying trolley is horizontal Across the top of the left rail and right rail, the moving assembly is moved back and forth along the first two-way guide rails direction, with Drive drying trolley along the unidirectional intermittent movement of the first two-way guide rails, the moving assembly includes support wheel, mobile item, jacking block machine Structure, for multiple support wheels along the first two-way guide rails direction aligned arrangement, the mobile item is fastened on support wheel, and rolls with support wheel The end of cooperation, mobile item is connect with driving assembly, is evenly equipped with multiple jacking block machines along its length direction in mobile upper surface Structure, the jacking block mechanism include two fixed blocks, trapezoid block, axises, the relatively fixed table on mobile item of described two fixed blocks Face, the side of the trapezoid block are installed with axis, and the position that the axis passes through trapezoid block side is located on the right side of center of gravity, and trapezoid block can It is rotated relative to axis, the both ends of axis are fixedly connected with two fixed blocks respectively, and the side of the trapezoid block includes bottom, a left side Side, right edge, bottom are in a horizontal position, and the height between bottom and ground is the first height, and left side is in water Prosposition is set, and the height between bottom and the intersection point and ground of right edge is the second height, the bottom of the bottom wall of above-mentioned drying trolley The distance on face to ground is third height, and the third height is greater than the first height, and the third height is less than the second height.

2. aluminium silicon nitride cell sidewall brick blank drying system as described in claim 1, it is characterised in that: the relay unit Including the second two-way guide rails, mobile platform, third two-way guide rails, positioning unit, second two-way guide rails are set to first turn Between transportation unit and drying unit, the mobile platform and the second two-way guide rails roll and cooperate, the third two-way guide rails installation In the upper surface of mobile platform, the left sides of the third two-way guide rails can dock with the first transhipment unit so that dry trolley by First transhipment unit is transported to third two-way guide rails, and the right side of the third two-way guide rails can be docked with drying unit, so as to dry Dry trolley is transported to drying unit by third two-way guide rails, and the positioning unit includes the first magnet, the second magnet, the first Hall Sensor, the second Hall sensor, controller are equipped with the first magnet, in drying list in the right-hand end of the first transhipment unit The left side of member is equipped with the second magnet, and the first Hall sensor, the second Hall are separately installed at left and right sides of mobile platform Sensor, the first Hall sensor, the second Hall sensor are electrically connected with controller, controller and electrical connection of motor, The output end of motor and the idler wheel below mobile platform are rotatablely connected, the rotation of motor driven idler wheel, and then drive mobile platform edge Second guide rail is mobile.

3. aluminium silicon nitride cell sidewall brick blank drying system as described in claim 1, it is characterised in that: the drying trolley Including bottom wall, left side wall, right side wall are installed on the top of bottom wall, the left side wall, right side wall are oppositely arranged, and towards drying Trolley moving direction is placed；The left side wall includes fixed part, movable part, and the movable part is mounted at fixed part, In fixed part two sides, the top of side wall is symmetrically provided with strip-shaped hole, engaging slot, and in movable part two sides, the lower part of side wall is symmetrically installed with Shaft, fastener, the shaft set is in strip-shaped hole, so that movable part is rotated centered on shaft relative to fixed portion, it is described Shaft can move up and down in strip-shaped hole, so that the relatively fixed portion of movable part moves up and down, the shaft is located under strip-shaped hole Portion, fastener are caught in engaging slot, and the shaft is located at the top of strip-shaped hole, and fastener is separated with engaging slot.

4. aluminium silicon nitride cell sidewall brick blank drying system as claimed in claim 3, it is characterised in that: described on the left side On two opposite inner sidewalls of side wall, right side wall, the angle steel of multiple settings being parallel to each other symmetrically is installed from top to down, Left side wall, right side wall same level height two angle steel between partition is detachably installed.

5. aluminium silicon nitride cell sidewall brick blank drying system as described in claim 1, it is characterised in that: the driving component Including supporting frame, first gear, second gear, the first chain, motor, the second chain, first position sensor, second Sensor, controller are set, the first gear, second gear are rotatably fixed on supporting frame, the first gear Input terminal is connected by the output end of the first chain and motor, and the output end of first gear passes through the second chain and second gear Transmission connection, the middle part of second chain are fixedly connected with the end of above-mentioned mobile item, the first position sensor, second Position sensor is respectively arranged in the both ends of supporting frame, and the end of the mobile item reaches the position of first position sensor, Mobile item triggering first position sensor issues positive rotaring signal to controller, and controller controls motor after receiving positive rotaring signal It rotates forward, the end of the mobile item reaches the position of second position sensor, and mobile item triggering second position sensor issues anti- For rotaring signal to controller, controller receives control motor reversion after reverse signal.

6. aluminium silicon nitride cell sidewall brick blank drying system as claimed in claim 5, it is characterised in that: the mobile item with The two sides that driving assembly connects one end end are equipped with directive wheel, on supporting frame be equipped with guide groove, the directive wheel with lead To the dynamic cooperation of trough roller, so that one end end that mobile item is connect with driving assembly is moved back and forth along supporting frame.