CN109516170A - Hydrogen furnace system and transfer transition device, transmission device for hydrogen furnace system - Google Patents

Abstract

The invention discloses a kind of hydrogen furnace system and for transfer transition device, the transmission device of hydrogen furnace system, the hydrogen furnace system includes hydrogen furnace and conveyer, the hydrogen stove has the first transmission surface, the conveyer has the second transmission surface, the transfer transition device include: for be located at the hydrogen furnace and the conveyer at least one on mounting base；Transition Transmission Part, the transition Transmission Part is installed on the mounting base and has transition transmission surface, and the transition transmission surface is located between first transmission surface and second transmission surface so that is transmitted in first transmission surface is transferred to second transmission surface by the transition transmission surface by Transmission Part.Transfer transition device according to an embodiment of the present invention for hydrogen furnace system can be effectively improved the case where easily being overturned, tilted by Transmission Part, make to be transmitted by Transmission Part transition more smooth, it is advantageously implemented unpowered transition transmission, staff advantageously reduces manpower and material resources without working for a long time in high-temperature region.

Description

Hydrogen furnace system and transfer transition device, transmission device for hydrogen furnace system

Technical field

The present invention relates to hydrogen furnace system technical fields, more particularly, to a kind of hydrogen furnace system and for hydrogen furnace system Transfer transition device, transmission device.

Background technique

In the related art, after product is sintered by hydrogen furnace, product is directly transmitted to end from the conveyer belt of hydrogen furnace and conveys On the conveyer belt of line, and between the conveyer belt of hydrogen furnace and the conveyer belt of end pipeline be spaced gap it is larger, cause product by When the conveyer belt transition of the conveyer belt terminad pipeline of hydrogen furnace, it is easy Caton or topples over, lead to not smoothly transit offline, Staff needs to assist product offline manually in hydrogen furnace high-temperature region, and working environment is poor, and serious waste manpower and material resources.

Summary of the invention

The present invention is directed at least solve one of the technical problems existing in the prior art.For this purpose, the present invention proposes a kind of use In the transfer transition device of hydrogen furnace system, the transfer transition device can be effectively improved easily overturned by Transmission Part, inclined feelings Condition.

The present invention also proposes a kind of transmission device for hydrogen furnace system with above-mentioned transfer transition device.

The present invention also proposes a kind of hydrogen furnace system with above-mentioned transfer transition device.

Transfer transition device according to an embodiment of the present invention for hydrogen furnace system, the hydrogen furnace system include hydrogen furnace and defeated Machine is sent, the hydrogen stove has the first transmission surface, and the conveyer has the second transmission surface, and the transfer transition device includes: use Mounting base at least one for being located at the hydrogen furnace and the conveyer；Transition Transmission Part, the transition Transmission Part installation In the mounting base and there is transition transmission surface, the transition transmission surface is located at first transmission surface and second transmission surface Between so that transmitted in first transmission surface by Transmission Part by the transition transmission surface be transferred to it is described second transmission Face.

Transfer transition device according to an embodiment of the present invention for hydrogen furnace system can be effectively improved easily to be turned over by Transmission Part , the case where tilting, makes to be transmitted by Transmission Part transition more smooth, and is advantageously implemented unpowered transition transmission, staff It works without long-time in high-temperature region, advantageously reduces manpower consumption, reduce production cost.

In addition, the transfer transition device according to the above embodiment of the present invention for hydrogen furnace system can also have it is following attached The technical characteristic added:

Transfer transition device according to an embodiment of the present invention for hydrogen furnace system, the transition Transmission Part includes transition Plate, the transition plates is parallel or inclined in horizontal direction, and the upper surface of the transition plates is formed as the transition transmission surface.

Further, the hydrogen stove has under the driving of the first driving wheel around horizontally extending axis revolution First transmission belt, first transmission surface are formed in first transmission belt, and the conveyer has the drive in the second driving wheel The second transmission belt turned round under dynamic around horizontally extending axis, second transmission surface are formed in second transmission Band, the transition plates are located at the seam crossing of first transmission belt and second transmission belt.

Further, longitudinal rear portion of the lower surface of the transition plates and longitudinal front are formed with the first inclined-plane and second tiltedly Face, first inclined-plane and the first transmission belt clearance fit and inclined forwardly and downwardly extends, institute relative to transmission direction It states the second inclined-plane and the second transmission belt clearance fit and tilts extension forward and upwards relative to the transmission direction.

Further, the minimum range between first inclined-plane and first transmission belt is L1, second inclined-plane Minimum range between second transmission belt is L2, the most narrow spacing between first transmission belt and second transmission belt From for L3, wherein 0mm≤L1≤5mm, 0mm≤L2≤5mm, 10mm≤L3≤20mm.

According to some embodiments of the present invention, the radius of first driving wheel is R1, the radius of second driving wheel For R2, the longitudinal size of the transition transmission surface is L4 and satisfaction: L4 < R1, R1 > R2.

In some embodiments of the invention, the width of first transmission belt is greater than the transverse direction at the rear portion of the transition plates Size, two sides of the rear portion of the transition plates horizontally forward and are inclined outwardly extension relative to transmission direction.

According to some embodiments of the present invention, the transition plates can be installed on institute relative to the mounting base up or down State mounting base, the transfer transition device further include: elastic component, the elastic component are connected with the transition plates and are suitable for described Transition plates applies downward driving force.

Further, the transition plates is connected by threaded fastener with the mounting base, and the elastic component is rectangle bullet Spring, the Rectangular Spring is coated at the threaded fastener and both ends offset with the mounting base and the transition plates respectively.

In some embodiments of the invention, the transition for being connected with the transition plates is provided in the mounting base to connect Connected components, the transition connection component include: the mounting plate being connected with the mounting base；Connecting plate, the connecting plate with it is described Mounting plate is connected and longitudinally movable relative to the mounting plate, and the transition plates is connected with the connecting plate and relative to described Connecting plate can move up and down, and the elastic component is located between the connecting plate and the transition plates with the upper and lower of the transition plates Movement deforms；Baffle plate, the baffle plate is connected with the mounting plate and backstop is in the front side of the connecting plate.

In some embodiments of the invention, transition transmission range, the transmission are formed with above the transition transmission surface Transition apparatus further include: at least one limit assembly, each limit assembly include actuator and limit plate, the limit plate Extend along transmission direction, at least one of described transition transmission range transverse ends are provided with the limit plate, the limit plate It is moved in the top of the transition transmission surface along the transverse reciprocating of the transition transmission surface under the driving of the actuator.

Further, the limit assembly includes two, and two limit plates of two limit assemblies are located at institute The transverse ends of transition transmission range are stated, one of them described limit plate persistently moves back and forth, and limit plate described in another one exists Reciprocating movement when being moved between two limit assemblies by Transmission Part.

It according to some embodiments of the present invention, further include sorting component, the sorting component and the hydrogen furnace and described defeated At least one of machine is sent to be connected and include: first sensor, the first sensor is used for the transition transmission surface Side's transmitting the first detection light；Second sensor, the second sensor are used for the top of transition transmission surface transmitting the Two detection light, the first detection light are higher than the second detection light, and the second detection light is higher than the transition Transmission surface.

Further, the first sensor is area sensor, and the first detection light includes passing along the transition Being laterally extended for defeated part is a plurality of, and the second sensor is line sensor and the second detection light is transmitted along the transition Part is laterally extended.

According to some embodiments of the present invention, the mounting base include: for in the hydrogen furnace and conveyer at least The main base frame of one connection；Transmission surface limit plate, the transmission surface limit plate include two and are connected respectively with the main base frame, Two transmission surface limit plates be located at the two sides of the width direction of first transmission surface and with first transmission surface Clearance fit；Guide plate, the guide plate is connected with one of them in the main base frame and the transmission surface limit plate, described Guide plate include two and be located at first transmission surface width direction two sides, between two guide plates away from It is limited from less than the distance between two described transmission surface limit plates, the transition Transmission Part and the main base frame, the transmission surface At least one of position plate and described guide plate are connected.

According to some embodiments of the present invention, the diameter of second driving wheel is less than the diameter of first driving wheel, Second driving wheel includes that two and two second driving wheels are staggered in the transmit direction and are staggered in the up-down direction, Positioned at the pivot center of second driving wheel of upside and the pivot center of first driving wheel along the transmission direction Spacing is less than the radius of first driving wheel.

Transmission device according to an embodiment of the present invention for hydrogen furnace system includes according to an embodiment of the present invention for hydrogen The transfer transition device of furnace system.

Hydrogen furnace system according to an embodiment of the present invention includes being transmitted across for hydrogen furnace system according to an embodiment of the present invention Cross device.

Additional aspect and advantage of the invention will be set forth in part in the description, and will partially become from the following description Obviously, or practice through the invention is recognized.

Detailed description of the invention

Above-mentioned and/or additional aspect of the invention and advantage will become from the description of the embodiment in conjunction with the following figures Obviously and it is readily appreciated that, in which:

Fig. 1 is the structural schematic diagram of hydrogen furnace system according to an embodiment of the present invention；

Fig. 2 is the top view of hydrogen furnace system according to an embodiment of the present invention；

Fig. 3 is cross-sectional view of the Fig. 2 along direction shown in line A-A；

Fig. 4 is that Fig. 3 centre circle shows enlarged structure schematic diagram at B；

Fig. 5 is the top view of the transfer transition part of transfer transition device according to an embodiment of the present invention；

Fig. 6 is cross-sectional view of the Fig. 5 along direction shown in line C-C；

Fig. 7 is the structural schematic diagram of an angle of transfer transition device according to an embodiment of the present invention；

Fig. 8 is the structural schematic diagram of another angle of transfer transition device according to an embodiment of the present invention；

Fig. 9 is that Fig. 8 centre circle shows enlarged structure schematic diagram at D；

Figure 10 is the main view of transfer transition device according to an embodiment of the present invention；

Figure 11 is the top view of transfer transition device according to an embodiment of the present invention；

Figure 12 is cross-sectional view of the Figure 11 along direction shown in E-E line；

Figure 13 is that Figure 12 centre circle shows enlarged structure schematic diagram at G；

Figure 14 is cross-sectional view of the Figure 11 along direction shown in F-F line；

Figure 15 is that Figure 14 centre circle shows enlarged structure schematic diagram at H.

Appended drawing reference:

First by Transmission Part 310；Second by Transmission Part 320；

Hydrogen furnace system 200；Hydrogen furnace 210；First transmission surface 2101；First driving wheel 2102；First transmission belt 2103；Conveying Machine 220；Second transmission surface 2201；Second driving wheel 2202；Second transmission belt 2203；

Transfer transition device 100；

Mounting base 10；Transition connection component 11；Connecting plate 111；Mounting plate 112；Baffle plate 113；Main base frame 12；Transmission surface Limit plate 13；Guide plate 14；Mounting bracket 15；

Transition Transmission Part 20；Transition plates 20 '；Transition transmission surface 201；First inclined-plane 202；Second inclined-plane 203；

Elastic component 30；Threaded fastener 31；

Limit assembly 40；Actuator 41；Limit plate 42；

Sorting component 50；First sensor 51；Second sensor 52.

Specific embodiment

The embodiment of the present invention is described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning to end Same or similar label indicates same or similar element or element with the same or similar functions.Below with reference to attached The embodiment of figure description is exemplary, and for explaining only the invention, and is not considered as limiting the invention.

In the description of the present invention, it is to be understood that, term " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside", " axial direction ", " diameter To ", the orientation or positional relationship of the instructions such as " circumferential direction " be to be based on the orientation or positional relationship shown in the drawings, be merely for convenience of retouching It states the present invention and simplifies description, rather than the device or element of indication or suggestion meaning must have a particular orientation, with specific Orientation construction and operation, therefore be not considered as limiting the invention.

In the description of the present invention, " transverse direction " refers to the direction perpendicular to transmission direction in the horizontal plane, for example, in Fig. 1 Shown in left and right directions, " longitudinal direction " refers to the direction for being parallel to transmission direction in the horizontal plane, for example, shown in Fig. 1 front and back Direction, " transmission direction " refers to the direction transmitted from the first transmission surface 2101 to the second transmission surface 2201, for example, shown in Fig. 1 Direction from the front to the back.

The transfer transition device according to an embodiment of the present invention for hydrogen furnace system 200 is described below with reference to Fig. 1-Figure 15 100。

Referring to Fig.1 shown in-Fig. 4, hydrogen furnace system 200 may include hydrogen furnace 210 and conveyer 220, and hydrogen furnace 210 has first Transmission surface 2101, conveyer 220 have the second transmission surface 2201, are transferred to the second biography by the first transmission surface 2101 by Transmission Part The chances of losing games 2201 is realized offline by Transmission Part.It optionally, can be the product handled by 210 high temperature sintering of hydrogen furnace by Transmission Part, Such as magnetron output products and magnetic pole box etc..

Referring to shown in Fig. 5-Figure 15, the transfer transition device 100 according to an embodiment of the present invention for hydrogen furnace system 200 can To include: mounting base 10 and transition Transmission Part 20.

Specifically, mounting base 10 can be located at least one of hydrogen furnace 210 and conveyer 220, transition Transmission Part 20 It can be installed on mounting base 10, to realize the fixation of transfer transition device 100.Transition Transmission Part 20 can have transition transmission surface 201, and transition transmission surface 201 can be located between the first transmission surface 2101 and the second transmission surface 2201.First transmission as a result, What is transmitted on face 2101 can be transferred to the second transmission surface 2201 by transition transmission surface 201 by Transmission Part.

That is, transition transmission surface 201 can block or partial occlusion the first transmission surface 2101 and the second transmission surface Transition gap between 2201, by Transmission Part from the first transmission surface 2101 to when the second 2201 transition of transmission surface, not by Transmission Part The transition gap being easily caught between the first transmission surface 2101 and the second transmission surface 2201, work more smooth by Transmission Part transfer transition It is offline by Transmission Part transition without assisting for a long time in high-temperature region to make personnel, advantageously reduces production cost.

It should be noted that in the transmit direction, it can be seamless between transition transmission surface 201 and the first transmission surface 2101 Docking can also be spaced apart preset distance docking, can be with seamless right between transition transmission surface 201 and the second transmission surface 2201 It connects, preset distance docking can also be spaced apart, this can reduce the first transmission surface 2101 and second by transition transmission surface 201 Transition gap between transmission surface 2201, to improve the phenomenon that easily being overturned, tilting by Transmission Part.

And in the present invention, transition transmission surface 201 is plane, and the area for blocking transition gap is bigger, and occlusion effect is more It is good, it prevents more preferable by Transmission Part overturning, inclined effect.And plane makes by Transmission Part to small by the frictional resistance of Transmission Part Transition transmission is more smooth.

It, can be in addition, transmit driving force without additional transition when 201 transition of transition transmission surface is transmitted by Transmission Part Realize automatic butt, unpowered transition transmission is conducive to the structure for simplifying transfer transition device 100, reduces energy consumption.By Transmission Part It is moved in transition transmission surface 201 under the transmitting effect of the first transmission surface 2101.In some embodiments, transition transmission surface On 201 by Transmission Part under the transmitting effect of at least one of the first transmission surface 2101 and the second transmission surface 2201, by mistake It crosses transmission surface 201 and is transmitted to the second transmission surface 2201.In further embodiments, being existed in transition transmission surface 201 by Transmission Part Under the promotion by Transmission Part of rear side, the second transmission surface 2201 is transmitted to by transition transmission surface 201.

Transfer transition device 100 according to an embodiment of the present invention for hydrogen furnace system 200, by the first transmission surface 2101 and second transition transmission surface 201 is arranged between transmission surface 2201, can be effectively improved easily overturned by Transmission Part, inclined feelings Condition, makes to be transmitted by Transmission Part transition more smooth, and is advantageously implemented unpowered transition transmission, staff without existing for a long time High-temperature region work, advantageously reduces manpower consumption, reduces production cost.

In the present invention, transition Transmission Part 20 may include transition plates 20 ', and the upper surface of transition plates 20 ' can be formed as Transition transmission surface 201,20 ' structure of cab apron is simple, and transition transmission surface 201 is smoother, and frictional resistance is smaller.Optionally, some In embodiment, transition plates 20 ' can be parallel to horizontal direction, be transmitted with realizing by the transition of Transmission Part in the horizontal direction；Another In some embodiments, transition plates 20 ' can favour horizontal direction, be transmitted with realizing by the angled transition of Transmission Part.Transition plates 20 ' can satisfy different transition transmission demands, and applicability is stronger.

Further, as shown in Figure 3 and Figure 4, hydrogen furnace 210 can have the first driving wheel 2102 and the first transmission belt 2103, the first transmission belt 2103 is turned round under the driving of the first driving wheel 2102 around horizontally extending axis.First passes The chances of losing games 2101 is formed in the first transmission belt 2103, for example, first transmission belt 2103 is located in Fig. 3 and example shown in Fig. 4 The upper surface of the flat segments of upside is formed as the first transmission surface 2101.

Conveyer 220 can have the second driving wheel 2202 and the second transmission belt 2203, and the second transmission belt 2203 is second It is turned round under the driving of driving wheel 2202 around horizontally extending axis.Second transmission surface 2201 is formed in the second transmission belt 2203, for example, the upper surface of the flat segments positioned at upside of second transmission belt 2203 is formed in Fig. 3 and example shown in Fig. 4 For the second transmission surface 2201.

In addition, as shown in figure 4, preventing the first biography with seam between the first transmission belt 2103 and the second transmission belt 2203 Defeated band 2103 and the second transmission belt 2203 are contacted and are interfered.And under the action of the first driving wheel 2102, the first transmission The revolution end close to the second transmission belt 2203 with 2103 has segmental arc.Under the action of the second driving wheel 2202, second The revolution end close to the first transmission belt 2103 of transmission belt 2203 also has segmental arc.Segmental arc inevitably increases Transition gap between one transmission surface 2101 and the second transmission surface 2201.

In the present invention, transition plates 20 ' can be located at the seam crossing of the first transmission belt 2103 and the second transmission belt 2203, with The upper surface of transition plates 20 ' is set to dock the first transmission surface 2101 and the second transmission surface 2201, to reduce transition gap, effectively The case where improvement is easily tilted, is overturned by Transmission Part.

Further, as shown in Figure 4-Figure 6, longitudinal rear portion of the lower surface of transition plates 20 ' could be formed with the first inclined-plane 202, the first inclined-plane 202 can be with 2103 clearance fit of the first transmission belt, and the first inclined-plane 202 can be relative to transmission direction Inclined forwardly and downwardly extend.The projection of the segmental arc of transition plates 20 ' and the first transmission belt 2103 along the vertical direction as a result, can be with Have least partially overlapped, keep the gap between the longitudinally aft end of transition plates 20 ' and the first transmission surface 2101 smaller, by Transmission Part by First transmission surface 2101 to be less susceptible to when transition 201 transition of transmission surface inclination, overturn.Here, " clearance fit " can be understood as Offset or be spaced apart preset distance.

In addition, longitudinal front of the lower surface of transition plates 20 ' could be formed with second tiltedly with continued reference to shown in Fig. 4-Fig. 6 Face 203, the second inclined-plane 203 can be with 2203 clearance fits of the second transmission belt, and the second inclined-plane 203 can be relative to transmission side Extend to forward and upwards inclination.The projection of the segmental arc of transition plates 20 ' and the second transmission belt 2203 along the vertical direction as a result, can It is least partially overlapped to have, keep the gap between longitudinal front end of transition plates 20 ' and the second transmission surface 2201 smaller, by Transmission Part From transition transmission surface 201 to be less susceptible to when the second 2201 transition of transmission surface inclination, overturn.Here, " clearance fit " can be phase Support or be spaced apart preset distance.

It should be noted that in example as shown in Figure 4 and Figure 6, the longitudinal cross-section of transition plates 20 ' be it is trapezoidal, it is trapezoidal A bottom edge where plate face be transition transmission surface 201, the plate face where two trapezoidal bevel edges is respectively the first inclined-plane 202 With the second inclined-plane 203, trapezoidal along the vertical direction smaller prevents transition plates 20 ' and first conveyer belt 2103 and second defeated Band 2203 is sent to interfere.And in other specific embodiments, the longitudinal cross-section of transition plates 20 ' can be triangle, triangle Plate face where three sides of shape can be respectively transition transmission surface 201, the first inclined-plane 202 and the second inclined-plane 203, this is also at this Within the protection scope of invention.Optionally, transition plates 20 ' can be sheet metal component, and sheet metal component structure is secured, is unlikely to deform and easily In processing.

In some embodiments of the invention, as shown in figure 4, between the first inclined-plane 202 and the first transmission belt 2103 most Small distance is L1, and the minimum range between the second inclined-plane 203 and the second transmission belt 2203 is L2, the first transmission belt 2103 and second Minimum range between transmission belt 2203 is L3.

Wherein, L1 can satisfy 0mm≤L1≤5mm, make to offset between transition plates 20 ' and the first transmission belt 2103 or Small distance is separated, so that more smooth from the first transmission surface 2101 to 201 transition of transition transmission surface transmission by Transmission Part.For example, In certain embodiments, L1 can be respectively 1mm, 2mm, 3mm and 4mm etc..It should be noted that the first inclined-plane 202 The smallest position of distance can be any position of the first inclined-plane 202 along longitudinal direction between the first transmission belt 2103, for example, can be with For the rearmost end of the first inclined-plane 202 along longitudinal direction.

L2 can satisfy: 0mm≤L2≤5mm, make to offset or be spaced apart between transition plates 20 ' and the second transmission belt 2203 Small distance, so that more smooth from transition transmission surface 201 to 2201 transition of the second transmission surface transmission by Transmission Part.For example, one In a little specific embodiments, L2 can be respectively 1mm, 2mm, 3mm and 4mm etc..It should be noted that the second inclined-plane 203 with The smallest position of distance can be any position of the second inclined-plane 203 along longitudinal direction between two transmission belts 2203, for example, can be the The front end of two inclined-planes 203 along longitudinal direction.

L3 can satisfy: 10mm≤L3≤20mm, for example, in certain embodiments, L3 can be respectively 12mm, 14mm, 15mm, 16mm and 18mm etc. make that setting can be spaced apart between the first transmission belt 2103 and the second transmission belt 2203.

On the one hand the mutually abrasion of the first transmission belt 2103 and the second transmission belt 2203 can be prevented and influence service life and Efficiency of transmission.Such as in hydrogen furnace system 200, the first transmission belt 2103 can be high temperature resistant and the biggish iron wire network chain of hardness, Second transmission belt 2203 can cross high-temperature area and be easy for light weight and the big compounded rubber transmission belt of frictional force, wire netting chain warp It deforms, surface is uneven, and is easy to cause compounded rubber to transmit if iron wire network chain is directly contacted with compounded rubber transmission belt Belt wear is serious, or even influences the normal transmission of compounded rubber transmission belt and iron wire network chain.On the other hand the first transmission belt 2103 And second spacing distance between transmission belt 2203 it is not too big, be conducive to reduce the first transmission surface 2101 and the second transmission surface 2201 Between transition gap, and then be conducive to reduce transition transmission surface 201 longitudinal size, be advantageously implemented unpowered transmission.

According to some embodiments of the present invention, as shown in Figure 3-Figure 5, the radius of the first driving wheel 2102 is R1, and transition passes The longitudinal size of the chances of losing games 201 is L4, and R1 and L4 can satisfy: L4 < R1.As a result, in the transmit direction, transition transmission surface 201 extension size is smaller, prevents from excessively being accumulated in transition transmission surface 201 by Transmission Part and causing frictional resistance excessive, shadow Ring normal transient transmission.After being transferred in transition transmission surface 201 by Transmission Part, front side can be by the quilt of rear side by Transmission Part Transmission Part pushes forward, so that front side can be pushed to the second transmission surface 2201 by Transmission Part by transition transmission surface 201, realizes It is automatically offline by Transmission Part, in the process, without additional driving force, it is advantageously implemented unpowered transition transmission.

Optionally, in use, can be L5 by the longitudinal size of Transmission Part, L4 can L5 less than two times, into One step guarantees can smoothly automatic Transition transmission by Transmission Part.

In addition, as shown in figure 4, the radius of the second driving wheel 2202 is that R2, R1 and R2 can satisfy: R1 > R2.Edge as a result, The projection of up and down direction, First Driving Force 2102 and the second driving force 2202 can overlap.That is, in transmission side Upwards, the distance between pivot center of the pivot center of First Driving Force 2102 and the second driving wheel 2202 can be less than R1 and The sum of R2 makes the vertical of transition transmission surface 201 to reduce the transition gap between the first transmission surface 2101 and the second transmission surface 2201 To smaller, it is advantageously implemented unpowered transmission, keeps transition transmission more smooth.

In some embodiments, as shown in figure 4, the second driving wheel 2202 may include two, two the second driving wheels 2202 can be staggered in the transmit direction, and two the second driving wheels 2202 can be staggered in the up-down direction, make the second biography Defeated band 2203 can be formed as edge of a knife band, not only improve reduction transition gap, and make the upper surface of the second transmission belt 2203 under It can be sufficiently spaced between surface, in order to install and convey.In addition, being located at turning for the second driving wheel 2202 of upside The pivot center of shaft line and the first driving wheel 2102 can be less than the radius of the first driving wheel 2102 along the spacing of transmission direction R1 reduces the longitudinal size of transition transmission surface 201 to further decrease transition gap, keeps transition transmission more smooth.

In 210 high-temperature sintering process of hydrogen furnace, the first transmission belt 2103, which drives, passes through high-temperature area, therefore the by Transmission Part One transmission belt 2103 inevitably will appear deformation, for example, the first transmission belt 2103 width direction two sides along easy hair Raw chain rupture causes two sides along being uneven with middle section, is easy to hook transition plates 20 ', transition is caused to be failed.

Therefore, in the present invention, as shown in figure 5, the width of the first transmission belt 2103 (i.e. the first transmission belt 2103 is transversely The size of extension) be greater than transition plates 20 ' rear portion lateral dimension, the two side phases of the rear portion of transition plates 20 ' horizontally Forward and extension is inclined outwardly for transmission direction.That is, the lateral dimension at the rear portion of transition plates 20 ' along transmission direction by It is cumulative big, or it is to be understood that the transverse ends at the rear portion of transition plates 20 ' can cut with chamfering notch, make in transmission process, The two sides of transition plates 20 ' and the width direction of the first transmission belt 2103 prevent the first transmission belt 2103 of deformation along contactless Transition plates 20 ' is hooked, and notch is transmitted on by Transmission Part transition without influence.

In 210 high-temperature sintering process of hydrogen furnace, the first transmission belt 2103 is easily deformed by high-temperature area, after deformation The surface of first transmission belt 2103 is uneven, and is easy to keep the first transmission surface 2101 and the distance between transition plates 20 ' excessive, make Topple over that risk increases or the first transmission surface 2101 may hook transition plates 20 ' and influence normal transmission by Transmission Part.

Therefore, in the present invention, as shown in Fig. 7-Figure 13, transition plates 20 ' can be installed on mounting base 10, and transition plates 20 ' can move up and down relative to mounting base 10, and transfer transition device 100 can also include elastic component 30, and elastic component 30 can be with It is connected with transition plates 20 ', and elastic component 30 can apply downward driving force to transition plates 20 '.As a result, in the first transmission belt When 2103 rotation, under the driving effect of elastic component 30, transition plates 20 ' can change with the height on 2103 surface of the first transmission belt And move up and down, flexible floating structure is formed, transition plates 20 ' offsets or be spaced apart minimum with the surface of the first transmission belt 2103 Distance prevents the first transmission belt 2103 from hooking transition plates 20 ', is also prevented from the first transmission belt 2103 and 20 ' spacing of transition plates is excessive And influence transition transmission.

Further, as shown in Fig. 9-Figure 13, transition plates 20 ' can be connected by threaded fastener 31 with mounting base 10, Elastic component 30 can be Rectangular Spring, and Rectangular Spring can be externally fitted to threaded fastener 31, to realize the limit to Rectangular Spring. The both ends of Rectangular Spring can offset with mounting base 10 and transition plates 20 ' respectively, and the both ends of Rectangular Spring are more smooth, with mounting base 10 and transition plates 20 ' only support more stable, be not susceptible to deflection, apply Rectangular Spring to transition plates 20 ' always stable downward Driving force.

In some embodiments, as shown in Fig. 9-Figure 13, transition connection component 11, transition can be set in mounting base 10 Plate 20 ' can be connected with transition connection component 11, so that transition plates 20 ' is installed on mounting base 10.

Specifically, transition connection component 11 may include: connecting plate 111, mounting plate 112 and baffle plate 113.Wherein, pacify Loading board 112 can be connected with mounting base 10, and here, mounting plate 112 is connected with mounting base 10 can be understood as mounting plate 112 and peace Filling seat 10 can be the seperated part being connected as together, it is understood that may be integrally formed for mounting plate 112 in mounting base 10.

As Figure 9-Figure 11, connecting plate 111 can be connected with mounting plate 112, and transition plates 20 ' can be with connecting plate 111 It is connected, for example, being connected by threaded fastener 31.And transition plates 20 ' can move up and down relative to connecting plate 111.Elasticity Part 30 can be located between transition plates 20 ' and connecting plate 111, and elastic component 30 can be moved up and down with transition plates 20 ' and be deformed, To apply downward driving force to transition plates 20 ' during transition plates 20 ' moves up and down.

As shown in figures 9 and 11, connecting plate 111 can be connected with mounting plate 112, and connecting plate 111 is relative to installation Plate 112 can vertically move, and then keep transition plates 20 ' adjustable relative to the lengthwise position of the first transmission surface 2101, according to reality Border situation needs to adjust the minimum range between transition transmission surface 201 and the first transmission surface 2101.For example, in some instances, Connecting plate 111 is connected by fastener with mounting plate 112, and tight in one of them in connecting plate 111 and mounting plate 112 Firmware mounting hole is the strip-shaped hole extended longitudinally, the fastener peace in the another one in connecting plate 111 and mounting plate 112 Dress hole is circular hole, and by adjusting fastening position of the fastener in strip-shaped hole, connecting plate 111 may be implemented relative to mounting plate 112 lengthwise position is adjusted.

As Figure 9-Figure 11, baffle plate 113 can be connected with mounting plate 112, and baffle plate 113 can be with backstop even The front side of fishplate bar 111.In 2103 transmission process of the first transmission belt, the surface of the first transmission belt 2103 offsets with transition plates 20 ' When, forward tangential force can be applied to transition plates 20 '.When tangential force is excessive or transmission time is too long, in fact it could happen that connecting plate 111 the case where loosening with the securing member of mounting plate 112, cause connecting plate 111 and transition plates 20 ' relative to mounting plate 112 It moves forward.Baffle plate 113 carries out longitudinal backstop limit to connecting plate 111 by the front side of connecting plate 111, can prevent transition plates 20 ' under the action of tangential force move forward or move forward apart from it is excessive and cause transition transmission surface 201 with first transmission Gap between face 2101 is excessive.

According to some embodiments of the present invention, as shown in Figure 7 and Figure 8, transition transmission surface 201 can be formed above Transmission range is crossed, transfer transition device 100 can also include at least one limit assembly 40, and each limit assembly 40 may include driving Moving part 41 and limit plate 42.Wherein, limit plate 42 can extend along transmission direction, in the transverse ends of transition transmission range at least One can be set limit plate 42.Under the driving of actuator 41, limit plate 42 can be on the top edge of transition transmission surface 201 The transverse reciprocating of transition transmission surface 201 is mobile.

Optionally, actuator 41 can be smoothing cylinder.Optionally, limit plate 42 intermittent can move back and forth.Limit The adjacent interval duration moved back and forth twice of plate 42 can be equal to or more than the duration moved back and forth, can both be transmitted with righting Part, and energy consumption can be reduced.

When being transmitted to transition transmission range by Transmission Part as a result, it can arrange more neatly, be not easy under the promotion of limit plate 42 It shifts.For example, being rectangular box by Transmission Part in some embodiments, rectangular box was transmitted to by the first transmission surface 2101 When crossing transmission surface 201, due to the influence of frictional resistance or transition gap, the longitudinal stress of rectangular box is uneven, it may occur however that Rotation causes rectangular box in disorder in transition transmission zone position, influences rear side by the transmission of Transmission Part, also influences rectangular box to second The transmission of transmission surface 2201, while also will affect rectangular box offline later packaging efficiency or assembly efficiency.And limit plate 42 Laterally urge and can prevent rectangular box from rotating, or rectangular box can be made not tilt the rectangular box righting of rotation, can With smoothly transit transmit it is offline.

Optionally, as shown in Fig. 7, Figure 14 and Figure 15, limit plate 42 can be greater than transition along the extension size of transmission direction The longitudinal size of transmission surface 201, limit plate 42 can exceed the rear end of transition transmission surface 201 backward, and limit plate 42 can be with Exceed the front end of transition transmission surface 201 forward.Transition transmission surface is being transmitted to by the first transmission surface 2101 by Transmission Part as a result, During 201, the second transmission surface is transmitted to during mobile in transition transmission surface 201 and by transition transmission surface 201 During 2201, limit plate 42 can carry out righting to by Transmission Part, make 42 pairs of the limit plate righting effects by Transmission Part More preferably, a limit plate 42 can act on multiple transmission processes, can simplify the structure of limit assembly 40.

Further, as shown in Fig. 7-Figure 12, limit assembly 40 may include two, two limits of two limit assemblies 40 Position plate 42 can be respectively provided at the transverse ends of transition transmission range, and one of limit plate 42 can continue to move back and forth, wherein Another limit plate 42 can the reciprocating movement when being moved between two limit assemblies 40 by Transmission Part.

As a result, when not moved to by Transmission Part between two limit assemblies 40, between the minimum before two limit plates 42 Away from relatively large, not only righting can be carried out to by Transmission Part, but also can enable to can smoothly enter into two limit assemblies by Transmission Part Between 40, interferes and cannot be introduced between two limit assemblies 40 with limit plate 42 when preventing from deviating excessive by Transmission Part. And when being moved to by Transmission Part between two limit assemblies 40, two limit plates 42 are mobile simultaneously, between two limit plates 42 Minimum spacing it is relatively small, can be improved to by the effect of Transmission Part righting.

In the related art, the offline system of hydrogen furnace can not carry out automatic sorting to by Transmission Part, and therefore, hydrogen furnace can only be simultaneously It is sintered a kind of product, or needs staff to sort manually in high-temperature area for a long time mixed flow product, wasting manpower and material resources, It is unfavorable for the health of staff simultaneously.

And in the present invention, as shown in Figure 7 and Figure 8, transfer transition device 100 can also include sorting component 50, sorting Component 50 can be connected at least one of hydrogen furnace 210 and conveyer 220.Sorting component 50 may include: first sensor 51 and second sensor 52.As shown in Figure 10, first sensor 51 can emit the first detection to the top of transition transmission surface 201 Light, second sensor 52 can emit the second detection light to the top of transition transmission surface 201, and the first detection light is high Light is detected in second, the second detection light is higher than transition transmission surface 201.

The first detection light and the second detection light can detecte the difference height of different 201 tops of transition transmission surface as a result, Whether whether degree has by Transmission Part, and then judge to have in transition transmission surface 201 according to testing result and be passed through by Transmission Part, Yi Ji When having by Transmission Part, judge by the type of Transmission Part, and then realized according to judging result by the automatic sorting of Transmission Part, Staff advantageously reduces manpower and material resources without being sorted manually in high-temperature region for a long time.

It include first by Transmission Part 310 and the by Transmission Part for example, in some 210 high temperature sintering transmission processes of hydrogen furnace Two by Transmission Part 320, wherein first is higher than second by the height of Transmission Part 320, the first detection light by the height of Transmission Part 310 Line is higher than the second detection light and lower than first by the top of Transmission Part 310, and the second detection light is higher than transition transmission surface 201 And lower than second by the top of Transmission Part 320.

As a result, when the first detection light, which detects, to be had in transition transmission surface 201 by Transmission Part, in transition transmission surface 201 For first by Transmission Part 310, after first is further transmitted to the second transmission surface 2201 by Transmission Part 310, the second transmission surface 2201 can be delivered to the first predetermined position by Transmission Part 310 for first, to realize automatic sorting；When the first detection light detection On to transition transmission surface 201 not by Transmission Part and the second detection light detects when having in transition transmission surface 201 by Transmission Part, Second transmission surface 2201 is further transmitted to by Transmission Part 320 by Transmission Part 320, second for second in transition transmission surface 201 Afterwards, the second transmission surface 2201 can be delivered to the second predetermined position by Transmission Part 320 for second, to realize automatic sorting；When When one detection light and the second detection light are detected in transition transmission surface 201 not by Transmission Part, then in transition transmission surface 201 Without first by Transmission Part 310 and second by Transmission Part 320.

Optionally, as shown in Fig. 7-Fig. 9 and Figure 13, mounting base 10 may include mounting bracket 15,51 He of first sensor Second sensor 52 can be connected with mounting bracket 15 respectively, and the height of mounting bracket 15 is adjustable, by adjusting mounting bracket 15 Height adjustable first detection light and the second detection light and transition transmission surface 201 spacing, and second sensor 52 relative to mounting bracket 15 height it is adjustable, make the first detection light and second detect light between spacing it is adjustable.

First sensor 51 and second sensor 52 can satisfy the automatic sorting by Transmission Part of different height as a result,. Certainly, in the present invention, sorting component 50 can also include 3rd sensor, the 4th sensor and more multisensor, Duo Gechuan The detection light of sensor can be distributed in different height along the vertical direction, full to realize more kinds of automatic sortings by Transmission Part The more use demands of foot.

Further, as shown in Fig. 7-Fig. 9 and Figure 15, first sensor 51 can be area sensor, such as fiber region Zone sensors, first detection light may include it is a plurality of along being laterally extended for transition Transmission Part 20, to form opposite type sensor. It should be noted that the front and rear of first sensor 51 respectively illustrates several first detections in Fig. 7-Fig. 9 and Figure 15 Light, and in fact, front, middle part and the rear portion of first sensor 51 along the longitudinal direction can have the first detection light, Keep first sensor 51 more comprehensively accurate to the detection of transition transmission region.Second sensor 52 can be line sensor, such as Photoelectric sensor, and the second detection light being laterally extended along transition Transmission Part 20.

First sensor 51 can detecte in the transition transmission range above transition transmission surface 201 whether have first as a result, By Transmission Part 310, it can control second on rear side of transmission direction if having and do not continued to pass to transition transmission range by Transmission Part 320 It is defeated, prevent second to be mixed with first by Transmission Part 310 in transition transmission range by Transmission Part 320 and influence to sort.

For example, in certain embodiments, as shown in Figure 7 and Figure 8, first by Transmission Part 310 is circular piece, the second quilt 320 square piece of Transmission Part, the lateral dimension of circular piece are less than the lateral dimension of square piece, and every ten circular pieces transversely line up one Row is transferred to transition transmission range, and every two square piece, which is transversely arranged in a row, is transferred to transition transmission range.If transition is transmitted When having circular piece in area, square piece is transferred to transition transmission range, and square piece can impact circular piece, destroys the array row of circular piece Cloth, leads to circular piece and the entanglement of square piece array, unordered arrangement, and circular piece and square piece pass through the first detection light and the simultaneously Two detection light, cause first sensor 51 and second sensor 52 to detect mistake, cannot achieve and sorted by Transmission Part.

In the present invention, after circular piece enters transition transmission range, first sensor 51, which can detecte transition transmission range, to be had Circular piece, and control the square piece in the first transmission surface 2101 and do not continue to transmit to transition transmission range, when the circle of transition transmission range After shape part is completely transferred to the second transmission surface 2201, the square piece in the first transmission surface 2101 just continues to pass to transition transmission range It is defeated.First sensor 51 and the cooperation of second sensor 52 can be efficiently accomplished by the resolved detection of Transmission Part, and automatic sorting is more quasi- Really.

According to some embodiments of the present invention, as shown in Fig. 7, Fig. 8 and Figure 11, mounting base 10 may include: main base frame 12, Transmission surface limit plate 13 and guide plate 14.Transition Transmission Part 20 can be with main base frame 12, transmission surface limit plate 13 and guide plate 14 At least one of be connected, transmission surface limit plate 13 can be connected with main base frame 12, guide plate 14 can with main base frame 12 and biography One of them in chances of losing games limit plate 13 is connected, and main base frame 12 can be at least one of hydrogen furnace 210 and conveyer 220 even It connects, hereby it is achieved that the fixation of transfer transition device 100.

Optionally, hydrogen furnace 210 may include hydrogen furnace cradle, and conveyer 220 may include conveyer bridge, and main base frame 12 can To be connected at least one of hydrogen furnace cradle and conveyer bridge, main base frame 12 also may be integrally formed in hydrogen furnace cradle or Conveyer bridge.

In the embodiment for including transition connection component 11, the mounting plate 112 of transition connection component 11 can be with main base frame 12, at least one of transmission surface limit plate 13 and guide plate 14 are connected, to realize the fixation of transition Transmission Part 20.For example, In Fig. 1-specific embodiment shown in figure 15, transmission surface limit plate 13 is located between main base frame 12 and guide plate 14, guiding The front of plate 14 is formed as mounting plate 112, and transition Transmission Part 20 is connected with the front of guide plate 14, and guide plate 14 and transmission surface limit Position plate 13 is connected, and transmission surface limit plate 13 is connected with main base frame 12, and main base frame 12 is connected with the hydrogen furnace cradle of hydrogen furnace 210, thus It realizes the fixation of transfer transition device 100, realizes the fixation of transition Transmission Part 20.

It is including in embodiment for fixing the mounting bracket 15 of first sensor 51 and second sensor 52, such as Fig. 8 Shown, mounting bracket 15 can be connected with main base frame 12, and to realize the fixation of sorting component 50, transfer transition device 100 is integrated Setting, more compact structure, installation are more convenient.

As shown in Fig. 1 and Figure 11, transmission surface limit plate 13 may include two, and two transmission surface limit plates 13 can be distinguished Positioned at the two sides of the width direction of the first transmission surface 2101, and two transmission surface limit plates 13 can respectively with the first transmission surface 2101 clearance fits are limited with the lateral position to the first transmission surface 2101, prevent the first transmission surface 2101 by high temperature Area influences to transmit after being sintered repeatedly because of deformation, shrink, sideslip or damage.

With continued reference to shown in Fig. 1 and Figure 11, guide plate 14 also may include two, and two guide plates 14 can be located at The two sides of the width direction of first transmission surface 2101, and less than two transmission surface limit plates of the distance between two guide plates 14 The distance between 13.Guide plate 14 is located at the rear side of transition Transmission Part 20 as a result, and the guiding of guide plate 14 is first passed through by Transmission Part It is transmitted to transition transmission surface 201 again, is beneficial to prevent and is tilted by Transmission Part, keeps transition transmission more smooth.And the first transmission surface The two sides of 2101 width direction are sintered repeatedly in high-temperature region and are easily deformed chain rupture, will affect with being contacted by Transmission Part by Transmission Part Transmission, and guide plate 14 makes to be made to be transmitted by the deformation chain rupture region certain distance of the first transmission surface of Transmission Part distance 2101 Part transmission is more smooth.

Transmission device according to an embodiment of the present invention for hydrogen furnace system 200 includes according to an embodiment of the present invention is used for The transfer transition device 100 of hydrogen furnace system 200.Due to the transfer transition according to an embodiment of the present invention for hydrogen furnace system 200 Device 100 has above-mentioned beneficial technical effect, therefore the transmission device according to an embodiment of the present invention for hydrogen furnace system 200 It can be effectively improved the case where easily being overturned, tilted by Transmission Part, make to be transmitted by Transmission Part transition more smooth, and be advantageously implemented Unpowered transition transmission, staff advantageously reduce manpower consumption, reduction is produced into without working for a long time in high-temperature region This.

Hydrogen furnace system 200 according to an embodiment of the present invention includes according to an embodiment of the present invention for hydrogen furnace system 200 Transfer transition device 100.Since the transfer transition device 100 according to an embodiment of the present invention for hydrogen furnace system 200 has State beneficial technical effect, thus hydrogen furnace system 200 according to an embodiment of the present invention can be effectively improved easily overturned by Transmission Part, The case where inclination, make to be transmitted by Transmission Part transition more smooth, and is advantageously implemented unpowered transition transmission, staff is not necessarily to It works for a long time in high-temperature region, advantageously reduces manpower consumption, reduce production cost.

Hydrogen furnace system 200 according to an embodiment of the present invention, transmission device and transfer transition device 100 other constitute and Operating all is known for those of ordinary skills, is not detailed herein.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " installation ", " phase Even ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or be integrally connected；It can To be mechanical connection, it is also possible to be electrically connected；It can be directly connected, can also can be indirectly connected through an intermediary Connection inside two elements.For the ordinary skill in the art, above-mentioned term can be understood at this with concrete condition Concrete meaning in invention.

In the description of this specification, the description of reference term " embodiment ", " specific embodiment ", " example " etc. means to tie It closes the embodiment or example particular features, structures, materials, or characteristics described and is contained at least one embodiment of the present invention Or in example.In the present specification, schematic expression of the above terms may not refer to the same embodiment or example.And And particular features, structures, materials, or characteristics described can be in any one or more of the embodiments or examples with suitable Mode combine.

Although an embodiment of the present invention has been shown and described, it will be understood by those skilled in the art that: not A variety of change, modification, replacement and modification can be carried out to these embodiments in the case where being detached from the principle of the present invention and objective, this The range of invention is defined by the claims and their equivalents.

Claims (18)

1. a kind of transfer transition device for hydrogen furnace system, the hydrogen furnace system includes hydrogen furnace and conveyer, the hydrogen stove There is the first transmission surface, the conveyer has the second transmission surface, which is characterized in that the transfer transition device includes:

For be located at the hydrogen furnace and the conveyer at least one on mounting base；

Transition Transmission Part, the transition Transmission Part are installed on the mounting base and have transition transmission surface, the transition transmission surface It is located between first transmission surface and second transmission surface so that is transmitted in first transmission surface is passed through by Transmission Part The transition transmission surface is transferred to second transmission surface.

2. the transfer transition device according to claim 1 for hydrogen furnace system, which is characterized in that the transition Transmission Part Including transition plates, the transition plates is parallel or inclined in horizontal direction, and the upper surface of the transition plates is formed as the transition and passes The chances of losing games.

3. the transfer transition device according to claim 2 for hydrogen furnace system, which is characterized in that the hydrogen stove has The first transmission belt turned round under the driving of first driving wheel around horizontally extending axis, first transmission surface are formed in First transmission belt, the conveyer have under the driving of the second driving wheel around horizontally extending axis revolution Second transmission belt, second transmission surface are formed in second transmission belt, the transition plates be located at first transmission belt and The seam crossing of second transmission belt.

4. the transfer transition device according to claim 3 for hydrogen furnace system, which is characterized in that under the transition plates Longitudinal rear portion on surface and longitudinal front are formed with the first inclined-plane and the second inclined-plane, first inclined-plane and first transmission belt Clearance fit and inclined forwardly and downwardly extend relative to transmission direction, second inclined-plane is matched with the second transmission band gap It closes and tilts extension forward and upwards relative to the transmission direction.

5. the transfer transition device according to claim 4 for hydrogen furnace system, which is characterized in that first inclined-plane with Minimum range between first transmission belt is L1, and the minimum range between second inclined-plane and second transmission belt is L2, the minimum range between first transmission belt and second transmission belt are L3, wherein

0mm≤L1≤5mm, 0mm≤L2≤5mm, 10mm≤L3≤20mm.

6. the transfer transition device according to claim 3 for hydrogen furnace system, which is characterized in that first driving wheel Radius be R1, the radius of second driving wheel is R2, and the longitudinal size of the transition transmission surface is L4 and satisfaction: L4 < R1, R1 > R2.

7. the transfer transition device according to claim 3 for hydrogen furnace system, which is characterized in that first transmission belt Width be greater than the transition plates rear portion lateral dimension, two sides of the rear portion of the transition plates horizontally relative to Transmission direction forward and is inclined outwardly extension.

8. the transfer transition device according to claim 2 for hydrogen furnace system, which is characterized in that the transition plates is opposite It can be installed on the mounting base, the transfer transition device up or down in the mounting base further include:

Elastic component, the elastic component are connected with the transition plates and are suitable for applying downward driving force to the transition plates.

9. the transfer transition device according to claim 8 for hydrogen furnace system, which is characterized in that the transition plates passes through Threaded fastener is connected with the mounting base, and the elastic component is Rectangular Spring, and it is tight that the Rectangular Spring is coated at the screw thread Firmware and both ends offset with the mounting base and the transition plates respectively.

10. the transfer transition device according to claim 8 for hydrogen furnace system, which is characterized in that in the mounting base It is provided with the transition connection component for being connected with the transition plates, the transition connection component includes:

The mounting plate being connected with the mounting base；

Connecting plate, the connecting plate is connected with the mounting plate and, the transition plates longitudinally movable relative to the mounting plate It is connected with the connecting plate and can be moved up and down relative to the connecting plate, the elastic component is located at the connecting plate and the mistake To deform with moving up and down for the transition plates between cab apron；

Baffle plate, the baffle plate is connected with the mounting plate and backstop is in the front side of the connecting plate.

11. the transfer transition device according to claim 1 for hydrogen furnace system, which is characterized in that the transition transmission Transition transmission range, the transfer transition device are formed with above face further include:

At least one limit assembly, each limit assembly include actuator and limit plate, and the limit plate is along transmission direction Extend, at least one of described transition transmission range transverse ends are provided with the limit plate, and the limit plate is in the driving It is moved in the top of the transition transmission surface along the transverse reciprocating of the transition transmission surface under the driving of part.

12. the transfer transition device according to claim 11 for hydrogen furnace system, which is characterized in that the limit assembly Including two, two limit plates of two limit assemblies are located at the transverse ends of the transition transmission range, wherein one A limit plate persistently moves back and forth, and limit plate described in another one is moved to two limits by Transmission Part described It is moved back and forth when between component.

13. the transfer transition device of hydrogen furnace system is used for described in any one of -12 according to claim 1, which is characterized in that also Including sorting component, at least one of the sorting component and the hydrogen furnace and described conveyer are connected and include:

First sensor, the first sensor are used for the top of transition transmission surface transmitting the first detection light；

Second sensor, the second sensor is used for the top of transition transmission surface transmitting the second detection light, described First detection light is higher than the second detection light, and the second detection light is higher than the transition transmission surface.

14. the transfer transition device according to claim 13 for hydrogen furnace system, which is characterized in that first sensing Device is area sensor, it is described first detection light include it is a plurality of along being laterally extended for the transition Transmission Part, described second Sensor is line sensor and the second detection light being laterally extended along the transition Transmission Part.

15. the transfer transition device according to claim 1 for hydrogen furnace system, which is characterized in that the mounting base packet It includes:

Main base frame for being connect at least one of the hydrogen furnace and the conveyer；

Transmission surface limit plate, the transmission surface limit plate include two and are connected respectively with the main base frame, two transmission Face limit plate be located at the two sides of the width direction of first transmission surface and with the first transmission surface clearance fit；

Guide plate, the guide plate are connected with one of them in the main base frame and the transmission surface limit plate, the guiding Plate include two and be located at first transmission surface width direction two sides, the distance between two described guide plates are small In the distance between two described transmission surface limit plates, the transition Transmission Part and the main base frame, the transmission surface limit plate It is connected at least one of the guide plate.

16. the transfer transition device according to claim 3 for hydrogen furnace system, which is characterized in that second driving The diameter of wheel is less than the diameter of first driving wheel, and second driving wheel includes that two and two second driving wheels exist It is staggered in transmission direction and is staggered in the up-down direction, positioned at the pivot center and described first of second driving wheel of upside The pivot center of driving wheel is less than the radius of first driving wheel along the spacing of the transmission direction.

17. a kind of transmission device for hydrogen furnace system, which is characterized in that including according to claim 1 described in any one of -16 The transfer transition device for hydrogen furnace system.

18. a kind of hydrogen furnace system, which is characterized in that including being used for hydrogen furnace system described according to claim 1 any one of -16 Transfer transition device.