CN108516663A - Fixing device, propulsion device and propulsion system for extensible member - Google Patents

Abstract

This disclosure relates to a kind of fixing device, propulsion device and propulsion system for extensible member, the fixing device includes support bracket, and it is set to the location structure and adjustment structure of the opposite end of support bracket, support bracket is additionally operable to for the telescopic direction of extensible member to be defined as parallel to the length direction of support bracket, extensible member is located between location structure and adjustment structure on the length direction of support bracket, so that adjustment structure is by forcing in adjust position of the extensible member on support bracket on extensible member, location structure is used for the telescopic direction of extensible member and waits for that propeller aligns.In this way, extensible member is positioned on the support bracket of the fixing device, due to can located structure its telescopic direction is aligned with propeller is waited for, ensure that it can treat propeller and rapidly and efficiently be pushed.When the extensible member is used to push the push rod structure on electrode block, electrode block propulsive efficiency is not only improved, moreover it is possible to save a large amount of manpowers, worker is avoided to carry out hot operation close to furnace wall periphery.

Description

Fixing device, propulsion device and propulsion system for extensible member

Technical field

This disclosure relates to a kind of fixing device for extensible member, include the propulsion device of the fixing device, and including The propulsion system of the propulsion device.

Background technology

Currently, in the industrial production of such as glass substrate, directly by the electrode block of Manual-pushing such as residual charge, tool There is working efficiency lowly and has the problem of security risk.Specifically, in glass substrate industry, by being arranged in kiln both sides Several piece heavier electrode brick, using frit as conductor, melt frit is glass metal after energization.Electrode block is connecing for a long time with glass metal In touching, conducting surface is corroded, for this purpose, need to periodically carry out electrode block promotes operation.It is usually located at the electrode block quadrangle outside kiln That supports four such as mandrils respectively waits for propeller, generally relies on tens of workers and rotates the mandril using ratchet spanner, from And make electrode block towards propulsion inside kiln.Since electrode block in stove by glass metal wrapped up by side, larger resistance is generated, and And it is high close to the operating temperature of kiln furnace body, the fltting speed of several piece electrode block is slower, it is possible to which in progradation, glass goes out It now solidifies, further increases propelling resistance, cause propulsive efficiency low.In addition, operator needs in the kiln furnace wall of high temperature Periphery work, and electrode block may remain high charge so that it is more severe to operate artificial working environment, easy tos produce peace Full accident.

Invention content

Purpose of this disclosure is to provide a kind of fixing devices, propulsion device and propulsion system for extensible member, to solve Above-mentioned technical problem.

According to the disclosure in a first aspect, being used for the fixing device of extensible member, which includes for described in support The support bracket of extensible member, and be set to the support bracket along its length on opposite end location structure and adjustment tie Structure, the support bracket are additionally operable to for the telescopic direction of the extensible member to be defined as parallel to the length direction of the support bracket, The extensible member is located between the location structure and the adjustment structure on the length direction of the support bracket, so that described Adjust structure by forcing in adjust position of the extensible member on the length direction of the support bracket on the extensible member, The location structure is used for the telescopic direction of the extensible member and waits for that propeller aligns.

Optionally, the support bracket is formed around more support bars of the extensible member arrangement, and described more are held Pressure pin is gathered towards the extensible member, and the length direction of every support bar is parallel to the telescopic direction of the extensible member, described fixed Bit architecture is also cross the more support bars and fixed on the more support bars.

Optionally, the support bar, which has, is mutually parallel four of laying, and on same cross section described four hold The line of pressure pin surrounds square.

Optionally, the adjustment structure also cross the more support bars with extensible member described in backstop, and the tune Whole locations of structures is adjustably fixed on the more support bars.

Optionally, the support rod becomes threaded rod, and the adjustment structure and the location structure pass through screw thread respectively Cooperation is tightened against on every threaded rod.

Optionally, the adjustment structure includes the multiple driven tooths being sheathed on correspondingly on the more threaded rods Wheel, is meshed respectively with the multiple driven gear with the active drive portion for driving the multiple driven gear to rotate synchronously, with And the retainer for keeping the active drive portion to be meshed respectively with the multiple driven gear, the peace of each driven gear Dress hole is formed as threaded hole, and the adjustment structure is tightened against by the threaded hole of each driven gear on every threaded rod.

Optionally, the pitch of thread of every threaded rod is between 2mm~3mm, and the thickness of the driven gear is between 10mm Between~20mm.

Optionally, the active drive portion is formed as ring gear, and the multiple driven gear is respectively positioned on the ring gear Inside with the ring gear to be meshed, and the outer ring surface of the ring gear is also formed with the behaviour for rotating the ring gear Make portion.

Optionally, the operation portion is formed as multiple operations that the circumferential direction of the outer ring surface along the ring gear is laid at equal intervals Fin, each fin edge that operates is parallel to the axially extending of the ring gear, and each operates fin in the ring gear Projection on end face is formed as semicircle.

Optionally, the retainer includes the opposite end surface for being located at the ring gear and the multiple driven gear The first fixed plate and the second fixed plate, first fixed plate and second fixed plate have been respectively formed on for the more spiral shells The unthreaded hole that rasp bar passes through, first fixed plate are fixed in second fixed plate, in first fixed plate and described The working space for keeping the ring gear and the multiple driven gear to be meshed is limited between second fixed plate.

Optionally, on the length direction of the support bracket, first fixed plate is located at the extensible member and described Between two fixed plates, it is provided in first fixed plate and is protruded towards second fixed plate and be formed with the company of tapped blind hole Convex block is connect, the multiple driven gear is arranged around the connection convex block, and connect the setting of convex block interval with this, and fastening bolt passes through Second fixed plate is simultaneously threadedly coupled in the tapped blind hole of the connection convex block.

Optionally, first fixed plate and second fixed plate are all formed as the identical round clamping plate of diameter, and Diameter corresponding to outer ring surface of the diameter with the ring gear of the circle clamping plate is identical, first fixed plate, described the The axis of two fixed plates and the ring gear overlaps.

Optionally, described to wait for that propeller is formed as rod-like structure, the location structure is used for the flexible of the extensible member The length direction of direction and the rod-like structure is total to straight line arrangement.

Optionally, the location structure includes being sequentially connected by the first side plate, third side plate and the second side plate to surround out Mouth deviates from the U-shaped clamp of the extensible member, and it is downward opening fixed to be respectively formed on first side plate and second side plate Position card slot is formed with downward opening evacuation fluting on the third side plate, so that the bar slotted across the evacuation Shape structure can align with the telescopic direction of the extensible member, and the third side plate is fixed on the support bracket.

Optionally, the evacuation fluting is formed as constructing by semicircle segmental arc and positioned at the straightway of the lower section of the semicircle segmental arc At domes.

Optionally, the location structure further includes being mutually parallel and being fixed on the support bracket with the third side plate Assistant reinforcement plate, the assistant reinforcement plate is located at the extensible member and the third side plate on the length direction of the support bracket Between, the structure of the assistant reinforcement plate is identical with the structure of the third side plate.

Optionally, first side plate is parallel to second side plate and perpendicular to the third side plate, and described Perpendicular to the length direction of the support bracket, the locating groove has to be mutually parallel and along a pair of the extended vertically three side plates One card slot wall and the second card slot wall between a pair the first card slot wall, and the second card slot wall and each first Card slot wall is mutually perpendicular to.

According to the second aspect that the disclosure provides, a kind of propulsion device is provided, which is provided using the disclosure For the fixing device of extensible member, and by the support bracket support to push the extensible member for waiting for propeller.

Optionally, the propulsion device further include it is described wait for propeller, and the support construction of propeller is waited for described in support, And the support construction and the location structure match so that the telescopic direction of the extensible member and described waiting for propeller It aligns.

According to the third aspect that the disclosure provides, a kind of propulsion device is provided, which is provided using the disclosure Be formed as institute by the support bracket support to push the extensible member for waiting for propeller for the fixing device of extensible member It states the described of rod-like structure and waits for propeller, and the support construction of the support rod-like structure, and the support construction and institute Location structure is stated to match so that the length direction of the telescopic direction of the extensible member and the rod-like structure aligns, it is described Support construction includes the column passed perpendicularly through via the rod-like structure, and the positioning in the opposite sides of the column is arranged Fixture block, the U-shaped clamp are clamped on the column, and the locating groove is fastened on the corresponding positioning wedged block.

Optionally, first side plate is parallel to second side plate and perpendicular to the third side plate, and described Perpendicular to the length direction of the support bracket, the locating groove has to be mutually parallel and along a pair of the extended vertically three side plates One card slot wall and the second card slot wall between a pair the first card slot wall, and the second card slot wall and each first Card slot wall is mutually perpendicular to, and the cross section of the column is formed as rectangular configuration, so that three side walls of the column paste respectively The U-shaped clamp is closed, the positioning wedged block is formed as fitting in the rectangle fixture block on the side wall of the column, the rectangle fixture block Three sides are bonded the pair of first card slot wall and the second card slot wall respectively.

Optionally, described to wait for that propeller is formed as screw putter, the screw putter is tightened against described by screw-thread fit In support construction.

Optionally, the propulsion device further include via the round push plate of the support bracket support, the circle push plate Plate face and the telescopic direction of the extensible member are perpendicular, and the circle push plate is located on the length direction of the support bracket Between the extensible member and the location structure, so that the extensible member pushes the screw thread to push away via the round push plate Bar.

Optionally, the screw putter is used to promote electrical body under the promotion of the extensible member, the screw putter End set far from the extensible member is useful for the insulator of the screw putter and electrical body partition, the propulsion There is device the screw putter to be mutually parallel four of laying, and the insulators of four propulsion devices is via being generally formed into The promotion tablet of rectangle is supported on the electrical body, and the insulator of four propulsion devices is supported and fitted in respectively The four corners for pushing tablet.

Optionally, the support construction includes the square shape frame that opposite ground is fixed and is arranged with the promotion platen parallel Frame, the U-shaped handle being mutually parallel positioned at a pair of the extensible member side being fixed on the square shape frame, and each U The interlude of shape handle extends along vertical to be respectively used to fix two screw putters.

Optionally, the extensible member is hydraulic cylinder.

Optionally, the inflow pipeline of the hydraulic cylinder is provided with the flow control valve for adjusting oil inlet quantity size.

Optionally, the pressure sensor of the propelling pressure for detecting the extensible member is additionally provided on the extensible member.

According to the fourth aspect that the disclosure provides, a kind of propulsion system is provided, which includes what the disclosure provided Propulsion device, wherein the extensible member is hydraulic cylinder；Pressure-detecting device, the pressure-detecting device is for detecting the hydraulic cylinder Propelling pressure；The oil inlet quantity of flow regulator, the inflow pipeline which is used to adjust the hydraulic cylinder is big It is small；Control device is connected with the pressure-detecting device and the flow regulator respectively, for according to the pressure detecting The pressure signal of device detection controls the action of the flow regulator.

Optionally, the flow regulator is electric flow control valve.

Optionally, the pressure-detecting device is pressure sensor.

As long as through the above technical solutions, extensible member is positioned on the support bracket of the fixing device, the extensible member Its telescopic direction is realized via location structure and is aligned with propeller is waited for, is carried out to ensure that extensible member can treat propeller It rapidly and efficiently pushes, improves working efficiency.Extensible member can be adjusted in the length side of support bracket additionally, due to adjustment structure Upward position, in other words, extensible member and wait for the initial contact location of propeller be able to via adjustment structure be adjusted so that In the case where the maximal dilation amount of extensible member is constant, can be suitable for wider push-in stroke demand waits for propeller.In addition, When the extensible member being set in the fixing device is used to push the mandril knot on the electrode block outside glass substrate production kiln When structure, while improving electrode block propulsive efficiency, manual operation can be substituted, save a large amount of manpowers, and avoid worker close to Kiln furnace wall periphery carries out hot operation, ensures personal safety.

Other feature and advantage of the disclosure will be described in detail in subsequent specific embodiment part.

Description of the drawings

Attached drawing is for providing further understanding of the disclosure, and a part for constitution instruction, with following tool Body embodiment is used to explain the disclosure together, but does not constitute the limitation to the disclosure.In the accompanying drawings：

Fig. 1 is that the solid when propulsion system provided according to an illustrative embodiments of the disclosure is in use state is shown It is intended to；

Fig. 2 is that the solid when propulsion device provided according to an illustrative embodiments of the disclosure is in use state is shown It is intended to；

Fig. 3 is the stereoscopic schematic diagram of the propulsion device provided according to an illustrative embodiments of the disclosure；

Fig. 4 is the exploded perspective view of the adjustment structure provided according to an illustrative embodiments of the disclosure；

Fig. 5 is another exploded perspective view of the adjustment structure provided according to an illustrative embodiments of the disclosure.

Reference sign

1 extensible member, 100 flow regulator, 2 support bracket

20 support bar, 200 control device, 3 location structure

300 locating groove of 30U shapes clamp, 301 first card slot wall

302 second card slot wall, 31 first side plate, 32 second side plate

33 third side plates 330 evacuation 331 semicircle segmental arcs of fluting

332 straightway, 34 assistant reinforcement plate 4 adjusts structure

40 driven gear, 400 threaded hole, 41 active drive portion

410 operation portions 4100 operate 42 retainer of fin

420 unthreaded hole, 421 first fixed plate, 422 second fixed plate

423 4230 tapped blind hole of connection convex block, 424 fastener

5 wait for 6 support construction 600U shape handles of propeller

The round push plate of 61 column, 62 positioning wedged block 7

8 electrical bodies 80 push 9 insulator of tablet

Specific implementation mode

The specific implementation mode of the disclosure is described in detail below in conjunction with attached drawing.It should be understood that this place is retouched The specific implementation mode stated is only used for describing and explaining the disclosure, is not limited to the disclosure.

In the disclosure, in the absence of explanation to the contrary, the noun of locality used is as " upper and lower " typically with corresponding attached It is defined on the basis of the page of figure, " inside and outside " refers to the inner and outer of corresponding component profile.Wherein, ring-type is referred to herein " inside and outside " of part, such as ring gear, outer ring surface are radially to be defined relative to the center of the ring-shaped article.

As shown in Figures 1 to 5, the disclosure provides a kind of adjustment structure 4, uses the extensible member that is used for of the adjustment structure 4 Fixing device uses the technical solution of the propulsion system of the propulsion device using the propulsion device of the fixing device.Wherein, exist In the illustrative embodiments that the disclosure provides, extensible member setting forms the propulsion device in the fixing device, at this In the open another exemplary embodiment provided, which can also include further waiting for propeller 5, and support This waits for the support construction 6 of propeller 5, and the support construction 6 and location structure 3 match so that the extensible member 1 stretches Direction and wait for that propeller 5 aligns.The various technical solutions provided in the disclosure can be applied to glass substrate production technology neck Domain, for example, this waits for that propeller 5 can be the push rod structure on the electrode block being resisted against outside kiln, to pass through the propulsion device Push the electrode block towards kiln medial movement.In addition, in addition to glass substrate field, various technical solutions disclosed by the invention are also It can be widely applied to others to need in propulsion field, be particularly suitable for requiring the telescopic direction of extensible member and for example rod-shaped knot Structure waits in the technical field that propeller 5 aligns.

The concrete structure and operation principle of fixing device for extensible member will be discussed in detail first below.

As shown in Figure 1 to Figure 3, the disclosure provides a kind of fixing device for extensible member, which may include For the support bracket 2 of support extensible member 1, and be set to support bracket 2 along its length on opposite end location structure 3 With adjustment structure 4, which is additionally operable to for the telescopic direction of the extensible member 1 to be defined as parallel to the length side of the support bracket 2 To extensible member 1 is located between location structure 3 and adjustment structure 4 on the length direction of support bracket 2, so that adjustment structure 4 is logical It crosses and forces in adjust position of the extensible member 1 on the length direction of support bracket 2 on extensible member 1, location structure 3 will be for that will stretch The telescopic direction of part 1 and wait for that propeller 5 aligns.

Therefore, as long as extensible member 1 is positioned on the support bracket 2 of the fixing device, which can tie via positioning Its telescopic direction realized and aligned with propeller 5 is waited for by structure 3, to ensure extensible member 1 can treat propeller 5 carry out it is quick and It effectively pushes, improves working efficiency.Extensible member 1 can be adjusted on the length direction of support bracket 2 additionally, due to adjustment structure 4 Position, in other words, extensible member 1 and wait for the initial contact location of propeller 5 be able to via adjustment structure 4 be adjusted so that In the case where the maximal dilation amount of extensible member 1 is constant, can be suitable for wider push-in stroke demand waits for propeller 5.Separately Outside, when the extensible member being set in the fixing device is used to push the mandril on the electrode block outside glass substrate production kiln When structure, while improving electrode block propulsive efficiency, manual operation can be substituted, saves a large amount of manpowers, and worker is avoided to paste Nearly kiln furnace wall periphery carries out hot operation, ensures personal safety.

Wherein, it since hydraulic cylinder is capable of providing very strong driving force, is suitable for application in propulsion and for example supports the top on electrode block The high load of bar, and reach rational propulsion dynamics convenient for SERVO CONTROL, therefore the extensible member 1 can be, for example, hydraulic cylinder. In other modes of texturing, which can also be one of electromagnetism extensible member, electric cylinder and cylinder, for such Deformation is also fallen among the protection domain of the disclosure.

In the various illustrative embodiments that the disclosure provides, in order to realize extensible member 1 and for example support in electrode The rod-like structures quick alignment such as push rod structure on brick, that is, when propeller 5 is formed as rod-like structure, which uses It is arranged in the length direction of the telescopic direction of extensible member 1 and rod-like structure is total to straight line.That is, in the telescopic rod of the extensible member 1 Mandrel line and the central axis of rod-like structure overlap arrangement.In other modes of texturing, this waits for that propeller 5 can also be formed as Column structure, frustum cone structure etc. have the rotary structure of axis.

For convenience of the motion process of observation extensible member 1, to monitor whether it is in normal operating conditions, while reducing entire The weight of fixing device, as shown in Figures 2 and 3, support bracket 2 can be formed around more support bars 20 of the arrangement of extensible member 1, And more support bars 20 are gathered towards extensible member 1, and the length direction of every support bar 20 is parallel to the flexible side of extensible member 1 To location structure 3 is also cross more support bars 20 and fixed on more support bars 20.In other words, the more support bars 20 Surrounding centered on extensible member 1 is by its telescopic direction is shrouded, not only acts as the effect of support telescopic part 1, additionally it is possible to will stretch The telescopic direction of contracting part 1 is limited to along the specific direction for the length direction for being parallel to support bar 20, consequently facilitating location structure 3 By extensible member 1 and wait for that propeller 5 is aligned.

In other modes of texturing, which may be formed as covering at the tube-in-tube structure on the extensible member 1, The tube-in-tube structure may include the tubular body being sheathed on extensible member 1, and be set on a nozzle of the tubular body Capping, threaded hole is formed in the capping, at this point, this waits for that propeller 5 can be opposite with the capping via the tubular body Another nozzle be inserted into and be in contact with the extensible member 1, and adjust structure 4 and can be formed as T-type handle, the T-type handle Including the operation head being arranged in a mutually vertical manner and thread rod part, which passes through the screw thread with its screw-thread fit in capping Hole is simultaneously supported on extensible member 1, by the knob T-type handle to change the length that thread rod part is inserted into tubular body, to The position of the extensible member 1 on the length direction of tube-in-tube structure is adjusted, propeller 5 is waited for adapt to various push-in stroke demands.

Further, while supporting extensible member 1 to ensure that the support bar 20 is firm, the number of the support bar 20 is reduced Amount simplifies the assembling procedure of support bracket 2, and as shown in Figure 1 to Figure 3, support bar 20 has four of the laying that is mutually parallel, and The line of four support bars 20 surrounds square on same cross section.That is, four support bars 20 are evenly distributed on extensible member 1 Surrounding centered on its telescopic direction reliably and effectively supports the extensible member 1 to realize.Certainly in other modes of texturing In, the quantity of the support bar 20 can also be the six roots of sensation or eight, be deformed among the protection domain for also belonging to the disclosure for such.

In order to improve the functional integration of part, it is simplified to fix the number of parts of device, as shown in Figure 1 to Figure 3, adjustment is tied Structure 4, with backstop extensible member 1, and adjusts 4 position of structure and is adjustably fixed on more support bars also cross more support bars 20 On 20.That is, the adjustment structure 4 is used to adjust the position on the length direction of more support bars 20 of extensible member 1 simultaneously, and it is used for Backstop extensible member 1, to avoid the extensible member 1 by after the reaction force of propeller 5 from support bar 20 with wait for propeller 5 Opposite one end falls off.Certainly in other modes of texturing, the adjustment structure 4 and stop part for backstop extensible member 1 are also Can be different components.

Further, the fixing device is assembled for convenience, and as shown in Figure 1 to Figure 3, support bar can be formed as screw thread Bar, adjusts structure and location structure is tightened against by screw-thread fit on every threaded rod respectively.That is, at least may include three herein Kind situation：One, it adjusts structure 4 and location structure 3 itself is respectively formed with the helicitic texture to match with every threaded rod, the tune Whole structure 4 and location structure 3 are tightened to by respective helicitic texture on threaded rod respectively；Two, such as by additional parts The helicitic textures such as nut are tightened to respectively on adjustment structure 4 and location structure 3, to realize that adjustment structure 4 and location structure 3 are fixed Onto threaded rod；Three, structure 4 and location structure 3 are adjusted simultaneously by the helicitic texture of itself formation and as nut is additional Parts are tightened on threaded rod.

In other modes of texturing, threaded rod may be formed as polished rod, and location structure 3 can be for example welded at this time On polished rod, and it may include above-mentioned T-type handle to adjust structure 4, and also cross and the fixed plate that is welded on more polished rods, It is formed with threaded hole in the fixed plate, the thread rod part of the T-type handle passes through the threaded hole and supports on extensible member 1, passes through Rotate the adjusting that the T-type handle realizes the position on polished rod of extensible member 1.

In the various illustrative embodiments that the disclosure provides, above-mentioned extensible member 1 such as is quickly adjusted for convenience and is waited for Position of the instrumentality on the support bracket 2 constructed by more threaded rods, as shown in Figures 3 to 5, adjustment structure 4 may include one One is accordingly sheathed on multiple driven gears 40 on more threaded rods, is meshed respectively with multiple driven gears 40 more to drive A driven gear 40 rotate synchronously active drive portion 41, and for keep active drive portion 41 respectively with multiple driven gears 40 retainers 42 being meshed, the mounting hole of each driven gear 40 are formed as threaded hole 400, adjustment structure 4 by it is each from The threaded hole 400 of moving gear 40 is tightened against on every threaded rod.In other words, the quantity phase of the quantity of threaded rod and driven gear Together, a threaded rod is arranged there are one driven gear, and since above-mentioned multiple threaded rods are around extensible member lopping arrangement, thus this is more A circumferentially spaced arrangement of driven gear, so that multiple driven gears 40 can be engaged with active drive portion 41 simultaneously, and The mounting hole of each driven gear is formed to and the threaded hole of threaded rod screw-thread fit 400.Therefore it only needs to rotate the master Dynamic driving portion 41 can drive multiple driven gears 40 along the axial synchronizing moving of more threaded rods, to multiple driven tooth Wheel 40 synchronously pushes the object to be adjusted to be moved on threaded rod, once and object to be adjusted be moved to the default position on threaded rod It postpones, only by the way that position of the object to be adjusted on threaded rod, the i.e. adjustment can be changed after rotating the active drive portion 41 It can be locked at predeterminated position always after the active force for the threadingly bar axial direction that structure 4 is applied by objects to be adjusted such as such as extensible members, I.e. adjustment structure 4 using the helicitic texture of itself can in addition to the rotatory force that active drive portion 41 applies other are any Active force carries out backstop, to realize that the axial limiting to such as objects to be adjusted such as extensible member 1 acts on, and it is simple in structure, it is not required to The axial locking structure of additional such as locking nut is set, it is swift and convenient to operate.In addition multiple threaded rods and quantity are identical Multiple driven gears match so that the object to be adjusted can be fixed firmly on more threaded rods.

Wherein, in the various illustrative embodiments that the disclosure provides, the number and threaded rod of the driven gear 40 Radical it is identical, therefore, when threaded rod is the surrounding centered on its telescopic direction for being evenly distributed on extensible member 1, relatively Ying Di, which has circumferentially four arranged at equal interval, so as to use parts as few as possible to realize Steadily support should such as 1 object to be adjusted of extensible member.

The position on threaded rod is needed to be adjusted it should be noted that the adjustment structure 4 can also be used in other Object to be adjusted, and be not limited to the extensible member.

Wherein, after which is used for the axial reaction force in adjustment structure 4 by extensible member 1, remain main Dynamic driving portion 41 and multiple driven gears 40 engage simultaneously, avoid multiple driven gears 40 under the action of the axial reaction force It is detached from the active drive portion 41 in an axial direction.

Further, it is the simple operation for improving when active drive portion 41 rotates, as shown in Figures 3 to 5, active drive Portion 41 is formed as ring gear, and multiple driven gears 40 are respectively positioned on the inside of ring gear to be meshed with ring gear, and ring gear Outer ring surface be also formed with the operation portion 410 for rotating ring gear.That is, by operating the operation portion 410 so that ring gear turns It is dynamic, to drive the axial movement of the multiple driven gears 40 being meshed with the ring gear threadingly bar.

In other modes of texturing, what which may be formed as surrounding via multiple driven gears 40 Driving gear, and the operating handle axially extended can be provided on the driving gear, by operating the operating handle band Dynamic driving gear rotation, and then drive the axial movement of the multiple driven gears 40 being meshed with the active handle threadingly bar.

Use gear is meshed with gear or gear is meshed with gear ring the gear pair kind of drive to protect in addition to above-mentioned Multiple driven gears are demonstrate,proved on threaded rod except synchronizing moving, which, which can also use, has and multiple threaded rod The baffle plates of one-to-one multiple evacuation unthreaded holes realize the adjusting of extensible member position.Specifically, multiple threaded rods are worn respectively Corresponding multiple evacuation unthreaded holes on the baffle plate are crossed, then push regulating part to the predeterminated position of threaded rod baffle plate, most Baffle plate is fixed on multiple threaded rods respectively with multiple nuts afterwards.More specifically, spiral shell can be arranged in the both sides of the baffle plate Mother, or nut only is set away from the side of extensible member 1 in baffle plate.

Specifically, as shown in Figure 4 and Figure 5, in order to increase the frictional force when outer ring surface of operator and ring gear are in contact, And then facilitate rotate the ring gear, operation portion 410 can be formed as the outer ring surface along ring gear circumferential direction lay at equal intervals it is more A operation fin 4100.Further, it is the hand of protection operator, person easy to operation rotates the ring gear, each operates convex Rib 4100 is along being parallel to the axially extending of ring gear, and each projection of the operation fin 4100 on the end face of ring gear is formed For semicircle.That is, the outer ring surface of the ring gear is laid with the circle ripple glaze with peak and low ebb, it is convenient for increasing friction force, And since the outer surface of operation fin 4100 is the curved surface to smoothly transit, so as to avoid scratching the hand of operator, and And person easy to operation holds the ring gear and rotates, and improves the comfort that operator holds ring gear.Certainly, become in others In shape mode, the cross section of the operation fin 4100 may be formed as other arc structures to smoothly transit, for such change Shape also belongs among the protection domain of the disclosure.

In other modes of texturing, which may be formed as the use on the outer ring surface of the ring gear In the rough surface of increasing friction force, such as the rough surface can be by the circumferential multiple cross that lay at equal intervals of outer ring surface along ring gear Striped or inclined stripe.

Since multiple threaded rods need support telescopic part 1, to make the threaded rod stress be unlikely to deform, and adapt to for example The hot environment of kiln periphery, multiple threaded rod may be used heat-resistance stainless steel and be made.

In addition, in the various illustrative embodiments of the disclosure, in order to enable multiple driven gears 40 and threaded rod are matched It closes loosely, consequently facilitating active drive portion can stir multiple driven gear 40 easily, and it is good so that driven gear has Axially compressed behavior, the pitch of thread of every threaded rod between 2mm~3mm, the thickness of driven gear between 10mm~ Between 20mm, i.e., the facewidth of driven gear is between 10mm~20mm.

In the disclosure, which can arbitrarily can keep multiple driven gears being meshed with ring gear Supporting structure, in a kind of illustrative embodiments that the disclosure provides, as shown in Figure 4 and Figure 5, retainer 42 may include point Not Wei Yu ring gear and multiple driven gears 40 opposite end surface the first fixed plate 421 and the second fixed plate 422, first is solid Fixed board 421 and the second fixed plate 422 are respectively formed on the unthreaded hole 420 passed through for more threaded rods, that is, 421 He of the first fixed plate Be formed in second fixed plate 422 be connected to correspondingly in an axial direction with the threaded hole of multiple driven gear 40 400 it is multiple Unthreaded hole 420, consequently facilitating the threaded rod across the mounting hole of multiple driven gear 40 passes through the first fixed plate and second to fix Plate.Wherein, the first fixed plate 421 is fixed in the second fixed plate 422, with the first fixed plate 421 and the second fixed plate 422 it Between limit working space for keeping ring gear and multiple driven gears 40 to be meshed.Wherein, the first fixed plate 421 and It can be reserved with suitable gap between two fixed plates 422, to avoid the rotation interference with ring gear, multiple driven gears. By this method, it is fixed by the first fixed plate 421 and second that the opposite end surface of multiple driven gears 40 and ring gear is arranged Plate 422 is fixed as an entirety, can not only prevent the driven gear 40 from engaged with ring gear from being axially disengaging, and can also The active force from extensible member 1 is enough kept out, the active force is avoided to be applied directly on multiple driven gears and gear ring, improves gear With the service life of gear ring.

Further, the driven gear between the first fixed plate 421 of repair and the second fixed plate 422 is replaced for convenience 40, which is connected to by fastener 424 in the second fixed plate 422.That is, first fixed plate 421 is via tight Firmware 424 is detachably connected in the second fixed plate 422, should be located in working space so as to easy to replace and maintain Multiple driven gears 40.

Further, extensible member 1 and adjusting the contact surface of structure 4 to be plane, to ensure to adjust structure 4 steadily And the movement of the extensible member 1 on threaded rod is effectively pushed, and as shown in Figure 4 and Figure 5, on the length direction of support bracket 2, the One fixed plate 421 is located between extensible member 1 and the second fixed plate 422, is provided in the first fixed plate 421 towards the second fixed plate 422 protrude and are formed with the connection convex block 423 of tapped blind hole 4230, and multiple driven gears 40 are arranged around the connection convex block 423, And connect the interval of convex block 423 with this and be arranged, fastening bolt passes through the second fixed plate 422 and is threadedly coupled to connection convex block 423 In tapped blind hole 4230.That is, by the way that the first fixed plate 421 is directly in contact with extensible member 1, the adjustment structure 4 can be conducive to The extensible member 1 is smoothly pushed to move, in addition, via the connection convex block 423 for being formed with tapped blind hole 4230, effectively by first Fixed plate 421 and the second fixed plate 422 are securely fixed as an entirety.

In order to avoid retainer interferes the rotation of ring gear, while making retainer that there is good stress performance, such as Fig. 3 Shown in Fig. 5, the first fixed plate 421 and the second fixed plate 422 are all formed as the identical round clamping plate of diameter, and round clamping plate Outer ring surface of the diameter with ring gear corresponding to diameter it is identical, first fixed plate 421, the second fixed plate 422 and the internal tooth The axis of circle overlaps.By this method, under the premise of ensureing that retainer has reliable stress performance, it can also be ensured that entire to adjust The compact assembling of each parts of whole structure 4 reduces the occupied space of adjustment structure 4, and ring gear, the first fixed plate 421 It is coaxially laid with the second fixed plate 422, and the outer ring surface of ring gear is identical with the round diameter of clamping plate, can be that user operates Operation portion 410 provides more wide operating space, and the first fixed plate and the second fixed plate is avoided to influence in user's rotation Gear ring.

The concrete structure of the support bracket 2 and adjustment structure 4 of the fixing device of disclosure offer is provided, it below will be The concrete structure of the location structure 3 of the fixing device is illustrated while introducing propulsion device.

As described above, in the another exemplary embodiment that the disclosure provides, which may include above-mentioned use In the fixing device of extensible member, extensible member 1 and wait for propeller 5, it can be quickly opposite with propeller is waited for for the ease of extensible member 1 Together, and then the working efficiency that extensible member promotion waits for propeller is improved, which can also include the branch that support wait for propeller Support structure, and support construction and location structure match so that the telescopic direction of extensible member and waiting for that propeller aligns.

Further, when this is when propeller 5 is formed as above-mentioned rod-like structure, the support construction 6 and location structure 3 match It closes so that the telescopic direction of extensible member 1 and the length direction of rod-like structure align.Specifically, as shown in Figures 2 and 3, should Location structure 3 may include being sequentially connected to stretch to surround to be open to deviate from by the first side plate 31, third side plate 33 and the second side plate 32 It is respectively formed with downward opening locating groove 300, third on the U-shaped clamp 30 of contracting part 1, the first side plate 31 and the second side plate 32 Downward opening evacuation fluting 330 is formed on side plate 33 so that across evacuation fluting 330 rod-like structure can with it is flexible The telescopic direction of part 1 aligns, and third side plate 33 is fixed on support bracket 2.

Correspondingly, which may include the column 61 passed perpendicularly through via rod-like structure, and setting is vertical The positioning wedged block 62 of the opposite sides of column 61, U-shaped clamp 30 are clamped on column 61, and locating groove 300 is fastened in corresponding On positioning wedged block 62.

Wherein, which can be formed as hollow square steel, or can be formed as being spliced by a pair of U-shaped channel steel Square steel structure.Since rod-like structure needs the through-hole on column 61, in order to avoid being oppressed by the rod-like structure of motive force The through-hole causes the thru-hole distortion, and as depicted in figs. 1 and 2, which can also divide on the opposite end surface of its through-hole Reinforcing plate is not set, to improve the partial structurtes intensity of column through hole.

Wherein, which can be threadedly coupled or be welded on column 61, to ensure fixing device and support Structure 6 is arranged in a mutually vertical manner.

It, can be by U-shaped clamp 30 towards column in this way, when the location structure 3 of fixing device is installed in support construction 6 61 place from top to bottom so that the U-shaped clamp 30 is held on column 61, while the first side plate 31 of the U-shaped clamp 30 and Locating groove 300 on two side plates 32 is locked to respectively on corresponding positioning wedged block 62, to realizing support bracket 2 rapidly and It is accurately hanging in support construction 6, and then ensures that the rod-like structure across column 61 can be with the telescopic direction phase of extensible member 1 Alignment.

Further, to ensure the accuracy positioned between rod-like structure and extensible member 1, while facilitating processing, simplification pushes away Into the structure of device, which is parallel to the second side plate 32 and perpendicular to third side plate 33, and third side plate 33 hangs down Directly in the length direction of support bracket 2, locating groove 300, which has, to be mutually parallel and along the first card slot of a pair wall 301 extended vertically And the second card slot wall 302 between the first card slot of a pair wall 301, and the second card slot wall 302 and each first card Cell wall 301 is mutually perpendicular to.

Cooperatively, the cross section of column 61 can be formed as rectangular configuration, so that three side walls difference of column 61 It is bonded U-shaped clamp 30, positioning wedged block 62 is formed as fitting in the rectangle fixture block on the side wall of column 61, three of the rectangle fixture block Side is bonded a pair of first card slot wall 301 and the second card slot wall 302 respectively.That is, each side plate by U-shaped clamp 30 is clamped simultaneously In the docile respective side walls to column 61 so that the telescopic direction of extensible member 1 is perpendicular to column 61, then via the first side plate 31 It is fastened on rectangle fixture block with the locating groove 300 on the second side plate 32, the final telescopic direction for ensureing extensible member 1 and rod-shaped knot The length direction of structure overlaps.

In the various illustrative embodiments that the disclosure provides, in order to which adapt to be formed as rod-like structure waits for propeller Evacuation, as shown in Figures 2 and 3, evacuation fluting 330 can be formed as by semicircle segmental arc 331 and positioned at the semicircle segmental arc 331 The straightway 332 of lower section is constructed of domes.By this method, which can be first via the opening of domes Into and be contained in semicircle segmental arc 331.

Further, to ensure the reliability of location structure 3 and the connection of support construction 6, as shown in Figures 2 and 3, positioning knot Structure 3 can also include being mutually parallel with third side plate 33 and being fixed to the assistant reinforcement plate 34 on support bracket 2, in support bracket 2 Assistant reinforcement plate 34 is between extensible member 1 and third side plate 33 on length direction, the structure of assistant reinforcement plate 34 and third side The structure of plate 33 is identical.In other words, which can also include the above-mentioned evacuation fluting for being formed as domes 330, and the assistant reinforcement plate 34 and third side plate 33 can be tightened to for example, by nut on the more threaded rods.

The disclosure provide various illustrative embodiments in, after being pushed to precalculated position after propeller for the ease of It will wait for that propeller 5 is locked in support construction 6, and wait for that propeller can be formed as screw putter, screw putter passes through screw-thread fit It is tightened against in support construction 6.That is, after screw putter is advancing to the position, tightened by the default nut being sheathed on screw putter In in support construction 6, specifically, this is sheathed on the side that the nut on screw putter can be tightened against the column 61 of support construction 6 On wall.

Further, in the various illustrative embodiments that the disclosure provides, for increase extensible member 1 and screw putter it Between contact area so that the motive force that extensible member 1 provides is steady and is delivered evenly on screw putter, such as Fig. 1 to Fig. 3 institutes Show, propulsion device can also include via the round push plate 7 of 2 support of support bracket, the plate face of round push plate 7 and stretching for extensible member 1 Contracting direction is perpendicular, and on the length direction of support bracket 2 round push plate 7 between extensible member 1 and location structure 3, with So that extensible member 1 pushes screw putter via round push plate 7.That is, increasing stretching for extensible member 1 by the way that the circle push plate 7 is arranged The contact area at contracting end and screw putter ensures that the power even that extensible member 1 provides is transmitted on screw putter.At other Mode of texturing in, which can also be replaced by the plate pushing structure of other suitable shapes, as the plate pushing structure can be with shape As square, hexagon or octagon etc..

Wherein, the circle push plate 7 can for example threadably or welding manner be assembled to extensible member 1 telescopic rod or On screw putter, for save assemble assembling procedure, the circle push plate 7 can not with extensible member or screw putter assembling, directly by Support bracket 2 is limited between screw putter and extensible member.

The residual such as the electrode block being arranged on glass substrate production kiln is safely pushed for the ease of screw putter There is the electrical body of charge, as depicted in figs. 1 and 2, screw putter is used to promote electrical body 8 under the promotion of extensible member 1, and screw thread pushes away The end set of the separate extensible member 1 of bar is useful for the insulator 9 for separating screw putter and electrical body 8.That is, passing through insulator 9 so that entire propulsion device electrically isolates from electrical body 8, to protect operating personnel and propulsion device.

Further, in order to enable screw putter is steady and equably pushes the electrical body such as electrode block, propulsion device It can be mutually parallel with screw putter four of laying, the insulators 9 of four propulsion devices is via being generally formed into rectangle Tablet 80 is pushed to support on electrical body 8, and the insulator 9 of four propulsion devices is supported and fitted in and pushes tablet 80 respectively Four corners.That is, the contact area of four propulsion devices and electrical body 8 is increased by setting promotion tablet 80, conducive to pushing away Into device offer power smooth transfer to electrical body.In addition, the screw putter of four propulsion devices divides via insulator 9 The four corners for pushing tablet 80 are not supported, further ensure that the total output provided as four propulsion devices is uniformly divided It is fitted on electrical body.

Wherein, which can for example be made of heat safe insulating ceramics.In addition, in order to avoid the insulator 9 from It pushes and is fallen between tablet 80 and screw putter, opening is could be formed on the promotion tablet 80 towards the first of the insulator 9 Deep gouge could be formed with second deep gouge of the opening towards the screw putter on insulator 9, in this way, by the way that insulator 9 to be embedded In first deep gouge, which is embedded in second deep gouge, it is possible to prevente effectively from the landing of the insulator, improves and promote The propulsive efficiency of device.

Wherein, which may include that opposite ground is fixed and parallel with tablet 80 is pushed The square shape frame 60 of setting, the U-shaped being mutually parallel positioned at a pair of 1 side of extensible member being fixed on the square shape frame 60 Handle 600, and the interlude of each U-shaped handle 600 extends along vertical to be respectively used to fix two screw putters.That is, should Four propulsion devices share the pedestal for being formed as square shape frame, and only need two U-shaped handles 600 that assembling can be completed, So that the overall structure of propulsion device is more compact, amount of parts is saved, cost is reduced.Specifically, the support construction 6 It can also include being connected respectively to square shape that the interlude of each U-shaped handle, which can be used as above-mentioned column 61, the U-shaped handle 600, A pair of of horizontal segment on frame 60.

Wherein, which can greatly increase the structural strength of entire support construction 6, and then enhance the U The stress performance of the interlude of shape handle 600 avoids the interlude from generating inclination after the active force by screw putter or become Shape.The square shape frame 60 can be fixed on the kiln furnace wall and ground of electrical body of support such as electrode block simultaneously, this mouthful of word Shape frame 60 can also be only fixed on ground, not have assembly relation with the kiln furnace wall.

When assembling the propulsion device, the assembling of the adjustment structure 4 can be carried out first, specifically, in the first fixed plate The ring gear and multiple driven gears 40 are placed on 421 so that multiple driven gears 40 are meshed with ring gear, then distinguish More threaded rods are passed through to the through-hole in first fixed plate 421 correspondingly, and are screwed into correspondingly multiple driven In the threaded hole of gear 40, that is, every threaded rod passes through a through-hole in the first fixed plate 421, and is accordingly screwed into In the threaded hole for the driven gear 40 being connected in an axial direction with the through-hole, then the second fixed plate 422 is installed by fastening bolt Onto the first fixed plate 421, the assembling of adjustment structure 4 and multiple threaded rods is realized.

Secondly extensible member 1, round push plate 7 will be positioned in inner space made of more threaded rod constructions successively, with The assembling of the location structure 3 is carried out afterwards, i.e., one end opposite with adjustment structure 4 of more threaded rods is each passed through and is for example assisted Through-hole in reinforcing plate 34 and third side plate 33, and every threaded rod is tightened against assistant reinforcement plate 34 by two nuts respectively On third side plate 33, as shown in Figure 3, you can location structure 3 is linked into an integrated entity by more threaded rods and adjustment structure 4, And extensible member 1 and round push plate 7 are limited in the inner space that multiple threaded rods, adjustment structure 4 and location structure 3 surround.

Then the fixing device for being assembled with extensible member is mounted in support construction 6, specifically, first by screw putter One end passes through the column 61 and supports on insulator 9, and insulator 9 is made to be resisted against the corresponding angle for pushing tablet 80 Then portion installs the method given an account of and continued and snaps fit onto the U-shaped clamp 30 of location structure 3 on column 61, you can completes the propulsion The assembling of device.In use, after screw putter is pushed the electrical body of such as electrode block to reach predeterminated position by extensible member 1, it can To be tightened on the through-hole end face of column 61 by the nut being sheathed on screw putter, specifically, for convenience of operating, the through-hole End face can be proximate on the hole end surface of electrical body side.

As described above, the extensible member 1 can be hydraulic cylinder, for ease of controlling the hydraulic pressure according to the advanced state such as electrode block The promotion dynamics of cylinder ensures that electrode block is steadily advanced with the state for being parallel to kiln furnace wall, as shown in Figure 1, the oil inlet of hydraulic cylinder Pipeline is provided with the flow control valve for adjusting oil inlet quantity size.Specifically, which can be electric flow tune Valve is saved, which can allow Electric control or operating personnel to manually control.For example, the electric flow control valve Can be T966Y electric multi-stage flow restriction control valves.

For the ease of monitoring the motive force size of the extensible member 1 in real time, to avoid due to the motive force of extensible member 1 is excessive Electrical bodies and the propulsion devices such as electrode block are damaged, the pressure of the propelling pressure for detecting extensible member is also provided on extensible member Force snesor.In this way, when extensible member 1 reaches the maximum secure threshold of itself, such as the glass metal resistance mistake on the inside of electrode block Greatly, cause extensible member 1 that can not continue to press on electrode block advance, it at this time can manual or automatic control propulsion device stopping work Industry prevents damage electrode block and propulsion device.

The electrical body such as electrode block is promoted for ease of automatically controlling the propulsion device, realizes safely and efficiently to promote and make Industry, as shown in Figure 1, the disclosure additionally provides a kind of propulsion system, which may include the propulsion being described in detail above Device, wherein extensible member are hydraulic cylinder；Pressure-detecting device, the pressure-detecting device are used to detect the propelling pressure of hydraulic cylinder； Flow regulator 100, the flow regulator 100 are used to adjust the oil inlet quantity size of the inflow pipeline of hydraulic cylinder；Control dress 200 are set, is connected respectively with pressure-detecting device and flow regulator 100, the pressure for being detected according to pressure-detecting device Signal controls the action of flow regulator 100.

Specifically, 100 flow regulators can be above-mentioned electric flow control valve, and pressure-detecting device can be upper The pressure sensor stated, the control device 200 can be the PLC controller being arranged in electric cabinet 3.

In order to ensure safely and efficiently automatically steadily to push the electrical body of such as electrode block, promoted with aforementioned four Device pushes simultaneously illustrates the control process of the propulsion system for the four corners of electrode block.

In general, the glass metal drag size that the four corners of electrode block are subject to is identical, control device 200 controls at this time The oil inlet quantity of the flow regulator of each propulsion device is identical, and the openings of sizes for such as controlling the electric flow control valve is identical, To ensure that four propulsion devices apply uniform thrust in the four corners of electrode block, so that the four corners of electrode block Fltting speed it is identical, i.e., electrode block can be to be parallel to the state of kiln furnace wall smoothly towards kiln medial movement.

When the pressure value that the pressure-detecting device in the propulsion device in some corner for pushing electrode block detects is more than When the pressure value that the pressure-detecting device in other three propulsion devices detects, show some corner of the electrode block Glass metal resistance becomes larger, at this point, control device 200 can control the flow regulator of the larger propulsion device of the pressure value Oil inlet quantity become larger, and/or, control device 200 can control the stream of other smaller three propulsion devices of the pressure value The oil inlet quantity of quantity regulating device becomes smaller, so that the fltting speed of the four corners of electrode block keeps identical, i.e., electrode block is steady Towards kiln medial movement.

When the pressure-detecting device in the propulsion device in some corner for pushing electrode block detects that pressure value is more than When secure threshold, to protect the safety of entire moving system and electrode block, the control system that can control all propulsion devices Stop promoting operation.Further, in order to notify staff in time, which can also include and control device phase Warning device even, when the pressure value that pressure-detecting device detects is more than secure threshold, which can control The warning device is alarmed, to remind staff rapidly.For example, the alarm lamp on electric cabinet can be arranged in the warning device, It is shone by controlling alarm lamp to prompt operating personnel.

When the pressure value that the pressure-detecting device in the propulsion device in some corner for pushing electrode block detects is being pacified In full threshold range, but the pressure-detecting device being significantly greater than in other three propulsion devices detect pressure value when, When number pressure value difference i.e. between propulsion device is more than special value, control device can control four propulsion devices and press at this time Electrode block is pushed according to rotation clockwise or counterclockwise, specifically, which controls one by one in particular order The flow regulator of each propulsion device opens and closes, wherein each flow regulator unlatching identical time is, for example, 5 to 10 seconds, control a upper propulsion device flow regulator open the predetermined time after, control the flow tune of the propulsion device The flow regulator unlatching of next propulsion device is closed and opened simultaneously to regulating device, so recycles in turn.Due to such Mode of operation can simulate artificial operation, increase safety, shorten working time and workload.

In the propulsion system that the disclosure provides, as shown in Figure 1, can also include electric pump station, and to deliver this electronic Tool placement cabinet can also be arranged on the carrier loader in the carrier loader of pumping plant and above-mentioned electric cabinet, and non-work is in for storing Make fixing device, extensible member and the round push plate etc. of state, idler wheel can be arranged in the bottom of the carrier loader, small in order to deliver Vehicle is moved near the electrical body for needing to promote.

Wherein, electric pump station may include the fuel tank for storing hydraulic oil, the electric oil pump being connected with the fuel tank, driving The motor of electric oil pump work, and the oil circuit that is connected between multiple extensible members of electric oil pump, the oil circuit can wrap Main line is included, the multiple branches separated from the main line, each branch is for example connected with the cylinder body of hydraulic cylinder, each branch On above-mentioned flow regulator can be set.Further, in order to enable output flow can be adjusted as needed enters master Variable pump may be used in total oil mass of pipeline, the electric oil pump.

Wherein, for ease of manually controlling the flow regulator, display screen can also be set, to show pressure on the electric cabinet The pressure value that force checking device detects, consequently facilitating manually adjusting the oil inlet of the flow regulator according to the pressure value Size is measured, or closes the flow regulator.

Due to that before carrying out electrode block and promoting operation, need to heat up in gap between electrode block and kiln furnace wall, with So that the solid glass cream retained in the gap gradually softens, it is conducive to the promotion of electrode block.The method of generally use is will to protect Warm cotton package electrode block is exposed to the edge outside the kiln furnace wall, so that the edge heating of electrode block.It is promoted in electrode block In the process, it to prevent heat-preservation cotton to be carried into the gap, needs to take away heat-preservation cotton, in this way, the glass softened in the gap Cream is gradually hardened, and electrode block and kiln furnace wall can be made to be adhesive into one, and increases and pushes resistance.For this purpose, the disclosure provide can With the propulsion system automatically controlled can be effective solve glass cream of the electrical body such as electrode block in promoting operation Obstruction is led to the problem of, promoted simultaneously by multiple propulsion devices or is promoted in turn according to particular order, electrode block is quick And safely push in place, and operation is simple, it is only necessary to and 1 to 2 operating personnel saves a large amount of manpowers, and avoids Worker carries out hot operation close to kiln furnace wall periphery, has and greatly promotes applicability and economic convenience.

The preferred embodiment of the disclosure is described in detail above in association with attached drawing, still, the disclosure is not limited to above-mentioned reality The detail in mode is applied, in the range of the technology design of the disclosure, a variety of letters can be carried out to the technical solution of the disclosure Monotropic type, these simple variants belong to the protection domain of the disclosure.It is further to note that in above-mentioned specific implementation mode Described in each particular technique feature can be combined by any suitable means in the case of no contradiction, be The unnecessary repetition, the disclosure is avoided no longer separately to illustrate various combinations of possible ways.

In addition, arbitrary combination can also be carried out between a variety of different embodiments of the disclosure, as long as it is without prejudice to originally Disclosed thought equally should be considered as disclosure disclosure of that.

Claims (15)

1. a kind of fixing device for extensible member, which is characterized in that the support bracket including being used for extensible member described in support (1) (2), and be set to the support bracket (2) along its length on opposite end location structure (3) and adjustment structure (4), the support bracket (2) is additionally operable to for the telescopic direction of the extensible member (1) to be defined as parallel to the length of the support bracket (2) Direction is spent, the extensible member (1) is located at the location structure (3) and the adjustment on the length direction of the support bracket (2) Between structure (4), so that the adjustment structure (4) is by forcing on the extensible member (1) to adjust the extensible member (1) Position on the length direction of the support bracket (2), the location structure (3) are used for the flexible side of the extensible member (1) To with wait for that propeller (5) aligns.

2. fixing device according to claim 1, which is characterized in that the support bracket (2) is formed around described flexible More support bars (20) of part (1) arrangement, and the more support bars (20) are gathered towards the extensible member (1), and every is held The length direction of pressure pin (20) is parallel to the telescopic direction of the extensible member (1), and the location structure (3) is also cross described more Root support bar (20) is simultaneously fixed on the more support bars (20), and optionally, the support bar (20) has the cloth that is mutually parallel If four, and the line of four support bars (20) surrounds square on same cross section, optionally, the adjustment Structure (4) also cross the more support bars (20) with extensible member described in backstop (1), and adjustment structure (4) position It is adjustably fixed on the more support bars (20), optionally, the support bar (20) is formed as threaded rod, the adjustment knot Structure (4) and the location structure (3) are tightened against by screw-thread fit on every threaded rod respectively.

3. fixing device according to claim 2, which is characterized in that the adjustment structure (4) includes covering correspondingly Multiple driven gears (40) on the more threaded rods are meshed respectively with the multiple driven gear (40) to drive The active drive portion (41) that the multiple driven gear (40) rotates synchronously, and for keeping the active drive portion (41) point The mounting hole of the retainer (42) not being meshed with the multiple driven gear (40), each driven gear (40) is formed as screw thread Hole (400), the adjustment structure (4) are tightened against every threaded rod by the threaded hole (400) of each driven gear (40) On, optionally, the pitch of thread of every threaded rod between 2mm~3mm, the thickness of the driven gear (40) between 10mm~ Between 20mm, optionally, the active drive portion (41) is formed as ring gear, and the multiple driven gear (40) is respectively positioned on described The inside of ring gear with the ring gear to be meshed, and the outer ring surface of the ring gear is also formed with for rotating in described The operation portion (410) of gear ring, optionally, the operation portion (410) are formed as between circumferential direction of the outer ring surface along the ring gear etc. Every multiple operation fins (4100) of laying, each operates fin (4100) edge and be parallel to the axially extending of the ring gear, and And each projection of the operation fin (4100) on the end face of the ring gear is formed as semicircle.

4. fixing device according to claim 3, which is characterized in that the retainer (42) includes being located in described The first fixed plate (421) and the second fixed plate (422) of the opposite end surface of gear ring and the multiple driven gear (40), it is described First fixed plate (421) and second fixed plate (422) are respectively formed on the unthreaded hole passed through for the more threaded rods (420), first fixed plate (421) is fixed on second fixed plate (422), in first fixed plate (421) It is limited between second fixed plate (422) for keeping the ring gear and the multiple driven gear (40) to be meshed Working space, optionally, on the length direction of the support bracket (2), first fixed plate (421) is located at described flexible Between part (1) and second fixed plate (422), it is provided on first fixed plate (421) towards second fixed plate (422) the connection convex block (423) of tapped blind hole (4230) is protruded and is formed with, the multiple driven gear (40) is around the connection Convex block (423) is arranged, and connect convex block (423) interval with this and be arranged, and fastening bolt passes through second fixed plate (422) and spiral shell Line is connected in the tapped blind hole (4230) of the connection convex block (423), optionally, first fixed plate (421) and described Second fixed plate (422) is all formed as the identical round clamping plate of diameter, and the diameter of the round clamping plate and the ring gear Outer ring surface corresponding to diameter it is identical, first fixed plate (421), second fixed plate (422) and the ring gear Axis overlap.

5. fixing device according to any one of claim 1 to 4, which is characterized in that described to wait for that propeller (5) is formed as Rod-like structure, the location structure (3) are used for the length direction of the telescopic direction and the rod-like structure of the extensible member (1) Straight line arrangement altogether.

6. fixing device according to claim 5, which is characterized in that the location structure (3) includes by the first side plate (31), third side plate (33) and the second side plate (32) are sequentially connected the U-shaped clamp to surround opening away from the extensible member (1) (30), downward opening locating groove (300), institute are respectively formed on first side plate (31) and second side plate (32) It states and is formed with downward opening evacuation fluting (330) on third side plate (33), so that across the institute of the evacuation fluting (330) Stating rod-like structure can align with the telescopic direction of the extensible member (1), and the third side plate (33) is fixed to the support On frame (2), optionally, the evacuation fluting (330) is formed as by semicircle segmental arc (331) and positioned at the semicircle segmental arc (331) The straightway (332) of lower section is constructed of domes, and optionally, the location structure (3) further includes and the third side plate (33) it is mutually parallel and is fixed to the assistant reinforcement plate (34) on the support bracket (2), the length direction in the support bracket (2) The upper assistant reinforcement plate (34) is between the extensible member (1) and the third side plate (33), the assistant reinforcement plate (34) structure is identical with the structure of the third side plate (33).

7. fixing device according to claim 6, which is characterized in that first side plate (31) is parallel to the second side Plate (32) and perpendicular to the third side plate (33), and the third side plate (33) is perpendicular to the length of the support bracket (2) Direction, the locating groove (300), which has, to be mutually parallel and along a pair the first card slot wall (301) extended vertically and positioned at this The second card slot wall (302) between a pair of first card slot wall (301), and the second card slot wall (302) and each first card Cell wall (301) is mutually perpendicular to.

8. a kind of propulsion device, which is characterized in that including according to any one of claim 1 to 5 for extensible member Fixing device, and by the support bracket (2) support to push the extensible member (1) for waiting for propeller (5).

9. propulsion device according to claim 8, which is characterized in that the propulsion device further includes described waiting for propeller (5), the support construction (6) of propeller (5), and the support construction (6) and the location structure (3) and described in support are waited for It matches so that the telescopic direction of the extensible member (1) and described waiting for that propeller (5) aligns.

10. a kind of propulsion device, which is characterized in that including the fixing device according to claim 6 for extensible member, by Support bracket (2) support is formed as the institute of the rod-like structure to push the extensible member (1) for waiting for propeller (5) It states and waits for propeller (5), and support the support construction (6) of the rod-like structure, and the support construction (6) and the positioning Structure (3) matches so that the telescopic direction of the extensible member (1) and the length direction of the rod-like structure align, described Support construction (6) includes the column (61) passed perpendicularly through via the rod-like structure, and setting is in the phase of the column (61) To the positioning wedged block (62) of both sides, the U-shaped clamp (30) is clamped on the column (61), locating groove (300) card It is held on the corresponding positioning wedged block (62).

11. propulsion device according to claim 10, which is characterized in that first side plate (31) is parallel to described second Side plate (32) and perpendicular to the third side plate (33), and the third side plate (33) is perpendicular to the length of the support bracket (2) Direction is spent, the locating groove (300), which has, to be mutually parallel and along a pair the first card slot wall (301) extended vertically and be located at The second card slot wall (302) between a pair the first card slot wall (301), and the second card slot wall (302) and each first Card slot wall (301) is mutually perpendicular to, and the cross section of the column (61) is formed as rectangular configuration, so that the three of the column (61) A side wall is bonded the U-shaped clamp (30) respectively, and the positioning wedged block (62) is formed as fitting in the side wall of the column (61) On rectangle fixture block, three sides of the rectangle fixture block are bonded the pair of first card slot wall (301) and second card respectively Cell wall (302).

12. the propulsion device according to any one of claim 9 to 11, which is characterized in that described to wait for that propeller is formed as Screw putter, the screw putter are tightened against by screw-thread fit in the support construction (6), optionally, the propulsion device Further include via the round push plate (7) of the support bracket (2) support, the plate face and the extensible member (1) of the circle push plate (7) Telescopic direction it is perpendicular, and on the length direction of the support bracket (2) it is described circle push plate (7) be located at the extensible member (1) between the location structure (3), so that the extensible member (1) pushes the screw thread to push away via the round push plate (7) Bar, optionally, the screw putter are used to promote electrical body (8) under the promotion of the extensible member (1), the screw putter End set far from the extensible member (1) is useful for the insulator of the screw putter and the electrical body (8) partition (9), there is the propulsion device screw putter to be mutually parallel four of laying, the insulator of four propulsion devices (9) it is supported on the electrical body (8) via the promotion tablet (80) for being generally formed into rectangle, and four propulsion devices Insulator (9) support respectively and fit in it is described promotion tablet (80) four corners, optionally, the support construction (6) Fixed including opposite ground and with the promotion tablet (80) square shape frame (60) disposed in parallel, be fixed on the square shape frame The U-shaped handle (600) being mutually parallel positioned at a pair of the extensible member (1) side on frame (60), and each U-shaped handle (600) interlude extends along vertical to be respectively used to fix two screw putters.

13. the propulsion device according to any one of claim 8 to 11, which is characterized in that the extensible member (1) is hydraulic pressure Cylinder, optionally, the inflow pipeline of the hydraulic cylinder are provided with the flow control valve for adjusting oil inlet quantity size.

14. the propulsion device according to any one of claim 8 to 11, which is characterized in that also set up on the extensible member It is useful for detecting the pressure sensor of the propelling pressure of the extensible member (1).

15. a kind of propulsion system, which is characterized in that including：

Propulsion device according to any one of claim 8 to 12, wherein the extensible member is hydraulic cylinder；

Pressure-detecting device, the pressure-detecting device are used to detect the propelling pressure of the hydraulic cylinder；

Flow regulator (100), the flow regulator (100) are used to adjust the oil inlet quantity of the inflow pipeline of the hydraulic cylinder Size；

Control device (200) is connected with the pressure-detecting device and the flow regulator (100) respectively, is used for basis The pressure signal of the pressure-detecting device detection controls the action of the flow regulator (100), optionally, the flow Regulating device (100) is electric flow control valve, and optionally, the pressure-detecting device is pressure sensor.