CN105627775A - Movable furnace mouth cleaning system - Google Patents

Abstract

The invention discloses a movable furnace mouth cleaning system. The movable furnace mouth cleaning system comprises a rack, a rack locking device, a lifting vehicle, a lifting drive device, a lifting vehicle locking device, a cleaning device, a cleaning drive device and a rotating drive device. The lifting vehicle is movably arranged on the rack in a manner of being at the position between the first initial position and the middle position. The lifting drive device is arranged on the rack. The lifting drive device is connected with the lifting vehicle. The lifting vehicle locking device is arranged on the lifting vehicle. The lifting vehicle locking device is matched with the rack at the middle position. The cleaning device is movably arranged on the lifting vehicle in a manner of being at the position between the second initial position and the cleaning position. The cleaning device is rotationally arranged. The cleaning drive device is arranged on the lifting vehicle and connected with the cleaning device. The rotating drive device is arranged on the lifting vehicle and connected with the cleaning device. The movable furnace mouth cleaning system has the beneficial effects of being good in cleaning effect, high in cleaning efficiency, simple in structure, low in failure rate and the like.

Description

Portable fire door cleaning system

Technical field

The present invention relates to portable fire door cleaning system.

Background technology

After metallurgical furnace runs for some time, it is necessary to the charging opening of metallurgical furnace is cleared up.

Summary of the invention

One of technical problem that the present invention is intended to solve in correlation technique at least to a certain extent. For this reason, the present invention proposes a kind of portable fire door cleaning system with the advantage that cleaning effect is good, cleaning efficiency is high.

Portable fire door cleaning system according to embodiments of the present invention comprises: be suitable for the frame moved in orbit; For locking the frame locking gear of described frame; Lift car, described lift car is located in described frame between the first starting position and mid-way removablely; Lifting drive, described lifting drive is located in described frame, and described lifting drive is connected to drive described lift car to move between described first starting position and described mid-way with described lift car; For the lift car locking gear being locked in described frame by described lift car, described lift car locking gear is located on described lift car, coordinates with described frame at lift car locking gear described in described mid-way; Cleaning plant, described cleaning plant is located on described lifting table between the 2nd starting position and the clear position stretched in fire door removablely, and described cleaning plant is rotatably arranged; Cleaning drive unit, described cleaning drive unit is located on described lift car, and described cleaning drive unit is connected to drive described cleaning plant to move between described 2nd starting position and described clear position with described cleaning plant; And rotating driving device, described rotating driving device is located on described lift car, and described rotating driving device is connected with described cleaning plant to drive described cleaning plant to rotate.

Portable fire door cleaning system according to embodiments of the present invention has the advantage that cleaning effect is good, cleaning efficiency is high.

In addition, portable fire door cleaning system according to the above embodiment of the present invention can also have following additional technology feature:

According to one embodiment of present invention, described frame locking gear comprises: the first mounting block of contiguous fire door and the 2nd mounting block; For clamping the first hydro-cylinder and the 2nd hydro-cylinder of described first mounting block, described first hydro-cylinder is fixed in described frame relatively with described 2nd hydro-cylinder, and the piston rod of described first hydro-cylinder and the piston rod of described 2nd hydro-cylinder coordinate with described first mounting block; And for clamping the 3rd hydro-cylinder and the 4th hydro-cylinder of described 2nd mounting block, described 3rd hydro-cylinder is fixed in described frame relatively with described 4th hydro-cylinder, and the piston rod of described 3rd hydro-cylinder and the piston rod of described 4th hydro-cylinder coordinate with described 2nd mounting block.

According to one embodiment of present invention, described lifting drive comprises: the first motor, and described first motor is located in described frame, and described first motor has the first rotating shaft and the 2nd rotating shaft; First sprocket wheel and the 2nd sprocket wheel, described first sprocket wheel is set in described first rotating shaft, and described 2nd sprocket wheel is set in described 2nd rotating shaft; 3rd sprocket wheel and the 4th sprocket wheel, described 3rd sprocket wheel and described 4th sprocket wheel are rotatably located in described frame; 5th sprocket wheel and the 6th sprocket wheel, described 5th sprocket wheel and described 6th sprocket wheel are rotatably located in described frame, and described 5th sprocket wheel and described 6th sprocket wheel are positioned at the top of described first sprocket wheel to described 4th sprocket wheel; And the first closed chain and the 2nd closed chain, described first chain is connected with described 5th sprocket wheel with described first sprocket wheel, described 3rd sprocket wheel, described 2nd chain is connected with described 6th sprocket wheel with described 2nd sprocket wheel, described 4th sprocket wheel, described first chain and described 2nd chain all form right-angle triangle, and wherein said lift car is connected with the vertical straight arm of angle of described 2nd chain with the vertical straight arm of angle of described first chain.

According to one embodiment of present invention, described frame has the first vertical guide rail and the 2nd guide rail, and described lift car is provided with the first guide deflection sheave and the 2nd guide deflection sheave that coordinate with described first guide rail and the 3rd guide deflection sheave that coordinates with described 2nd guide rail and the 4th guide deflection sheave.

According to one embodiment of present invention, described lift car locking gear comprises: for clamping the 5th hydro-cylinder and the 6th hydro-cylinder of described first guide rail, described 5th hydro-cylinder is fixed on described lift car relatively with described 6th hydro-cylinder, is resisted against on described first guide rail at the piston rod of the 5th hydro-cylinder described in described mid-way and the piston rod of described 6th hydro-cylinder; And for clamping the 7th hydro-cylinder and the 8th hydro-cylinder of described 2nd guide rail, described 7th hydro-cylinder is fixed on described lift car relatively with described 8th hydro-cylinder, is resisted against on described 2nd guide rail at the piston rod of the 7th hydro-cylinder described in described mid-way and the piston rod of described 8th hydro-cylinder.

According to one embodiment of present invention, described portable fire door cleaning system comprises bearing further, described bearing comprises bearing outer ring and bearing inner ring, wherein said rotating driving device is connected with in described bearing inner ring with described bearing outer ring, described cleaning plant is connected with described in described bearing inner ring with described bearing outer ring, and described cleaning drive unit and described bearing outer ring are connected with another in described bearing inner ring.

According to one embodiment of present invention, described rotating driving device comprises: the 2nd motor; Step-down gear, described step-down gear is connected with described 2nd motor; And first gear and the 2nd gear, described first gear is connected with described step-down gear, and described 2nd gear is connected to drive described cleaning plant to rotate with described cleaning plant, described first gear and described 2nd gears meshing.

According to one embodiment of present invention, described rotating driving device comprises the first rotating disk and the 2nd rotating disk further, described first rotating disk is located on described 2nd gear, described 2nd rotating disk is connected with described cleaning plant, is provided with pre-tight between wherein said first rotating disk and described 2nd rotating disk.

According to one embodiment of present invention, described cleaning plant comprises: drill steel, and described drill steel is connected with each in described rotating driving device with described cleaning drive unit; With at least one cleaning blade, the upper end of described cleaning blade is connected with described drill steel, and described cleaning blade tilts ground from described drill steel and outwards extends.

According to one embodiment of present invention, described cleaning blade is removably mounted on described drill steel.

Accompanying drawing explanation

Fig. 1 is the structural representation of the cleaning system of portable fire door according to embodiments of the present invention;

Fig. 2 is the vertical view of the cleaning system of portable fire door according to embodiments of the present invention;

Fig. 3 is the using state figure of the cleaning system of portable fire door according to embodiments of the present invention.

Reference numeral:

Portable fire door cleaning system 10, track 20, fire door 30,

Frame 101, first guide rail 1011, the 2nd guide rail 1012, crossbeam 1013,

Frame locking gear 102, first mounting block 1021, first hydro-cylinder 1022, the 2nd hydro-cylinder 1023, the 2nd mounting block 1024, the 3rd hydro-cylinder 1025, the 4th hydro-cylinder 1026,

Lift car 103, first guide deflection sheave 1031, the 2nd guide deflection sheave 1032, the 3rd guide deflection sheave 1033, the 4th guide deflection sheave 1034,

Lifting drive 104, first motor 1041, first sprocket wheel 1042, the 3rd sprocket wheel 1043, the 5th sprocket wheel 1044, first chain 1045,

Lift car locking gear 105, the 5th hydro-cylinder 1051, the 7th hydro-cylinder 1052,

Cleaning plant 106, drill steel 1061, cleaning blade 1062,

Cleaning drive unit 107,

Rotating driving device 108, first rotating disk 1081, the 2nd rotating disk 1082, preloading spring 1083

Embodiment

Being described below in detail embodiments of the invention, the example of described embodiment is shown in the drawings. It is exemplary below by the embodiment being described with reference to the drawings, it is intended to for explaining the present invention, and limitation of the present invention can not be interpreted as.

Below with reference to the accompanying drawings the cleaning system 10 of portable fire door according to embodiments of the present invention is described. As shown in Figure 1-Figure 3, portable fire door cleaning system 10 according to embodiments of the present invention comprise be suitable for movement on track 20 frame 101, for locking the frame locking gear 102 of frame 101, lift car 103, lifting drive 104, lift car locking gear 105, cleaning plant 106 for being locked in frame 101 by lift car 103, clear up drive unit 107 and rotating driving device 108.

Lift car 103 is located in frame 101 between the first starting position and mid-way removablely. Lifting drive 104 is located in frame 101, and lifting drive 104 is connected with lift car 103 to drive lift car 103 to move between the first starting position and mid-way. Lift car locking gear 105 is located on lift car 103, coordinates to be locked in frame 101 by lift car 103 with frame 101 at this mid-way lift car locking gear 105.

Cleaning plant 106 is located on lift car 103 between the 2nd starting position and the clear position stretched in fire door 30 removablely, and cleaning plant 106 is rotatably arranged. Cleaning drive unit 107 is located on lift car 103, and cleaning drive unit 107 is connected with cleaning plant 106 to drive cleaning plant 106 to move between the 2nd starting position and this clear position. Rotating driving device 108 is located on lift car 103, and rotating driving device 108 is connected with cleaning plant 106 to drive cleaning plant 106 to rotate.

The working process of the cleaning system 10 of portable fire door according to embodiments of the present invention briefly is described below with reference to Fig. 1-Fig. 3.

When needing the fire door 30 (such as opening for feed) to metallurgical furnace to clear up, moving frame 101 is so that frame 101 moves on track 20, when frame 101 move to cleaning plant 106 and fire door 30 relative in the vertical direction time, frame 101 is locked by frame locking gear 102, to prevent frame 101 from moving.

Then, lifting drive 104 runs, lift car 103 is moved to this mid-way from this first starting position. When lift car 103 moves to this mid-way, lift car 103 is locked in frame 101 by lift car locking gear 105.

Then, cleaning drive unit 107 runs, to drive cleaning plant 106 to move to this clear position from the 2nd mid-way. When cleaning plant 106 moves to this clear position, when namely cleaning plant 106 is positioned at fire door 30, rotating driving device 108 drives cleaning plant 106 to rotate to clear up fire door 30. Thus can effectively realize making an overall screening in fire door 30 circumference range.

After cleaning out, rotating driving device 108 is out of service, and cleaning drive unit 107 runs to drive cleaning plant 106 to move to the 2nd mid-way from this clear position. Lift car locking gear 105 unlocks, and lifting drive 104 runs lift car 103 to move to this first starting position from this mid-way. Finally, frame locking gear 102 unlocks, and frame 101 can need the fire door of cleaning to move to the next one.

Owing to frame 101 can move along track 20, therefore one or more in multiple fire door 30 can optionally be cleared up by portable fire door cleaning system 10. By arranging frame locking gear 102, such that it is able to fixed frame 101, the centering of cleaning plant 106 with fire door 30 can be ensured effectively.

Owing to cleaning plant 106 can move up and down between this first starting position and this mid-way with lift car 103, therefore the distance between the 2nd mid-way and this clear position can greatly be shortened, namely the working stroke of cleaning drive unit 107 and the working stroke of cleaning plant 106 can greatly be shortened, thus can reduce distortion, and be conducive to increasing work efficiency.

Therefore, portable fire door cleaning system 10 according to embodiments of the present invention have that cleaning effect is good, the advantage such as cleaning efficiency height, structure are simple, failure rate is low.

As shown in Figure 1-Figure 3, comprise according to the portable fire door of some embodiments of the present invention cleaning system 10 be suitable for movement on track 20 frame 101, for locking the frame locking gear 102 of frame 101, lift car 103, lifting drive 104, lift car locking gear 105, cleaning plant 106 for being locked in frame 101 by lift car 103, clear up drive unit 107 and rotating driving device 108.

As shown in Figure 2, in one embodiment of the invention, frame locking gear 102 comprise the first mounting block 1021 of contiguous fire door and the 2nd mounting block 1024, for clamping the first hydro-cylinder 1022 of the first mounting block 1021 and the 2nd hydro-cylinder 1023 and the 3rd hydro-cylinder 1025 and the 4th hydro-cylinder 1026 for clamping the 2nd mounting block 1024.

First hydro-cylinder 1022 is fixed in frame 101 relatively with the 2nd hydro-cylinder 1023, and the piston rod of the first hydro-cylinder 1022 and the piston rod of the 2nd hydro-cylinder 1023 coordinate with the first mounting block 1021. 3rd hydro-cylinder 1025 is fixed in frame 101 relatively with the 4th hydro-cylinder 1026, and the piston rod of the 3rd hydro-cylinder 1025 and the piston rod of the 4th hydro-cylinder 1026 coordinate with the 2nd mounting block 1024.

Specifically, the cylinder body of each in the first hydro-cylinder 1022, the 2nd hydro-cylinder 1023, the 3rd hydro-cylinder 1025 and the 4th hydro-cylinder 1026 is fixed in frame 101. When not needing locking frame 101, the piston rod of piston rod and the 4th hydro-cylinder 1026 that the piston rod of the first hydro-cylinder 1022 and the piston rod of the 2nd hydro-cylinder 1023 depart from the first mounting block the 1021, three hydro-cylinder 1025 departs from the 2nd mounting block 1024.

When needs lock frame 101, the piston rod of the first hydro-cylinder 1022 and the piston rod of the 2nd hydro-cylinder 1023 stretch out and are resisted against on the first mounting block 1021 so that the piston rod of the piston rod and the 4th hydro-cylinder 1026 that clamp the first mounting block the 1021, three hydro-cylinder 1025 stretches out and is resisted against on the 2nd mounting block 1024 to clamp the 2nd mounting block 1024.

As shown in Figure 1, frame 101 has the first vertical guide rail 1011 and the 2nd guide rail 1012, and lift car 103 is provided with the first guide deflection sheave 1031 and the 2nd guide deflection sheave 1032 that coordinate with the first guide rail 1011 and the 3rd guide deflection sheave 1033 coordinated with the 2nd guide rail 1012 and the 4th guide deflection sheave 1034.

That is, each in the first guide rail 1011 and the 2nd guide rail 1012 extends all along the vertical direction. When lift car 103 moves between this first starting position and this mid-way, first guide deflection sheave 1031 and the 2nd guide deflection sheave 1032 scroll-up/down on the first guide rail 1011, the 3rd guide deflection sheave 1033 and the 4th guide deflection sheave 1034 scroll-up/down on the 2nd guide rail 1012. Wherein, upper and lower is to shown in the arrow A in such as Fig. 1.

In an example of the present invention, as shown in Figure 1, lifting drive 104 comprises the first motor 1041, first sprocket wheel 1042, the 2nd sprocket wheel, the 3rd sprocket wheel 1043, the 4th sprocket wheel, the 5th sprocket wheel 1044, the 6th sprocket wheel, the first closed chain 1045 and the 2nd closed chain.

First motor 1041 is located in frame 101, and the first motor 1041 has the first rotating shaft and the 2nd rotating shaft. In other words, the first motor 1041 has output shafts. First sprocket wheel 1042 is set in this first rotating shaft, and the 2nd sprocket wheel is set in the 2nd rotating shaft. Each in 3rd sprocket wheel 1043, the 4th sprocket wheel, the 5th sprocket wheel 1044 and the 6th sprocket wheel is rotatably located in frame 101, and the 5th sprocket wheel 1044 and the 6th sprocket wheel are positioned at the top of the first sprocket wheel 1042, the 2nd sprocket wheel, the 3rd sprocket wheel 1043 and the 4th sprocket wheel.

First chain 1045 is connected with the 5th sprocket wheel 1044 with the first sprocket wheel 1042, the 3rd sprocket wheel 1043, and the 2nd chain is connected with the 6th sprocket wheel with the 2nd sprocket wheel, the 4th sprocket wheel, and the first chain 1045 and the 2nd chain all form right-angle triangle. Wherein, lift car 103 is connected with the vertical straight arm of angle of the 2nd chain with the vertical straight arm of angle of the first chain 1045.

That is, the shape of the first chain 1045 and the 2nd chain is right-angle triangle. In other words, 3rd sprocket wheel 1043 is relative in the horizontal direction with the first sprocket wheel 1042,3rd sprocket wheel 1043 is relative with the 5th sprocket wheel 1044 in the vertical direction, and the 4th sprocket wheel is relative in the horizontal direction with the 2nd sprocket wheel, and the 4th sprocket wheel is relative with the 6th sprocket wheel in the vertical direction.

When the first motor 1041 turns clockwise (this first rotating shaft and the 2nd rotating shaft turn clockwise), first sprocket wheel 1042 and the 2nd sprocket wheel turn clockwise, and then drive the first chain 1045 and the 2nd chain to turn clockwise, lift car 103 thus can be made to be moved down into this mid-way from this first starting position. When lift car 103 needs to be moved upwards up to this first starting position from this mid-way, the first motor 1041 is rotated counterclockwise.

Advantageously, frame 101 can also comprise horizontally disposed crossbeam 1013, and one end of crossbeam 1013 is connected with the first guide rail 1011, and the other end of crossbeam 1013 is connected with the 2nd guide rail 1012. Wherein, the 5th sprocket wheel 1044 and the 6th sprocket wheel are rotatably located on crossbeam 1013.

As shown in Figure 1, lift car locking gear 105 comprises the 5th hydro-cylinder 1051 for clamping the first guide rail 1011 and the 6th hydro-cylinder and the 7th hydro-cylinder 1052 and the 8th hydro-cylinder for clamping the 2nd guide rail 1012.

5th hydro-cylinder 1051 is fixed on lift car 103 relatively with the 6th hydro-cylinder, is resisted against on the first guide rail 1011 at the piston rod of this mid-way the 5th hydro-cylinder 1051 and the piston rod of the 6th hydro-cylinder. 7th hydro-cylinder 1052 is fixed on lift car 103 relatively with the 8th hydro-cylinder, is resisted against on the 2nd guide rail 1012 at the piston rod of this mid-way the 7th hydro-cylinder 1052 and the piston rod of the 8th hydro-cylinder.

Specifically, the cylinder body of each in the 5th hydro-cylinder 1051, the 6th hydro-cylinder, the 7th hydro-cylinder 1052 and the 8th hydro-cylinder is fixed on lift car 103. When not needing locking lift car 103, the piston rod of piston rod and the 8th hydro-cylinder that the piston rod of the piston rod of the 5th hydro-cylinder 1051 and the 6th hydro-cylinder departs from the first guide rail the 1011, seven hydro-cylinder 1052 departs from the 2nd guide rail 1012.

When needs lock lift car 103, the piston rod of the piston rod of the 5th hydro-cylinder 1051 and the 6th hydro-cylinder stretches out and is resisted against on the first guide rail 1011 so that the piston rod of the piston rod and the 8th hydro-cylinder that clamp the first guide rail the 1011, seven hydro-cylinder 1052 stretches out and is resisted against on the 2nd guide rail 1012 to clamp the 2nd guide rail 1012.

First hydro-cylinder 1022 can be replaced by cylinder or Electrohydraulic push rod to each in the 8th hydro-cylinder.

As shown in figures 1 and 3, in some examples of the present invention, cleaning plant 106 comprises drill steel 1061 and at least one cleaning blade 1062. Drill steel 1061 is connected with each in rotating driving device 108 with cleaning drive unit 107. The upper end of cleaning blade 1062 is connected with drill steel 1061, and cleaning blade 1062 tilts ground from drill steel 1061 and outwards extends.

In a concrete example of the present invention, cleaning blade 1062 is removably mounted on drill steel 1061. Thus can conveniently, easily change cleaning blade 1062, and without the need to changing whole cleaning plant 106.

Advantageously, cleaning blade 1062 can be multiple, and multiple cleaning blade 1062 is located on drill steel 1061 equally spacedly along the circumference of drill steel 1061. Drill steel 1061 thus can be made to need to rotate very little angle, so that it may to realize making an overall screening in fire door 30 circumference range. Such as, when cleaning blade 1062 is two, drill steel 1061 rotates 180 degree and can realize making an overall screening in fire door 30 circumference range, and when cleaning blade 1062 is three, drill steel 1061 rotates 120 degree and can realize making an overall screening in fire door 30 circumference range.

Wherein, clearing up blade 1062 can from drill steel 1061 downwardly towards outer extension. The structure of cleaning plant 106 thus can be made more reasonable.

In a concrete example of the present invention, rotating driving device 108 comprises the 2nd motor, step-down gear, the first gear and the 2nd gear. This step-down gear is connected with the 2nd motor, and this first gear is connected with this step-down gear, and the 2nd gear is connected to drive cleaning plant 106 to rotate with cleaning plant 106, this first gear and the 2nd gears meshing. The structure of portable furnace mouth cleaning system 10 thus can be made more reasonable.

Specifically, the 2nd gear is connected with drill steel 1061.

Except utilizing the power that gear transmits the 2nd motor, it is also possible to utilize sprocket wheel or ratchet to transmit the power of the 2nd motor.

Portable fire door cleaning system 10 comprises bearing further, and this bearing comprises bearing outer ring and bearing inner ring. Wherein, rotating driving device 108 is connected with in this bearing inner ring with this bearing outer ring, cleaning plant 106 is connected with described in this bearing inner ring with this bearing outer ring, and cleaning drive unit 107 and this bearing outer ring are connected with another in this bearing inner ring.

Specifically, rotating driving device 108 is connected with drill steel 1061 with described in this bearing inner ring by this bearing outer ring. Owing to this bearing outer ring can relative rotate with this bearing inner ring, namely when this bearing outer ring rotates, this bearing inner ring can non rotating, when this bearing inner ring rotates, this bearing outer ring can non rotating, therefore, when rotating driving device 108 drives cleaning plant 106 to rotate, cleaning drive unit 107 can non rotating.

As shown in Figure 1, rotating driving device 108 comprises the first rotating disk 1081 further and the 2nd rotating disk 1082, first rotating disk 1081 is located on the 2nd gear, and the 2nd rotating disk 1082 is connected with cleaning plant 106. Wherein, it is provided with tight in advance between the first rotating disk 1081 and the 2nd rotating disk 1082. The structure of portable furnace mouth cleaning system 10 thus can be made more reasonable.

Specifically, being provided with preloading spring 1083 between the first rotating disk 1081 and the 2nd rotating disk 1082, the 2nd rotating disk 1082 is connected with drill steel 1061.

In describing the invention, it will be appreciated that, term " " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", " on ", D score, " front ", " afterwards ", " left side ", " right side ", " vertically ", " level ", " top ", " end " " interior ", " outward ", " clockwise ", " counterclockwise ", " axis ", " radial direction ", it is based on orientation shown in the drawings or position relation that the orientation of the instruction such as " circumference " or position are closed, it is only the present invention for convenience of description and simplified characterization, instead of indicate or imply that the device referred to or element must have specific orientation, with specific orientation structure and operation, therefore limitation of the present invention can not be interpreted as.

In addition, term " first ", " the 2nd " are only for describing object, and can not be interpreted as instruction or hint relative importance or imply the quantity indicating indicated technology feature. Thus, be limited with " first ", the feature of " the 2nd " can express or implicit comprise at least one this feature. In describing the invention, the implication of " multiple " is at least two, such as two, three etc., unless otherwise expressly limited specifically.

In the present invention, unless otherwise clearly defined and limited, the term such as term " installation ", " being connected ", " connection ", " fixing " should be interpreted broadly, such as, it is possible to be fixedly connected with, it is also possible to be removably connect, or integral; Can be mechanically connected, it is also possible to be electrical connection or each other can communication; Can be directly be connected, it is also possible to be indirectly connected by intermediary, it is possible to be the connection of two element internals or the interaction relationship of two elements, unless otherwise clear and definite restriction. For the ordinary skill in the art, it is possible to understand above-mentioned term concrete implication in the present invention according to particular case.

In the present invention, unless otherwise clearly defined and limited, fisrt feature second feature " on " or D score can be that the first and second features directly contact, or the first and second features are by intermediary indirect contact. And, fisrt feature second feature " on ", " top " and " above " but fisrt feature directly over second feature or oblique upper, or only represent that fisrt feature level height is higher than second feature. Fisrt feature second feature " under ", " lower section " and " below " can be fisrt feature immediately below second feature or tiltedly lower section, or only represent that fisrt feature level height is less than second feature.

In the description of this specification sheets, at least one embodiment that the description of reference term " embodiment ", " some embodiments ", " example ", " concrete example " or " some examples " etc. means to be contained in the present invention in conjunction with concrete feature, structure, material or feature that this embodiment or example describe or example. In this manual, to the schematic representation of above-mentioned term not must for be identical embodiment or example. And, the concrete feature of description, structure, material or feature can combine in one or more embodiment in office or example in an appropriate manner. In addition, when not conflicting, the feature of the different embodiment described in this specification sheets or example and different embodiment or example can be carried out combining and combining by the technician of this area.

Although above it has been shown and described that embodiments of the invention, it is understandable that, above-described embodiment is exemplary, can not be interpreted as limitation of the present invention, and above-described embodiment can be changed, revises, replace and modification by the those of ordinary skill of this area within the scope of the invention.

Claims (10)

1. a portable fire door cleaning system, it is characterised in that, comprising:

Be suitable for the frame moved in orbit;

For locking the frame locking gear of described frame;

Lift car, described lift car is located in described frame between the first starting position and mid-way removablely;

Lifting drive, described lifting drive is located in described frame, and described lifting drive is connected to drive described lift car to move between described first starting position and described mid-way with described lift car;

For the lift car locking gear being locked in described frame by described lift car, described lift car locking gear is located on described lift car, coordinates with described frame at lift car locking gear described in described mid-way;

Cleaning plant, described cleaning plant is located on described lifting table between the 2nd starting position and the clear position stretched in fire door removablely, and described cleaning plant is rotatably arranged;

Cleaning drive unit, described cleaning drive unit is located on described lift car, and described cleaning drive unit is connected to drive described cleaning plant to move between described 2nd starting position and described clear position with described cleaning plant; With

Rotating driving device, described rotating driving device is located on described lift car, and described rotating driving device is connected with described cleaning plant to drive described cleaning plant to rotate.

2. portable fire door cleaning system according to claim 1, it is characterised in that, described frame locking gear comprises:

First mounting block of contiguous fire door and the 2nd mounting block;

For clamping the first hydro-cylinder and the 2nd hydro-cylinder of described first mounting block, described first hydro-cylinder is fixed in described frame relatively with described 2nd hydro-cylinder, and the piston rod of described first hydro-cylinder and the piston rod of described 2nd hydro-cylinder coordinate with described first mounting block; And

For clamping the 3rd hydro-cylinder and the 4th hydro-cylinder of described 2nd mounting block, described 3rd hydro-cylinder is fixed in described frame relatively with described 4th hydro-cylinder, and the piston rod of described 3rd hydro-cylinder and the piston rod of described 4th hydro-cylinder coordinate with described 2nd mounting block.

3. portable fire door cleaning system according to claim 1, it is characterised in that, described lifting drive comprises:

First motor, described first motor is located in described frame, and described first motor has the first rotating shaft and the 2nd rotating shaft;

First sprocket wheel and the 2nd sprocket wheel, described first sprocket wheel is set in described first rotating shaft, and described 2nd sprocket wheel is set in described 2nd rotating shaft;

3rd sprocket wheel and the 4th sprocket wheel, described 3rd sprocket wheel and described 4th sprocket wheel are rotatably located in described frame;

5th sprocket wheel and the 6th sprocket wheel, described 5th sprocket wheel and described 6th sprocket wheel are rotatably located in described frame, and described 5th sprocket wheel and described 6th sprocket wheel are positioned at the top of described first sprocket wheel to described 4th sprocket wheel; And

The first closed chain and the 2nd closed chain, described first chain is connected with described 5th sprocket wheel with described first sprocket wheel, described 3rd sprocket wheel, described 2nd chain is connected with described 6th sprocket wheel with described 2nd sprocket wheel, described 4th sprocket wheel, described first chain and described 2nd chain all form right-angle triangle, and wherein said lift car is connected with the vertical straight arm of angle of described 2nd chain with the vertical straight arm of angle of described first chain.

4. portable fire door cleaning system according to claim 1, it is characterized in that, described frame has the first vertical guide rail and the 2nd guide rail, and described lift car is provided with the first guide deflection sheave and the 2nd guide deflection sheave that coordinate with described first guide rail and the 3rd guide deflection sheave that coordinates with described 2nd guide rail and the 4th guide deflection sheave.

5. portable fire door cleaning system according to claim 4, it is characterised in that, described lift car locking gear comprises:

For clamping the 5th hydro-cylinder and the 6th hydro-cylinder of described first guide rail, described 5th hydro-cylinder is fixed on described lift car relatively with described 6th hydro-cylinder, is resisted against on described first guide rail at the piston rod of the 5th hydro-cylinder described in described mid-way and the piston rod of described 6th hydro-cylinder; And

For clamping the 7th hydro-cylinder and the 8th hydro-cylinder of described 2nd guide rail, described 7th hydro-cylinder is fixed on described lift car relatively with described 8th hydro-cylinder, is resisted against on described 2nd guide rail at the piston rod of the 7th hydro-cylinder described in described mid-way and the piston rod of described 8th hydro-cylinder.

6. portable fire door cleaning system according to claim 1, it is characterized in that, comprise bearing further, described bearing comprises bearing outer ring and bearing inner ring, wherein said rotating driving device is connected with in described bearing inner ring with described bearing outer ring, described cleaning plant is connected with described in described bearing inner ring with described bearing outer ring, and described cleaning drive unit and described bearing outer ring are connected with another in described bearing inner ring.

7. portable fire door cleaning system according to claim 1, it is characterised in that, described rotating driving device comprises:

2nd motor;

Step-down gear, described step-down gear is connected with described 2nd motor; And

First gear and the 2nd gear, described first gear is connected with described step-down gear, and described 2nd gear is connected to drive described cleaning plant to rotate with described cleaning plant, described first gear and described 2nd gears meshing.

8. portable fire door cleaning system according to claim 7, it is characterized in that, described rotating driving device comprises the first rotating disk and the 2nd rotating disk further, described first rotating disk is located on described 2nd gear, described 2nd rotating disk is connected with described cleaning plant, is provided with pre-tight between wherein said first rotating disk and described 2nd rotating disk.

9. portable fire door cleaning system according to claim 1, it is characterised in that, described cleaning plant comprises:

Drill steel, described drill steel is connected with each in described rotating driving device with described cleaning drive unit; With

At least one clears up blade, and the upper end of described cleaning blade is connected with described drill steel, and described cleaning blade tilts ground from described drill steel and outwards extends.

10. portable fire door cleaning system according to claim 9, it is characterised in that, described cleaning blade is removably mounted on described drill steel.