CN208948420U - Driving structure for ship unloaders splicing plate - Google Patents

Abstract

The utility model discloses a kind of driving structures for ship unloaders splicing plate, it applies in ship unloaders apparatus field, it solves entire splicing plate to be driven by a wire rope, wirerope loses the technical problem of the power life of limitation splicing plate rotation after being broken, its key points of the technical solution are that including the splicing plate for being hinged on the side of bordering on the sea of funnel, the two sides of splicing plate rotation direction are equipped with vertical column, two sides of the one end of splicing plate far from funnel in rotation direction are equipped with wirerope, each wirerope upwardly extends far from one end of splicing plate and around the first pulley being arranged on column, wirerope extends downwardly far from one end of first pulley and around the second pulley being arranged on column, wirerope to the direction horizontal extension far from splicing plate and is fixedly connected on the roller of hoist engine around one end of second pulley；Having the technical effect that for having can reduce the possibility that accident occurs during hoist engine winds wirerope.

Description

Driving structure for ship unloaders splicing plate

Technical field

The utility model relates to ship unloaders apparatus field, in particular to a kind of driving structure for ship unloaders splicing plate.

Background technique

Ship unloaders are the heads for being constructed to be promoted bulk granular material using continuous conveyor, or have voluntarily reclaiming capacity concurrently, Or it is equipped with feeding, drawing-in device, bulk granular material is continuously proposed into cabin, cantilever crane or rack is then unloaded to and can be transported to The special-purpose machinery that bank master send machine system to go in defeated place.

Currently, the Chinese patent that notification number is CN205222159U discloses a kind of second level protection dress of ship unloaders splicing plate It sets, it includes the wire rope handling frame that the side of elevator machine cylinder on ship unloaders is arranged in, and is wound on the wirerope on roller with respect to wire rope handling frame The space of facade passes through, and in the facade two sides of wire rope handling frame opposite direction roller, opposite be equipped with can make fan-shaped two swung along facade Swing arm is also equipped on wire rope handling frame when the winding displacement that wirerope is wound on roller is mobile excessive to two sides respectively, can push pendulum The limit switch that arm powers off hoist engine, upright supports are mounted on the ship unloaders on harbour, are grabbed bucket in crawl freighter cabin with unloading The material transfer of delivery drops down onto the process Belt Conveying below big funnel to rear stockyard, is unloading to big funnel rear opening suitable for reading The large-scale splicing plate of useful steel plate production is installed in the side of bordering on the sea of the big funnel of ship machine, and the support shaft of splicing plate one end passes through support sleeve It is hingedly mounted on the extra large side edge of big funnel, freighter is after harbour pulls in shore, and wirerope is by being mounted on the hoist engine of ship unloaders Multiple pulleys of ship unloaders and splicing board ends put the upper end of splicing plate to basic concordant with the top of big funnel, splicing Plate be laid in grab bucket transhipment on the way in the following, in this way, spilling when grab bucket transfers material all accepts recycling by splicing plate, work as goods After cargo in ship is unsnatched, restarts hoist engine by wirerope and the upper end of splicing plate is above mentioned to the column received to close to ship unloaders Until.

Although the second level protective device of this ship unloaders splicing plate prevents rewinding plate to pack up in the hoist engine course of work Hoist engine works on afterwards, but entire splicing plate is driven by a wire rope, winds wirerope in hoist engine to pull splicing When plate, the unrestrained quality of material on splicing plate and splicing plate is big, and the wirerope that hoist engine pulls can be broken, and results in accident Generation.

Utility model content

The purpose of the utility model is to provide a kind of driving structures for ship unloaders splicing plate, its advantage is that: Ke Yi During hoist engine winds wirerope, the possibility that accident occurs is reduced.

The above-mentioned technical purpose of the utility model technical scheme is that: one kind being used for ship unloaders splicing The two sides of the driving structure of plate, the splicing plate of the side of bordering on the sea including being hinged on funnel, the splicing plate are equipped with vertical column, The column is fixed on harbour, and two sides of the described one end of splicing plate far from funnel in rotation direction are equipped with steel Cord, each wirerope upwardly extend far from one end of splicing plate and around the first pulleys being arranged on column, when connecing When flitch turns to vertical, the first pulley is positioned vertically higher than height of the splicing plate far from funnel one end, the steel Cord extends downwardly far from one end of first pulley and around the second pulley being arranged on column, and the second pulley is located at the Below one pulley and close to harbour, the wirerope around second pulley one end to the direction horizontal extension far from splicing plate and It is fixedly connected on the roller of hoist engine.

Through the above technical solutions, when hoist engine works, roller rotation drives wirerope-winding to get up, winds wirerope During, wirerope pulls splicing plate to rotate to funnel, and the material splashed received on splicing plate enters in funnel, compares Single wirerope and hoist engine are used before, two independent wirerope and two independent hoist engines have been used, when one When wirerope and the hoist engine connecting with wirerope break down, in addition a wire rope can play support splicing plate and not fall Effect, can hoist engine wind wirerope during, reduce accident occur possibility, other two direction exerts a force simultaneously So that more steady in splicing plate rotation process.

The utility model is further arranged to: being equipped with several first pressures towards the side of funnel when the splicing plate rotates Contracting spring, first compressed spring contradict far from one end of splicing plate and are equipped with loading plate, and the loading plate is parallel to splicing plate, The loading plate is aligned in the one end of loading plate far from funnel with splicing plate, if the splicing plate is equipped with towards the side of loading plate The dry guide post perpendicular to splicing plate, the guide post upwardly extends far from one end of splicing plate and passes through loading plate, described to lead The barrier blocks that limitation loading plate skids off guide post are equipped in the one end for passing through loading plate to column, the loading plate is away from splicing plate Side is equipped with two pieces of pedestal risers perpendicular to loading plate, and the pedestal riser is located at loading plate close to a side of funnel On, the two pedestal risers are connected with respect between plate face by warning gong, and the gong face of the warning gong is described perpendicular to loading plate Splicing plate is equipped with the plexor member that warning gong is tapped when the first compressed spring is pressed simultaneously towards the side of loading plate.

Through the above technical solutions, material is fallen in and splicing plate suqare almost one when splicing plate receives the material being scattered On the loading plate of cause, with the accumulation for the material that is scattered, the first compressed spring is gradually compressed, and loading plate and splicing plate are added and be scattered Material weight it is increasingly heavier, when loading plate and splicing plate add the weight for the material being scattered close to the break limit of wirerope When, plexor member taps warning gong, and warning gong issues the sound, so that reminding personnel to need to start hoist engine pulls splicing plate, so that Material on loading plate enters in funnel, reduces the possibility surprisingly occurred.

The utility model is further arranged to: the plexor member includes that splicing plate is arranged in towards on the side of loading plate Riser is installed, the installation riser is located at splicing plate in a side of funnel and along perpendicular on the direction of loading plate plate face Extend loading plate upper end, the installation riser is equipped with perpendicular to warning gong and the percussion bar for tapping warning gong, described Tap bar installation riser towards warning gong direction one end be equipped with cover tap bar outer wall the second compressed spring, described second Compressed spring is connected on installation riser far from one end of warning gong, and the other end, which is fixed on, taps bar towards the outer of loading plate one end On wall；

When the first compressed spring in the raw when, it is described tap bar close to warning gong one end contradict loading plate hang down Directly in the side of splicing plate, the one end side for tapping the separate warning gong of bar and installation riser are neat away from the side of warning gong It is flat, the thickness for tapping bar and being greater than installation riser at a distance from warning gong is on splicing plate length direction.

Through the above technical solutions, the second compressed spring is compressed always when not having weight on loading plate, and there is elasticity Restoring force, when loading plate material gravity compressing under decline during, loading plate perpendicular to splicing plate side always with Bar friction is tapped, when splicing plate pulls wirerope close to break limit, the height tapped on bar vertical direction is higher than loading plate Height, thus under the action of the second compressed spring elastic restoring force to warning gong move, tap warning gong, tap bar percussion Installation riser is left after warning gong, does not influence the mistake that subsequent loading plate resets under the elastic restoring force effect of the first compressed spring Journey.

The utility model is further arranged to: the splicing plate is threaded with adjusting plug below the first compressed spring, First compressed spring is connected on the side of adjusting plug far from one end of loading plate, the height on the adjusting plug axis direction Degree is greater than the thickness of splicing plate.

Through the above technical solutions, turning adjusting plug can take out the first compressed spring together, thus by making for a long time The the first compressed spring replacement reduced with rear elastic potential energy.

The utility model is further arranged to: by reinforcing steel plate connection, the splicing plate rotation between two columns When away from the side of funnel be equipped with the connecting column perpendicular to material receiving plate surface, the one end of the connecting column far from splicing plate is hinged There is support column, the support column, which is extended downwardly and is directed toward far from one end of connecting column, reinforces steel plate, opens up on the reinforcement steel plate There is vertical dovetail groove, the reinforcement steel plate is connected with dovetails by dovetail groove sliding, and the support column is far from connecting column One end is hinged in dovetails, and the connecting column, support column, dovetail groove and dovetails are generally aligned in the same plane in the vertical direction, When dovetails contact at cell wall of the dovetail groove close to harbour, the splicing plate is in a horizontal position.

Through the above technical solutions, support column drives dovetails downward in dovetail groove during opening splicing plate Sliding, when splicing plate level, it is mobile to limit support column close to the cell wall on ground that dovetails contact at dovetail groove, plays The effect for supporting splicing plate prevents splicing plate from moving down after the wire cable rupture of connection splicing plate, and it is disconnected to reduce wirerope The degree that flitch is in runaway condition that is followed by is split, splicing plate is supported column when can be swung down to horizontal position and stops.

The utility model is further arranged to: the column is equipped with chain, and the chain is located at column tie point to be connect Above flitch, the chain is connected on splicing plate far from one end of column, when splicing plate is when in a horizontal state, the chain It is straightened.

Through the above technical solutions, chain can prevent splicing plate to moving down after the wire cable rupture in connection splicing plate It is dynamic, further reduce wire cable rupture and be followed by the degree that flitch is in runaway condition, when chain be tauted be followed by flitch will be by Limitation rotation.

The utility model is further arranged to: towards being hinged with steel plate on the side of funnel when the splicing plate rotates, institute State that steel plate pivot center is parallel with the pivot center of splicing plate, the steel plate extends on funnel far from one end of splicing plate.

Through the above technical solutions, during splicing plate rotates, before the one end of steel plate far from splicing plate is above the funnel After move, steel plate covers the gap between splicing plate and funnel, so that the material that is scattered for reducing bulky grain enters gap May, reduce splicing plate because of the possibility that the sundries in gap can not rotate.

The utility model is further arranged to: the splicing plate is equipped with rubber layer, the rubber away from funnel direction in steel plate Glue-line extends on funnel far from one end of splicing plate.

Through the above technical solutions, rubber layer is bent, and rubber layer covers splicing plate during splicing plate rotates Gap between steel plate enters between steel plate and splicing plate to further reduce short grained material and then enters splicing The possibility of plate and funnel gap further reduces splicing plate because of the possibility that the sundries in gap can not rotate.

In conclusion the utility model has the following beneficial effects:

1. two independent wirerope and two independent hoist engines, when a wire rope and the elevator being connect with wirerope When machine breaks down, in addition a wire rope can play the role of that splicing plate is supported not fall, and can wind steel in hoist engine During cord, the possibility that accident occurs is reduced, other two direction exerts a force so that in splicing plate rotation process more simultaneously Steadily；

2. plexor member is struck when loading plate and splicing plate add the break limit of the weight of the material being scattered close to wirerope Warning gong is hit, warning gong issues the sound and operator is reminded to need to start hoist engine pulling splicing plate, so that the material on loading plate Into in funnel, reduce the possibility surprisingly occurred.

Detailed description of the invention

Fig. 1 is the overall structure diagram of the present embodiment；

Fig. 2 is the partial enlarged view in the portion A in Fig. 1；

Fig. 3 is the structural schematic diagram that the present embodiment is used to embody plexor member；

Fig. 4 is the partial enlarged view in the portion B in Fig. 3.

Appended drawing reference: 1, funnel；2, splicing plate；3, column；4, harbour；5, wirerope；6, first pulley；7, second is sliding Wheel；8, third pulley；9, hoist engine；10, roller；11, the first compressed spring；12, loading plate；13, guide post；14, barrier blocks； 15, pedestal riser；16, gong is warned；17, plexor member；18, riser is installed；19, bar is tapped；20, the second compressed spring；21, it adjusts Plug；22, reinforce steel plate；23, connecting column；24, support column；25, dovetail groove；26, dovetails；27, chain；28, steel plate；29, rubber Glue-line；30, vertical clapboard.

Specific embodiment

The utility model is described in further detail below in conjunction with attached drawing.

Embodiment:

A kind of driving structure for ship unloaders splicing plate, with reference to Fig. 1, including the funnel 1 on setting harbour 4, funnel 1 struggles against If a mouthful inner wall is welded with the vertical clapboard 30 that 1 quarrel of capable person's funnel is separated into several fritters, the side of bordering on the sea of funnel 1 is hinged with one piece Splicing plate 2, harbour 4 are equipped with two root posts 3, and two root posts 3 are located at the two sides of 2 rotation direction of splicing plate, and splicing plate 2 is remote Two sides of the one end in rotation direction from funnel 1 are fixed with wirerope 5.

With reference to Fig. 1, splicing plate 2 is on the side for being equipped with wirerope 5 on direction of 5 tie point of wirerope far from funnel 1 Equipped with third pulley 8(such as Fig. 2), wirerope 5 upwardly extends after bypassing third pulley 8 and around first be arranged on column 3 Pulley 6, when splicing plate 2 turns to vertical, first pulley 6 is positioned vertically higher than height of the splicing plate 2 far from 1 one end of funnel Degree, column 3 are equipped with the second pulley 7 being located at below first pulley 6 in vertical direction, and second pulley 7 is close to harbour 4, wirerope 5 One end far from first pulley 6 extends downwardly and around second pulley 7, and wirerope 5 connects around one end of second pulley 7 to separate It the direction horizontal extension of flitch 2 and is fixedly connected on the roller 10 of hoist engine 9.

In the course of work, for receiving the material being scattered when splicing plate 2 is in transported material to funnel 1, when on splicing plate 2 When material accumulation is excessive or needs to carry out next discharging, needs operator while starting two hoist engines 9, at this time drum rotation, Two wirerope 5 of 2 two sides of splicing plate are driven to wind up, during winding wirerope 5, two wirerope 5 are uniform simultaneously Splicing plate 2 is pulled to rotate to funnel 1, the material splashed received on splicing plate 2 at this time enters in funnel 1, and splicing plate 2 is received It rises, when a wire rope 5 and the hoist engine connecting with wirerope 59 break down, in addition a wire rope 5 can play branch The effect that support splicing plate 2 is not fallen can reduce the possibility that accident occurs, separately during hoist engine 9 winds wirerope 5 Outer both direction is exerted a force simultaneously so that more steady in 2 rotation process of splicing plate.

Referring to figs. 2 and 3, if operator can be reminded when wirerope 5 reaches break limit fastly, so that it may reduce steel wire The danger of 5 fracture of rope, is then equipped with the loading plate parallel with splicing plate 2 when splicing plate 2 is horizontal on the side of harbour 4 12, the first compressed spring 11 for being used to support loading plate 12, the first compressed spring 11 1 are equipped between loading plate 12 and splicing plate 2 End is fixed on splicing plate 2, and the other end contacts at loading plate 12, and loading plate 12 is on perpendicular to 2 pivot center direction of splicing plate One end far from funnel 1 is aligned with splicing plate 2, and the area on perpendicular to 2 pivot center direction of splicing plate of loading plate 12 is slightly less than The area of splicing plate 2.

Referring to figs. 2 and 3, splicing plate 2 is equipped with four along 12 4 angle point distributions of loading plate towards the side of loading plate 12 And perpendicular to the guide post of splicing plate 2 13, guide post 13 upwardly extends far from one end of splicing plate 2 and passes through loading plate 12, rushes The barrier blocks 14 for being greater than 13 size of guide post are equipped with after crossing loading plate 12, barrier blocks 14 limit loading plate 12 and skid off guide post 13, Two pieces of pedestals perpendicular to loading plate 12 are equipped on side of the loading plate 12 away from splicing plate 2 and a side close to funnel 1 Riser 15, pedestal riser 15 are connected by warning gong 16 with respect between plate face, warn the gong face of gong 16 perpendicular to loading plate 12, connect Flitch 2 is equipped with plexor member 17 towards the side of loading plate 12, and plexor member 17 is used to tap when the first compressed spring 11 is pressed simultaneously Warn gong 16.

In the course of work, when splicing plate 2 receives the material being scattered, material is fallen in and 2 area of splicing plate is almost consistent holds On support plate 12, with the accumulation for the material that is scattered, the first compressed spring 11 is gradually compressed, and has elastic restoring force, loading plate 12 and splicing plate 2 to add the weight of material being scattered increasingly heavier.When the first compressed spring 11 by pressure and when, loading plate 12 at this time The weight for the material being scattered is added close to the break limit of wirerope 5 with splicing plate 2, and plexor member 17 taps warning gong 16, warning Gong 16 issues the sound, and operator is reminded to need to stop discharging, and starts hoist engine 9 and pull splicing plate 2, so that on loading plate 12 Material enter in funnel 1, reduce the possibility surprisingly occurred.

With reference to Fig. 3, plexor member 17 includes the installation riser being arranged on 2 side of splicing plate that loading plate 12 is not covered with 18, installation riser 18 is parallel to the gong face of warning gong 16, and installation riser 18 is located at splicing plate 2 in a side of funnel 1, pacifies The height that the one end of riser 18 far from splicing plate 2 is higher than loading plate 12 on perpendicular to 12 direction of loading plate is filled, riser 18 is installed The percussion bar 19 for being parallel to splicing plate 2 is worn, taps the length direction of bar 19 perpendicular to warning gong 16 and for tapping warning Gong 16 taps bar 19 and is equipped with the second compression covered tapping 19 outer wall of bar in the one end in installation riser 18 towards warning 16 direction of gong Spring 20, the second compressed spring 20 are connected on installation riser 18 far from one end of warning gong 16, and the second compressed spring 20 is another End, which is connected to, taps bar 19 towards on 12 bottom end outer wall of loading plate.

With reference to Fig. 3, when not having weight on loading plate 12, loading plate 12 is higher than in height away from the side of splicing plate 2 The height of bar 19 is tapped, bar 19 is tapped and contradicts in loading plate 12 close to one end of warning gong 16 perpendicular to the side of splicing plate 2, the Two compressed springs 20 are compressed, and tap one end side and installation riser 18 of the bar 19 far from warning gong 16 away from the side of warning gong 16 Face flushes, and the thickness that bar 19 is greater than installation riser 18 at a distance from warning gong 16 is on 2 length direction of splicing plate is tapped, when first Compressed spring 11 is pressed simultaneously, and loading plate 12 is lower than the height for tapping bar 19 away from the side of splicing plate 2 in height.

In the course of work, operator needs to listen to the sound of warning gong 16, when there is no weight on loading plate 12, the second pressure Contracting spring 20 is compressed always, and has elastic restoring force, the trend of the oriented loading plate 12 of bar 19 movement is tapped, when loading plate 12 During decline under the compressing of the gravity of material, loading plate 12 rubs with percussion bar 19 always perpendicular to the side of splicing plate 2.

When splicing plate 2 pulls wirerope 5 close to break limit, the height tapped on 19 vertical direction of bar is higher than loading plate 12 height, loading plate 12 no longer hinder to tap the horizontal movement of bar 19, to tap bar 19 in 20 elasticity of the second compressed spring It is moved under the action of restoring force to warning gong 16, taps warning gong 16, operator should stop discharge process immediately at this time, start volume Machine 9 is raised to pack up splicing plate 2, recycles the material on splicing plate 2.

When rotating splicing plate 2, taps after bar 19 taps warning gong 16 and leave installation riser 18, do not hinder because material enters The motion process of the loading plate 12 resetted under the elastic restoring force effect of the first compressed spring 11 after funnel 1, taps bar 19 and exists Hand-reset is needed after tapping warning gong 16, overcomes the elastic restoring force of the second compressed spring 20 to will hit against bar 19 again and supports again It touches in loading plate 12.

With reference to Fig. 2, the elastic potential energy that it has after the 11 long-time use of the first compressed spring is easy decline, and cannot be preferable Support bearing plate 12, the first compressed spring 11 is then removably connected to splicing plate 2, one end of the first compressed spring 11 is solid It is scheduled on the side of 21 axis direction of adjusting plug, close to the side of harbour 4 when adjusting plug 21 is threadedly connected to 2 level of splicing plate On, the side that adjusting plug 21 is equipped with the first compressed spring 11 passes through splicing plate 2, and the height on 21 axis direction of adjusting plug, which is greater than, to be connect The thickness of flitch 2 when needing replacing the first spring, replaces the first compressed spring on adjusting after can individually back-outing adjusting plug 21 11.

With reference to Fig. 1 and Fig. 3, if the rotation of splicing plate 2 can be stopped in 5 complete rupture of wirerope, accident can reduce The extent of injury, will then be connected between two columns 3 by reinforcing steel plate 22, and reinforce steel plate 22 perpendicular to harbour 4, reinforce steel plate It offers and is located at the vertical dovetail groove 25 in strong 28 middle position of steel plate on 22, reinforce steel plate 22 and pass through the sliding connection of dovetail groove 25 There are dovetails 26.

With reference to Fig. 1 and Fig. 3, the company perpendicular to 2 plate face of splicing plate is equipped with away from the side of funnel 1 when splicing plate 2 rotates Column 23 is connect, connecting column 23 is hinged with support column 24, rotational plane and the splicing plate 2 of support column 24 far from one end of splicing plate 2 Rotational plane is consistent, and support column 24, which is extended downwardly and is directed toward far from one end of connecting column 23, reinforces steel plate 22, and support column 24 is separate One end of connecting column 23 is hinged on the side that dovetails 26 deviate from 25 slot bottom of dovetail groove, leans on when dovetails 26 contact at dovetail groove 25 When the cell wall of nearly harbour 4, splicing plate 2 is horizontal positioned, and connecting column 23, support column 24, dovetail groove 25 and dovetails 26 are in vertical side It is generally aligned in the same plane upwards.

In the course of work, if two 5 complete ruptures of wirerope, splicing plate 2 is rotated down, in rotation process, connecting column 23 It moving downward, during support rod moves downward while rotating, dovetails 26 slide downwards under the drive of support column 24, when When splicing plate 2 is horizontal, it is mobile to limit support column 24 close to the cell wall on ground that dovetails 26 contact at dovetail groove 25, plays The effect for supporting splicing plate 2 prevents splicing plate 2 from moving down, reduces steel wire after the wirerope 5 of connection splicing plate 2 is broken 5 fracture of rope is followed by the degree that flitch 2 is in runaway condition, and splicing plate 2 is supported column 24 and blocks when can be swung down to horizontal position Firmly.

With reference to Fig. 1, chain 27 can be set also to prevent splicing plate 2 is out of hand from rotating down, the setting of chain 27 is vertical On column 3, chain 27 and 3 tie point of column are located at 2 top of splicing plate, and chain 27 is connected to splicing plate 2 far from one end of column 3 On side equipped with wirerope 5, bending fold state is in when chain 27 is flat, when splicing plate 2 is horizontal, chain 27 is straightened, After the wirerope 5 for connecting splicing plate 2 is broken, chain 27 is tauted that splicing plate 2 is prevented to move down, and further reduces The fracture of wirerope 5 is followed by the degree that flitch 2 is in runaway condition.

With reference to Fig. 4, the material being scattered can be entered in the gap of splicing plate 2 and 1 hinged place of funnel, be opened when wanting to withdraw Splicing plate 2 when, material may block splicing plate 2 and cause splicing plate 2 that can not rotate, then splicing plate 2 rotate when court Steel plate 28 is hinged on the side of funnel 1,28 pivot center of steel plate is parallel with the pivot center of splicing plate 2, steel plate 28 with connect The hinged place of flitch 2 is in splicing plate 2 close to the side of funnel 1, and steel plate 28 enters in funnel 1 far from one end of splicing plate 2, steel plate 28 in the direction of the axis of rotation with the side length equivalent width of funnel 1.

In the course of work, during splicing plate 2 rotates, steel plate 28 is rotated relative to splicing plate 2, and steel plate 28 is far from splicing One end of plate 2 is moved forward and backward above funnel 1, but covers the gap between splicing plate 2 and funnel 1 always, to reduce The material that is scattered of bulky grain enters the possibility in gap, reduces splicing plate 2 because of the possibility that the sundries in gap can not rotate.

With reference to Fig. 4, steel plate 28 can obstruct the material of part bulky grain, but can not obstruct tiny particulate matter, then It is equipped with rubber layer 29 away from 1 direction of funnel in steel plate 28 in splicing plate 2, the one end of rubber layer 29 far from splicing plate 2 is prolonged to funnel 1 It stretches and enters in funnel 1, the rubber layer 29 is located at 28 top of steel plate.

In the course of work, the rotation of splicing plate 2 causes rubber layer 29 to bend, but rubber layer 29 covers splicing plate always Gap between 2 and steel plate 28, thus further reduce short grained material enter between steel plate 28 and splicing plate 2 so that into The possibility for entering splicing plate 2 Yu 1 gap of funnel further reduces splicing plate 2 because of the possibility that the sundries in gap can not rotate.

This specific embodiment is only the explanation to the utility model, is not limitations of the present invention, ability Field technique personnel can according to need the modification that not creative contribution is made to the present embodiment after reading this specification, but As long as all by the protection of Patent Law in the scope of the claims of the utility model.

Claims (8)

1. a kind of driving structure for ship unloaders splicing plate, the splicing plate (2) of the side of bordering on the sea including being hinged on funnel (1), The two sides of the splicing plate (2) are equipped with vertical column (3), and the column (3) is fixed on harbour (4), and feature exists In two sides of the one end of the splicing plate (2) far from funnel (1) in rotation direction are equipped with wirerope (5), each described Wirerope (5) upwardly extends far from the one end of splicing plate (2) and around the first pulley (6) being arranged on column (3), works as splicing When plate (2) turns to vertical, the first pulley (6) is positioned vertically higher than the height of splicing plate (2) far from funnel (1) one end Degree, the wirerope (5) extend downwardly far from the one end of first pulley (6) and around the second pulleys being arranged on column (3) (7), the second pulley (7) is located at below first pulley (6) and close to harbour (4), and the wirerope (5) bypasses second pulley (7) one end is to the direction horizontal extension far from splicing plate (2) and is fixedly connected on the roller (10) of hoist engine (9).

2. the driving structure according to claim 1 for ship unloaders splicing plate, which is characterized in that the splicing plate (2) Several first compressed springs (11) are equipped with towards the side of funnel (1) when rotation, first compressed spring (11) is separate to be connect One end of flitch (2), which contradicts, is equipped with loading plate (12), and the loading plate (12) is parallel to splicing plate (2), the loading plate (12) It is aligned far from the one end of funnel (1) with splicing plate (2) in loading plate (12), side of the splicing plate (2) towards loading plate (12) Face is equipped with several guide posts (13) perpendicular to splicing plate (2), and the guide post (13) is prolonged upwards far from the one end of splicing plate (2) It stretches and passes through loading plate (12), the guide post (13) is equipped with limitation loading plate (12) in the one end for passing through loading plate (12) and skids off The barrier blocks (14) of guide post (13), the loading plate (12) are equipped with two pieces perpendicular to holding away from the side of splicing plate (2) The pedestal riser (15) of support plate (12), the pedestal riser (15) are located at loading plate (12) in a side of funnel (1), and two The pedestal riser (15) is with respect to, by warning gong (16) connection, the gong face of warning gong (16) is perpendicular to carrying between plate face Plate (12), the splicing plate (2) are equipped with to tap when the first compressed spring (11) is pressed simultaneously towards the side of loading plate (12) and warn Show the plexor member (17) of gong (16).

3. the driving structure according to claim 2 for ship unloaders splicing plate, which is characterized in that the plexor member (17) Including the installation riser (18) being arranged on the side in splicing plate (2) towards loading plate (12), the installation riser (18) is located at Splicing plate (2) extends upward loading plate in a side of funnel (1) and along the side perpendicular to loading plate (12) plate face (12) upper end, installation riser (18) is equipped with perpendicular to warning gong (16) and the percussion bar for tapping warning gong (16) (19), it is described tap bar (19) installation riser (18) towards warning gong (16) direction one end be equipped with cover tap bar (19) outside The second compressed spring (20) of wall, second compressed spring (20) are connected to installation riser far from one end of warning gong (16) (18) on, the other end, which is fixed on, taps bar (19) towards on the outer wall of loading plate (12) one end；

When the first compressed spring (11) in the raw when, it is described tap bar (19) close to warning gong (16) one end contradict exists Loading plate (12) is perpendicular to the side of splicing plate (2), and tap bar (19) are far from the one end side and installation for warning gong (16) Riser (18) is flushed away from the side of warning gong (16), and the percussion bar (19) and warning gong (16) are in splicing plate (2) length side Upward distance is greater than the thickness of installation riser (18).

4. the driving structure according to claim 2 for ship unloaders splicing plate, which is characterized in that the splicing plate (2) It is threaded with adjusting plug (21) below the first compressed spring (11), first compressed spring (11) is far from loading plate (12) One end be connected on the side of adjusting plug (21), height on adjusting plug (21) axis direction is greater than splicing plate (2) Thickness.

5. the driving structure according to claim 1 for ship unloaders splicing plate, which is characterized in that two columns (3) Between by reinforce steel plate (22) connection, the splicing plate (2) rotate when away from funnel (1) side be equipped with perpendicular to splicing The connecting column (23) of plate (2) plate face, the connecting column (23) is hinged with support column (24) far from the one end of splicing plate (2), described Support column (24), which is extended downwardly and is directed toward far from the one end of connecting column (23), reinforces steel plate (22), opens on the reinforcement steel plate (22) Equipped with vertical dovetail groove (25), the reinforcement steel plate (22) is connected with dovetails (26) by dovetail groove (25) sliding, described Support column (24) is hinged on dovetails (26) far from the one end of connecting column (23), the connecting column (23), support column (24), swallow Stern notch (25) and dovetails (26) are generally aligned in the same plane in the vertical direction, when to contact at dovetail groove (25) close for dovetails (26) When the cell wall of harbour (4), the splicing plate (2) is in a horizontal position.

6. the driving structure according to claim 1 for ship unloaders splicing plate, which is characterized in that on the column (3) Equipped with chain (27), the chain (27) and column (3) tie point are located above splicing plate (2), and the chain (27) is far from vertical One end of column (3) is connected on splicing plate (2), and when splicing plate (2) is when in a horizontal state, the chain (27) is straightened.

7. the driving structure according to claim 1 for ship unloaders splicing plate, which is characterized in that the splicing plate (2) Towards being hinged with steel plate (28) on the side of funnel (1) when rotation, the rotation of steel plate (28) pivot center and splicing plate (2) Axis is parallel, and the steel plate (28) extends on funnel (1) far from the one end of splicing plate (2).

8. the driving structure according to claim 7 for ship unloaders splicing plate, which is characterized in that the splicing plate (2) Rubber layer (29) are equipped with away from funnel (1) direction in steel plate (28), the rubber layer (29) extends far from the one end of splicing plate (2) To on funnel (1).