CN207419404U - A kind of lying type anti-flood valve - Google Patents

Abstract

The utility model is related to a kind of lying type anti-flood valve, including two gate piers, gate and two headstock gears；Two gate piers are arranged side by side and are arranged at intervals；Gate locating is between two gate piers, and its lower end is hinged on pre-buried underwater ground substrate plate；Two headstock gears are symmetricly set on position of the inside close to upper end of two gate piers, and positioned at the same side of gate, and it drives end to be connected respectively with the upper end both sides of gate；The upper end both sides of gate are respectively equipped with locking member；The one-to-one lockable mechanism of locking member is respectively equipped on two gate piers；Two headstock gears can be respectively by driving end synchronously the upper end of gate to be driven to be flipped up barrier gate or downwardly turn over to open a sluice gate around the hinged place with ground substrate plate, and when being flipped up to range, can be locked by locking member with corresponding lockable mechanism.Advantage：Simple in structure, design is reasonable, and easy to operate, security performance is higher.

Description

A kind of lying type anti-flood valve

Technical field

The utility model is related to a kind of flood protection device, more particularly to a kind of lying type anti-flood valve.

Background technology

During flood control works is built, to consider landscape effect, lock station is created mostly using horizontal gate, horizontal gate Design is locked using hydraulic headstock gear, when being run at flood season lock station, easily by wave stroke closing gate state is made to generate change Change and accident occurs, therefore, it is necessary to design a kind of locking device to ensure the stabilization of closing gate state, make its safe operation.

Utility model content

The technical problem to be solved by the utility model is to provide a kind of lying type anti-flood valves, effectively overcome existing skill The defects of art.

The technical solution that the utility model solves above-mentioned technical problem is as follows：A kind of lying type anti-flood valve, including two locks Pier, gate and two headstock gears；

Two above-mentioned gate piers are arranged side by side and are arranged at intervals；

Above-mentioned gate locating is between two above-mentioned gate piers, and its lower end is hinged on pre-buried underwater ground substrate plate；

Two above-mentioned headstock gears are symmetricly set on position of the inside close to upper end of two above-mentioned gate piers, and positioned at above-mentioned lock The same side of door, and it drives end to be connected respectively with the upper end both sides of above-mentioned gate；

The upper end both sides of above-mentioned gate are respectively equipped with locking member；

The one-to-one lockable mechanism of above-mentioned locking member is respectively equipped on two above-mentioned gate piers；

Two above-mentioned headstock gears can respectively by drive end synchronously drive the upper end of above-mentioned gate around with above-mentioned ground substrate plate Hinged place be flipped up barrier gate or downwardly turn over to open a sluice gate, and when being flipped up to range, above-mentioned locking member can be passed through It is locked with corresponding above-mentioned lockable mechanism.

The beneficial effects of the utility model are：Simple in structure, design is reasonable, and easy to operate, security performance is higher.

Based on the above technical solutions, the utility model can also do following improvement.

Further, above-mentioned locking member is the hanging axis for being secured transverse to above-mentioned gate upper end, and above-mentioned lockable mechanism is right respectively The suspension hook of above-mentioned gate pier inner top side should be arranged on, when above-mentioned gate is flipped up around the hinged place with above-mentioned ground substrate plate to most During big travel position, the upper end can be fixed by above-mentioned hanging axis with corresponding above-mentioned suspension hook mounting.

Advantageous effect using above-mentioned further scheme is that locking member and lockable mechanism are simple in structure, and cooperation is simple, convenient.

Further, the position of corresponding above-mentioned lockable mechanism is embedded with anchor slab inside above-mentioned gate pier, laterally connects on above-mentioned anchor slab A short axle for passing through above-mentioned gate pier inner side end is connected to, above-mentioned lockable mechanism is rotatably connected on one of above-mentioned short axle away from anchor slab End.

Advantageous effect using above-mentioned further scheme be the design so that the degree of being connected firmly of lockable mechanism and gate pier compared with It is high.

Further, above-mentioned hanging axis both ends are fixed on the upper end of above-mentioned gate by connecting seat respectively.

Advantageous effect using above-mentioned further scheme is the installation beneficial to hanging axis.

Further, the upper end transverse strands of two above-mentioned gate piers are equipped with linear moving mechanism, and above-mentioned lockable mechanism is installed respectively On above-mentioned linear moving mechanism, and it can be moved along above-mentioned linear moving mechanism；When above-mentioned gate around with above-mentioned ground substrate plate When hinged place is flipped up to range, above-mentioned lockable mechanism can respectively along above-mentioned linear moving mechanism be moved to it is corresponding Locking member is locked.

Advantageous effect using above-mentioned further scheme is that the design is very ingenious, it can be achieved that automation after gate barrier gate Locking.

Further, above-mentioned linear moving mechanism includes two bearing blocks, screw rod, driving mechanism, guide rod and two slides；

The corresponding upper end for being mounted on two above-mentioned gate piers of two above-mentioned bearing blocks；

Above-mentioned screw rod is laterally set, and both ends are rotatably installed in respectively on two above-mentioned two bearing blocks；

Screw thread is respectively equipped with from centre position to both ends end on above-mentioned screw rod periphery, and two sections of hand of spiral are opposite；

Two above-mentioned slides are threadably mounted at respectively on two sections of screw threads of above-mentioned screw rod；

Above-mentioned guide rod is horizontally installed between two bearing blocks, and passes through two above-mentioned slides；

The upper end of an above-mentioned driving mechanism above-mentioned gate pier installed therein, and be connected with above-mentioned screw drive；

Two above-mentioned lockable mechanisms are separately mounted to the lower end of two above-mentioned slides, and are located at two above-mentioned locking members respectively Between；

Above-mentioned driving mechanism can drive screw turns, and drive two slides respectively along screw rod it is synchronous with guide rod axial direction phase It mutually moves close to or separate, and in moving process is located remotely from each other, above-mentioned lockable mechanism is movable to be locked with corresponding locking member It fastens.

Advantageous effect using above-mentioned further scheme is that linear moving mechanism is simple in structure, and flexible and convenient operation is beneficial to The movement of two lockable mechanisms realizes that lockable mechanism automates mobile locking with corresponding locking member.

Further, above-mentioned locking member is the shaft for being secured transverse to above-mentioned gate upper end, and above-mentioned lockable mechanism includes connecting rod And lantern ring, the upper end of above-mentioned connecting rod are connected with the lower end of corresponding above-mentioned slide, above-mentioned lantern ring is arranged on the lower end of above-mentioned connecting rod, The lantern ring that above-mentioned lockable mechanism is movable to thereon is set in corresponding shaft outside its one end.

Advantageous effect using above-mentioned further scheme is that locking member and lockable mechanism design are reasonable, is automated beneficial to realizing Locking.

Further, above-mentioned driving mechanism includes being provided respectively therein the motor and reduction box of an above-mentioned gate pier upper end, The shaft of above-mentioned motor is connected with the input terminal of above-mentioned reduction box, the output terminal of above-mentioned reduction box one end corresponding with above-mentioned screw rod Connection.

Advantageous effect using above-mentioned further scheme is that driving mechanism structure is simple, can be adjusted and turned according to actual demand Speed, it is very convenient.

Description of the drawings

Fig. 1 is the vertical section structure schematic diagram of one embodiment of the lying type anti-flood valve of the utility model；

Fig. 2 is the positive structure schematic of one embodiment of the lying type anti-flood valve of the utility model；

Fig. 3 is the vertical section structure schematic diagram of another embodiment of the lying type anti-flood valve of the utility model；

Fig. 4 is the positive structure schematic of another embodiment of the lying type anti-flood valve of the utility model.

In attached drawing, parts list represented by the reference numerals is as follows：

1st, gate pier, 2, gate, 3, headstock gear, 4, substrate plate, 5, linear moving mechanism, 11, lockable mechanism, 12, anchor slab, 13rd, short axle, 14, erecting bed, 21, locking member, 51, bearing block, 52, screw rod, 53, driving mechanism, 54, guide rod, 55, slide, 111st, connecting rod, 112, lantern ring, 211, connecting seat, 531, motor, 532, reduction box.

Specific embodiment

The principle and feature of the utility model are described below in conjunction with attached drawing, example is served only for explaining this practicality It is new, it is not intended to limit the scope of the utility model.

Embodiment：As shown in Figures 1 to 4, the lying type anti-flood valve of the present embodiment, including two gate piers 1, gate 2 and two Headstock gear 3；

Two above-mentioned gate piers 1 are arranged side by side and are arranged at intervals；

Above-mentioned gate 2 is arranged between two above-mentioned gate piers 1, and its lower end is hinged on pre-buried underwater ground substrate plate 4 On；

Two above-mentioned headstock gears 3 are symmetricly set on the inside of two above-mentioned gate piers 1 close to the position of upper end, and positioned at above-mentioned The same side of gate 2, and it drives upper end both sides of the end respectively with above-mentioned gate 2 to be connected；

The upper end both sides of above-mentioned gate 2 are respectively equipped with locking member 21；

Above-mentioned 21 one-to-one lockable mechanism 11 of locking member is respectively equipped on two above-mentioned gate piers 1；

Two above-mentioned headstock gears 3 can respectively by drive end synchronously drive the upper end of above-mentioned gate 2 around with above-mentioned ground substrate The hinged place of plate 4 is flipped up barrier gate or downwardly turns over to open a sluice gate, and when being flipped up to range, can pass through above-mentioned locking Part 21 is locked with corresponding above-mentioned lockable mechanism 11.

Generally, front side overturning of the above-mentioned gate 2 to current direct of travel under the driving of headstock gear 3 is mobile or is flipped back to Position, headstock gear 3 are oppositely arranged on the rear side of current direct of travel, non-flood period, headstock gear 3 gate 2 is driven to overturn forward open a sluice gate (can Overturn forward to gate 2 close to level), when flood season, headstock gear 3 drives gate 2, and (gate 2 is to rear side for side to overturn return backward Overturning is to close to vertical, that is, maximum stroke), so flood can be stopped using gate 2, it is ensured that the water on front side of gate 2 Position is less than the water level of 2 rear side of gate, plays the purpose effectively controlled flood, after the driving of headstock gear 3 gate 2 backward side to overturn return, Lockable mechanism 11 can be locked with corresponding locking member 21 to be coordinated, its object is to can gate 2 be firmly fixed to barrier gate state, And headstock gear 3 can be closed after locking, reduce energy consumption.

In some embodiments, as illustrated in fig. 1 and 2, above-mentioned locking member 21 is to be secured transverse to hanging for above-mentioned 2 upper end of gate Axis, above-mentioned lockable mechanism 11 are to be correspondingly arranged at the suspension hook of above-mentioned 1 inner top side of gate pier respectively, when above-mentioned gate 2 around with it is above-mentioned When the hinged place of ground substrate plate 4 is flipped up to maximum travel position, the upper end above-mentioned can be hung by above-mentioned hanging axis with corresponding Hook connects fixation, and at flood season, after closed shutter 2 (side to overturn return backward), operating personnel can pass through instrument or other auxiliary Device drives suspension hook move with hanging axis mount, with this realize gate 2 close after be locked, so that it is guaranteed that after 2 barrier gate of gate It is safe and stable.

Preferably, the position of the corresponding above-mentioned lockable mechanism 11 in 1 inside of above-mentioned gate pier is embedded with anchor slab 12, on above-mentioned anchor slab 12 A short axle 13 for passing through above-mentioned 1 inner side end of gate pier is horizontally connected with, above-mentioned lockable mechanism 11 is rotatably connected on above-mentioned short axle 13 one end away from anchor slab 12, the purpose so done are so that short axle 13 can be firmly fixed on gate pier 1, so as to really Guarantor's lockable mechanism 11 will not connect short axle 13 and come off and loosen from corresponding gate pier 1, it is ensured that when entire lockable mechanism 11 uses It is firm.

Preferably, above-mentioned hanging axis both ends are fixed on the upper end both sides of above-mentioned gate 2 by connecting seat 211 respectively, it is ensured that hang Axis can be erected at 2 upper end of gate, and ensure there is the gap mounted for suspension hook between the upper end of hanging axis and gate 2, from And realize effective mounting of hanging axis and suspension hook.

In further embodiments, as shown in Figures 3 and 4, the upper end transverse strands of two above-mentioned gate piers 1 are equipped with linear movement machine Structure 5, above-mentioned lockable mechanism 11 are separately mounted on above-mentioned linear moving mechanism 5, and can be moved along above-mentioned linear moving mechanism 5； When above-mentioned gate 2 is flipped up around the hinged place with above-mentioned ground substrate plate 4 to range, above-mentioned lockable mechanism 11 can be distinguished It is moved to along above-mentioned linear moving mechanism 5 and is locked with corresponding locking member 21, which can be by controlling linear movement machine The automation movement of lockable mechanism 11 is realized in the operating of structure 5, so as to fulfill realizing that the locking of gate 2 is consolidated automatically after flood season barrier gate It is fixed, reduce manually-operated dangerous and labor intensity.

Preferably, above-mentioned linear moving mechanism 5 includes two bearing blocks 51, screw rod 52, driving mechanism 53,54 and of guide rod Two slides 55；

The corresponding upper end for being mounted on two above-mentioned gate piers 1 of two above-mentioned bearing blocks 51；

Above-mentioned screw rod 52 is laterally set, and both ends are rotatably installed in respectively on two above-mentioned two bearing blocks 51；

Screw thread is respectively equipped with from centre position to both ends end on above-mentioned 52 periphery of screw rod, and two sections of hand of spiral are opposite；

Two above-mentioned slides 55 are threadably mounted at respectively on two sections of screw threads of above-mentioned screw rod 52；

Above-mentioned guide rod 54 is horizontally installed between two bearing blocks 51, and passes through two above-mentioned slides 55；

The upper end of above-mentioned 53 installed therein above-mentioned gate piers 1 of driving mechanism, and be sequentially connected with above-mentioned screw rod 52；

Two above-mentioned lockable mechanisms 11 are separately mounted to the lower end of two above-mentioned slides 55, and are located at two above-mentioned locks respectively Between tight part 21；

Above-mentioned driving mechanism 53 can drive screw rod 52 to rotate, and drive two slides 55 respectively along screw rod 52 and guide rod 54 It is synchronous axial be mutually shifted closer or far from, and in moving process is located remotely from each other, above-mentioned lockable mechanism 11 be movable to it is right The locking member 21 answered is locked, and after flood season barrier gate, driving mechanism 53 drives screw rod 52 to rotate, so as to fulfill two slides 55 It is reversely moved away from relatively along screw rod 52 and guide rod 54, slide 55 drives lockable mechanism 11 towards corresponding locking respectively at this time Part 21 moves, until lockable mechanism 11 is locked with corresponding locking member 21, whole process automation control is very convenient, works as flood When phase terminates to need to open a sluice gate, driving mechanism 53 drive screw rod 52 rotate backward can be realized two slides 55 relatively move it is close, And corresponding lockable mechanism 11 and corresponding locking member 21 is driven to release locking state and separate, headstock gear 3 can be passed through afterwards Driving gate 2, which is overturn forward, opens a sluice gate.

Preferably, above-mentioned locking member 21 is the shaft for being secured transverse to above-mentioned 2 upper end of gate, above-mentioned lockable mechanism 11 includes Connecting rod 111 and lantern ring 112, the upper end of above-mentioned connecting rod 111 are connected with the lower end of corresponding above-mentioned slide 55, and above-mentioned lantern ring 112 is set It puts in the lower end of above-mentioned connecting rod 111, it is close that the lantern ring 112 that above-mentioned lockable mechanism 11 is movable to thereon is set in corresponding shaft Outside its one end, this is reasonable in design, passes through the lantern ring 112 of mobile 11 lockable mechanism 11 of lockable mechanism and corresponding turn The locking of the two can be realized in axis socket, so as to ensure that gate 2 front and rear will not be overturn, always in barrier gate state.

Preferably, above-mentioned driving mechanism 53 includes being provided respectively therein the motor 531 of above-mentioned 1 upper end of gate pier and subtract Fast case 532, the shaft of above-mentioned motor 531 are connected with the input terminal of above-mentioned reduction box 532, the output terminal of above-mentioned reduction box 532 with Above-mentioned 52 corresponding one end of screw rod connects, and the output speed of motor 531 is adjusted in reduction box 532 in driving mechanism 53, so as to adjust The rotating speed of screw rod 52 is saved, that is, is exactly to adjust the translational speed that slide 55 drives corresponding lockable mechanism 11, beneficial to lockable mechanism 11 With the mobile locking of locking member 21.

In view of headstock gear 3 it is easy for installation the problem of, it is integrally formed right in the inner top side difference of two above-mentioned gate piers 1 Claim to be equipped with and rotate (hinged) respectively with two above-mentioned 3 one-to-one erecting beds 14 of headstock gear, two above-mentioned headstock gears 3 and be mounted on On corresponding above-mentioned erecting bed 14, it is ensured that headstock gear 3 can normally drive gate 2 to overturn.

Above-mentioned ground substrate plate 4 is low early and high after second order step surface, is embedded with installing plate two step junctions, is pacifying Rotation seat is fixed in loading board, the lower end of the rotation seat and gate 2 is rotatablely connected, the purpose for the arrangement is that ensuring what gate 2 was installed Securely.

For above-mentioned ground substrate plate 4 generally by cement pouring molding, above-mentioned installing plate is steel plate.

For above-mentioned gate pier 1 generally by cement pouring molding, firmness degree is higher, durable.

Above-mentioned headstock gear 3 be hydraulic headstock gear, operate with it is more convenient, push-and-pull dynamics it is stronger, use stabilization.

The above is only the preferred embodiment of the present invention, is not intended to limit the utility model, all in this practicality Within new spirit and principle, any modifications, equivalent replacements and improvements are made should be included in the guarantor of the utility model Within the scope of shield.

Claims (8)

1. a kind of lying type anti-flood valve, it is characterised in that：Including two gate piers (1), gate (2) and two headstock gears (3)；

Two gate piers (1) are arranged side by side and are arranged at intervals；

The gate (2) is arranged between two gate piers (1), and its lower end is hinged on pre-buried underwater ground substrate plate (4) on；

Two headstock gears (3) are symmetricly set on the inside of two gate piers (1) close to the position of upper end, and positioned at described The same side of gate (2), and it drives upper end both sides of the end respectively with the gate (2) to be connected；

The upper end both sides of the gate (2) are respectively equipped with locking member (21)；

The one-to-one lockable mechanism (11) of the locking member (21) is respectively equipped on two gate piers (1)；

Two headstock gears (3) can respectively by drive end synchronously drive the upper end of the gate (2) around with described ground substrate The hinged place of plate (4) is flipped up barrier gate or downwardly turns over to open a sluice gate, and when being flipped up to range, can pass through the lock Tight part (21) is locked with the corresponding lockable mechanism (11).

2. a kind of lying type anti-flood valve according to claim 1, it is characterised in that：The locking member (21) is laterally fixed Hanging axis in the gate (2) upper end, the lockable mechanism (11) are to be correspondingly arranged at the gate pier (1) inner top side respectively Suspension hook, when the gate (2) is flipped up around the hinged place with described ground substrate plate (4) to maximum travel position, the upper end It can be fixed by the hanging axis with the corresponding suspension hook mounting.

3. a kind of lying type anti-flood valve according to claim 2, it is characterised in that：Described in being corresponded to inside the gate pier (1) The position of lockable mechanism (11) is embedded with anchor slab (12), and one is horizontally connected on the anchor slab (12) through the gate pier (1) The short axle (13) of inner side end, the lockable mechanism (11) are rotatably connected on the one end of the short axle (13) away from anchor slab (12).

4. a kind of lying type anti-flood valve according to claim 3, it is characterised in that：The hanging axis both ends pass through connection respectively Seat (211) is fixed on the upper end of the gate (2).

5. a kind of lying type anti-flood valve according to claim 1, it is characterised in that：The upper end of two gate piers (1) is horizontal To linear moving mechanism (5) is provided with, the lockable mechanism (11) is separately mounted on the linear moving mechanism (5), and can It is mobile along the linear moving mechanism (5)；When the gate (2) around the hinged place with described ground substrate plate (4) be flipped up to During range, the lockable mechanism (11) can be moved to and corresponding locking member along the linear moving mechanism (5) respectively (21) it is locked.

6. a kind of lying type anti-flood valve according to claim 5, it is characterised in that：The linear moving mechanism (5) includes Two bearing blocks (51), screw rod (52), driving mechanism (53), guide rod (54) and two slides (55)；

The corresponding upper end for being mounted on two gate piers (1) of two bearing blocks (51)；

The screw rod (52) is laterally set, and both ends are rotatably installed in respectively on two described two bearing blocks (51)；

Screw thread is respectively equipped with from centre position to both ends end on screw rod (52) periphery, and two sections of hand of spiral are opposite；

Two slides (55) are threadably mounted at respectively on two sections of screw threads of the screw rod (52)；

The guide rod (54) is horizontally installed between two bearing blocks (51), and passes through two slides (55)；

The upper end of one installed therein of driving mechanism (53) gate pier (1), and be sequentially connected with the screw rod (52)；

Two lockable mechanisms (11) are separately mounted to the lower end of two slides (55), and are located at two locks respectively Between tight part (21)；

The driving mechanism (53) can drive screw rod (52) to rotate, and drive two slides (55) respectively along screw rod (52) and guiding Bar (54) is synchronous axial to be mutually shifted closer or far from and in moving process is located remotely from each other, the lockable mechanism (11) is removable It moves to corresponding locking member (21) and is locked.

7. a kind of lying type anti-flood valve according to claim 6, it is characterised in that：The locking member (21) is laterally fixed Shaft in the gate (2) upper end, the lockable mechanism (11) include connecting rod (111) and lantern ring (112), the connecting rod (111) upper end is connected with the lower end of the corresponding slide (55), and the lantern ring (112) is arranged on the connecting rod (111) Lower end, the lantern ring (112) that the lockable mechanism (11) is movable to thereon are set in corresponding shaft outside its one end.

8. a kind of lying type anti-flood valve according to claim 7, it is characterised in that：The driving mechanism (53) includes difference It is disposed therein the motor (531) and reduction box (532) of gate pier (1) upper end, the shaft of the motor (531) and institute The input terminal connection of reduction box (532) is stated, output terminal one end corresponding with the screw rod (52) of the reduction box (532) connects It connects.