CN208830276U - A kind of hydraulic engineering sluice door sealing structure - Google Patents

Abstract

The utility model discloses a kind of hydraulic engineering sluice door sealing structures, including door beam, gate is installed in the door beam, the inner wall of the gate is equipped with gate slot, grafting gate in the gate slot, the upper end of the gate is equipped with round block, and rotation in taper circular groove and taper circular groove is equipped in the round block and is installed with taper round block, internal thread hole is equipped in the door beam upper end side and internal thread hole inside spin installs bolt.Side is upwardly and inwardly swelled before and after silica gel block, to drive the triangle follow block of front and back side inwardly to compress the lower part front and back end of gate, state because of triangle follow block or so end to compress contact gate slot inner wall or so end, so that triangle follow block and silica gel block are coated to whole on the downside of gate, pass through the screen resilience of spring, increase side and gate lower end in silica gel block upper end and compress power, upper end and the gate lower end of silica gel block attach mutually closer, solve the problems, such as that gate slot and gate cooperate closure not high.

Description

A kind of hydraulic engineering sluice door sealing structure

Technical field

The utility model relates to a kind of hydraulic engineering sluice door sealing structures.

Background technique

Hydraulic engineering is the surface water and groundwater for controlling and deploying nature, reaches and removes the evil emerging sharp purpose and build Engineering, also referred to as Hydraulic Projects, water is human being's production and essential precious resources of living, but the state of its naturally occurring is simultaneously Not in full conformity with the needs of the mankind.

In existing water conservation project, sluice gate can be mostly used, is moved up and down by door beam inner gate, to open and close water Stream plays the role of controlling water route, and can often be cooperated using internal thread hole on bolt and door beam to move up and down gate, same to time gating Door is limited by the gate slot of door beam inner wall, so that gate moves up and down stabilization, but existing shortcoming has: due to gate and door The interior lower end of slot is designed as direct contact condition more, and being no lack of has cooperation gap, and when completely closing gate, water flow still can be from Gate and gate slot interior lower end cooperation gap outflow, closure be not high.

Utility model content

The purpose of this utility model is to provide a kind of hydraulic engineering sluice door sealing structures, to solve above-mentioned background skill The not high problem of gate slot and gate the cooperation closure proposed in art.

To achieve the above object, the utility model provides the following technical solutions: a kind of hydraulic engineering sluice door sealing knot Structure, including door beam, gate is installed in the door beam, and the inner wall of the gate is equipped with gate slot, grafting gate in the gate slot, institute The upper end for stating gate is equipped with round block, and rotation in taper circular groove and taper circular groove is equipped in the round block and is installed with taper round block, institute It states and is equipped with internal thread hole in a beam upper end side and internal thread hole inside spin installation bolt, the upper end of the bolt are installed with capstan, The gate slot inner wall lower end side is installed with silica gel block, and inner cavity, side pair before and after the upper end of the silica gel block are equipped in the silica gel block Title is installed with triangle follow block and two triangle follow block opposition spatial interpolations connect gate.

Preferably, inner wall of the gate slot or so end is bonded with rubber slab, and the inner end of rubber slab compresses a left side for contact gate Right end.

Preferably, the inside upper and lower side of the inner cavity, which is symmetrically bonded with, compresses plate, and the inner end for compressing plate is fixedly connected with bullet Spring.

Compared with prior art, the utility model has the beneficial effects that when compressing silica gel block on the downside of gate, in silica gel block Lateral lower deformation, and side is upwardly and inwardly swelled in the case of inner cavity is in order to maintain air pressure constant, before and after silica gel block, thus band The triangle follow block of dynamic front and back side inwardly compresses the lower part front and back end of gate, compresses contact gate slot inner wall because of triangle follow block or so end The state at left and right end, so that triangle follow block and silica gel block are coated to whole on the downside of gate, during this period, spring is pressed Contracting increases side and gate lower end in silica gel block upper end and compresses power, so that the upper end of silica gel block and gate by the screen resilience of spring Lower end attaches mutually closer, improves leakproofness, solves the problems, such as that gate slot and gate cooperation closure be not high.

Detailed description of the invention

Fig. 1 is the main view local cutting schematic diagram of the utility model；

Fig. 2 is the left view local cutting schematic diagram of the utility model；

Fig. 3 is that the taper plectane of the utility model and taper circular groove cooperate schematic diagram；

Fig. 4 is the downside transverse cross sectional schematic top plan view of the utility model.

In figure: 1 beam, 2 gates, 3 gate slotes, 4 round blocks, 5 taper circular grooves, 6 taper plectanes, 7 internal thread holes, 8 bolts, 9 rotations Disk, 10 rubber slabs, 11 silica gel blocks, 12 inner cavities, 13 compress plate, 14 springs, 15 triangle support blocks.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

In the description of the present invention, it should be understood that term " longitudinal direction ", " transverse direction ", "upper", "lower", " preceding ", The orientation or positional relationship of the instructions such as " rear ", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside" be based on Orientation or positional relationship shown in the drawings is merely for convenience of description the utility model, rather than the dress of indication or suggestion meaning It sets or element must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as to the utility model Limitation.

Please refer to Fig. 1, Fig. 2 and Fig. 3, the utility model provides a kind of technical solution: a kind of hydraulic engineering sluice gate is close Seal structure, including door beam 1, gate 2 is installed in Men Liang 1, and the inner wall of gate 2 is equipped with gate slot 3, grafting gate 2 in gate slot 3, door The inside front and back end of slot 3 is the state of sliding contact gate 2, and gate slot 3 mainly limits 2 left and right sides of gate, prevents lock Door 2 moves up and down unstable, and the upper end of gate 2 is equipped with round block 4, and rotation in taper circular groove 5 and taper circular groove 5 is equipped in round block 4 It is installed with taper round block 6, because taper circular groove 5 and 6 cross section of taper plectane are all round, and is all up-narrow and down-wide, while taper Cooperation gap is 0.01 millimeter on the outside of 5 inner wall of circular groove and taper round block 6, so that taper plectane 6 rotates surely in taper circular groove 5 It is fixed, it is equipped with internal thread hole 7 in 1 upper end side of Men Liang and 7 inside spin of internal thread hole installs bolt 8, the upper end of bolt 8 is installed with capstan 9, bolt 8 is fixed by the way of welding with capstan 9, by rotating capstan 9, convenient for twisting bolt 8, internal thread hole 7 and bolt 8 It can make the upward moving in rotation of bolt 8 that is, against when revolving bolt 8 for derotation cooperation, gate 2 can be driven to move up, conrotatory bolt When 8, bolt 8 can be made to be rotated down movement, gate 2 can be driven to move down, 3 inner wall lower end side of gate slot is installed with silica gel block 11,3 inner wall lower end of gate slot fixed silica gel block 11 by the way of bonding, and the left and right end of silica gel block 11 is all solid by bonding way It is scheduled on 3 inner wall of gate slot or so end, inner cavity 12 is equipped in silica gel block 11, the section of inner cavity 12 is purpose rectangular, that inner cavity 12 is arranged It is to increase the deflection after 11 upside of silica gel block is compressed, is beneficial to deform and coat the lower end of gate 2 on the upside of silica gel block 11, Side is symmetrically installed with triangle follow block 15 before and after the upper end of silica gel block 11 and two opposition spatial interpolations of triangle follow blocks 15 connect gate 2, Silica gel block 11 fixes two blocks of triangle follow blocks 15 by the way of bonding, and triangle follow block 15 is made of rubber, main view be it is rectangular, Section is right angled triangle, and left and right end is the state for compressing contact 3 inner wall of gate slot or so end, and right-angle surface corresponds to gate 2, at this time Gate 2 is the state for initially contacting 11 upper end of silica gel block, when continuing to compress silica gel 11 upper end of block, buckling under side in silica gel block 11 Shape, and front and back side silica gel block 11 inwardly swells, thus before and after the lower part for driving the triangle follow block 15 of front and back side inwardly to compress gate 2 End.

Refering to fig. 1 and Fig. 2, inner wall of gate slot 3 or so end are bonded with rubber slab 10, and the inner end of rubber slab 10 compresses contact lock The left and right end of door 2, rubber slab 10 does not deform at this time, is engaged by rubber slab 10 and compressing for gate 2, increases gate 2 The cooperation closure at left and right end and 2 inner wall of gate slot or so end.

Refering to Fig. 2 and Fig. 4, the inside upper and lower side of inner cavity 12, which is symmetrically bonded with, compresses plate 13, and the inner end for compressing plate 13 is fixed It is connected with spring 14, it is at this time nature that spring 14, which is compression rebound type, and initial compression screen resilience is 20 newton, works as lock When 2 downside of door compresses silica gel 11 upside of block, spring 14 is compressed, and by the screen resilience of spring 14, is increased in 11 upper end of silica gel block Side and 2 lower end of gate compress power, so that the upper end of silica gel block 11 attaches mutually closer, raising leakproofness with 2 lower end of gate, When gate 2 leaves silica gel block 11, by the screen resilience of spring 14, silica gel block 11 quickly can be recoiled into original state, be convenient for The lower end of docking next time gate 2.

When the utility model is specifically implemented: inverse rotation capstan 9, bolt 8, to lower moving in rotation, pass through in internal thread hole 7 Under taper circular groove 5 and the cooperation rotation of taper plectane 6, the rotation of drop-over bolt 8, limit of the gate slot 3 to 2 two sides of gate in two sides Under so that gate 2 will not the rotation of fitted bolt 8 and rotate, but steadily move down, pass through supporting for rubber slab 10 and gate 2 Press contacts cooperation, increases the cooperation closure at 2 or so end of gate and 2 inner wall of gate slot or so end, silica gel block is compressed on the downside of gate 2 When 11, laterally lower deformation in silica gel block 11, and inside inner cavity 12 in order to maintain air pressure constant in the case of, 11 front and back of silica gel block is lateral Upper and inside protuberance, to drive the triangle follow block 15 of front and back side inwardly to compress the lower part front and back end of gate 2, because of triangle follow block 15 Left and right end is the state for compressing contact 3 inner wall of gate slot or so end, so that triangle follow block 15 and silica gel block 11 are to 2 downside of gate Coated completely, during this period, spring 14 is compressed, by the screen resilience of spring 14, increase in 11 upper end of silica gel block side with 2 lower end of gate compresses power, so that the upper end of silica gel block 11 attaches mutually closer, raising leakproofness with 2 lower end of gate, then So that gate slot 3 and gate 2 cooperate better tightness, can be fast by the screen resilience of spring 14 when gate 2 leaves silica gel block 11 Silica gel block 11 is recoiled to original state by speed, convenient for the lower end of docking next time gate 2.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (3)

1. a kind of hydraulic engineering sluice door sealing structure, including door beam (1), it is characterised in that: be installed in the door beam (1) Gate (2), the inner wall of the gate (2) are equipped with gate slot (3), the interior grafting gate (2) of gate slot (3), the gate (2) it is upper End is equipped with round block (4), and rotation in taper circular groove (5) and taper circular groove (5) is equipped in the round block (4) and is installed with taper round block (6), internal thread hole (7) and internal thread hole (7) inside spin installation bolt (8), the bolt are equipped in door beam (1) upper end side (8) upper end is installed with capstan (9), and gate slot (3) the inner wall lower end side is installed with silica gel block (11), in the silica gel block (11) Equipped with inner cavity (12), side is symmetrically installed with triangle follow block (15) and two triangle follow blocks before and after the upper end of the silica gel block (11) (15) opposition spatial interpolation connects gate (2).

2. a kind of hydraulic engineering sluice door sealing structure according to claim 1, it is characterised in that: the gate slot (3) Inner wall or so end be bonded with rubber slab (10), the inner end of rubber slab (10) compresses the left and right end of contact gate (2).

3. a kind of hydraulic engineering sluice door sealing structure according to claim 1, it is characterised in that: the inner cavity (12) Inside upper and lower side be symmetrically bonded with and compress plate (13), the inner end for compressing plate (13) is fixedly connected with spring (14).