CN110924720A

CN110924720A - Automatic lifting flood control dike for garage

Info

Publication number: CN110924720A
Application number: CN201911259467.7A
Authority: CN
Inventors: 王一畅
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-12-10
Filing date: 2019-12-10
Publication date: 2020-03-27

Abstract

The invention discloses an automatic lifting flood bank for a garage, which comprises a baffle, wherein the baffle is arranged in a mounting groove at the door of the garage, and the baffle is lifted by water flowing into the mounting groove through buoyancy so as to prevent the water from flowing into the garage. The invention improves the flood control capability of the underground garage and reduces the property loss caused by the backflow of rainwater.

Description

Automatic lifting flood control dike for garage

Technical Field

The invention relates to the technical field of garage flood control, in particular to an automatic lifting flood control dike for a garage.

Background

With the rapid improvement of the living standard of people, the use of vehicles is increasingly popularized, and the demand of garages is increased correspondingly. In urban areas with tense land, in order to reduce the road surface area occupied by the garage, the garage is mostly arranged underground, and an underground garage is formed.

The garage entering of the underground garage is usually lower than the road surface, when the underground garage meets the conditions of heavy rainfall, flood and the like, rainwater can flow backwards and enter the garage, and the rainwater quantity exceeds the drainage capacity of the underground garage, so that a large number of vehicles can be submerged, and huge property loss is caused. At present, flood control means are simple, sand bags, baffles and other means are adopted, but the sand bags have the problems of long preparation time, heavy weight, difficult implementation, easy occurrence of water seepage, collapse and the like during flood control. Therefore, the flood control means cannot effectively exert the flood control effect in a timely manner. In addition, heavy rainfall, flood and the like come at irregular time, and the flood control means are manually operated, so that the flood control effect is poorer due to the fact that the flood control cannot be carried out for 24 hours.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides an automatic lifting flood bank for a garage, which is used for improving the flood control capability of an underground garage and reducing property loss caused by rainwater flowing backwards.

The invention provides an automatic lifting flood bank for a garage, which comprises a baffle, wherein the baffle is arranged in a mounting groove at the door of the garage, and the baffle is lifted by water flowing into the mounting groove through buoyancy so as to prevent the water from flowing into the garage.

The invention has the beneficial effects that:

the mounting groove transversely sets up to be in at the gate of mounting groove, and the height of baffle and mounting groove is the same, and the upper surface of baffle is equal mutually with the ground at the garage gate, therefore the setting of baffle does not influence the normal driving of vehicle. After rainwater enters the mounting groove, the baffle plate rises along the direction of buoyancy, and the rising height of the baffle plate is in direct proportion to the height of the water level in the mounting groove. Along with the rainwater constantly flows into the mounting groove, the baffle constantly rises, and the highest rises to all block the garage gate to avoided the rainwater to get into the garage from the garage gate, improved underground garage's flood control ability, reduced because of the rainwater flows back the loss of property that causes.

Preferably, the density of the material of the baffle is less than the density of water.

The material of the baffle is selected from plastic with density lower than that of water, such as high strength plastic.

Preferably, the baffle is hollow.

The baffle plate can also be made of metal with density larger than that of water, but a hollow inner cavity is needed to be arranged to increase buoyancy.

Preferably, the shape of baffle with the mounting groove adaptation just is the cuboid, and two short limit sides of baffle all are equipped with the guide strip that corresponds with the guide way of garage gate both sides lateral wall.

The both sides of mounting groove and garage gate both sides lateral wall all are equipped with the guide way, and the baffle is ascending and the in-process that descends, and the gib block reciprocates in vertical direction along the guide way, leads the baffle.

Preferably, the baffle comprises a plurality of rectangular single bodies, and every two adjacent rectangular single bodies are connected in a detachable connection mode.

Preferably, every two adjacent rectangular single bodies are connected through glue, bolts, buckles or pins.

Because the width at different garage gates is different, but this equipment is connected through the mode of rectangle monomer split for the length of baffle can carry out the setting of adaptation according to the length at the garage gate, thereby is applicable to the garage of different length.

Preferably, one of the two guide bars is connected to the side surface of the rectangular single body on one side, and the other guide bar is connected to the side surface of the rectangular single body on the other side.

Preferably, each of the rectangular single bodies is provided with an overflow hole at the upper end thereof, and the overflow holes extend downwards to form an inner cavity inside the rectangular single body.

The side of the baffle towards the garage outside has great gap with the lateral wall of mounting groove between, and rivers flow into in the mounting groove from this gap. If rivers are great, then the rainwater gets into the inner chamber of mounting groove from the overflow hole, and the inner chamber becomes a interim reservoir chamber, avoids the rainwater to cross from the baffle upper end and gets into the garage.

Preferably, each single side of rectangle all is equipped with the through-hole with the inner chamber intercommunication to the last through-hole of two adjacent sides of two adjacent single rectangles is all relative, and then all single inner chambers of rectangle all communicate with the mounting groove.

Water in the inner cavity flows into the mounting groove from the through hole, so that the rainwater is prevented from increasing the whole weight of the baffle plate, and the rising speed of the baffle plate is influenced.

Preferably, each single rectangular cavity is located at the upper part, and two through holes are arranged in the through holes of each single rectangular cavity and arranged at the bottom of the cavity side by side.

The inner cavity is positioned at the upper part of the rectangular single body, and the lower part can be arranged into a hollow structure to improve the integral buoyancy and accelerate the rising speed. And the through hole is arranged at the bottom so as to discharge water in the inner cavity as far as possible.

Drawings

In order to more clearly illustrate the detailed description of the invention or the technical solutions in the prior art, the drawings that are needed in the detailed description of the invention or the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

FIG. 1 is a schematic structural diagram of the present embodiment;

FIG. 2 is a top view of FIG. 1;

FIG. 3 is a schematic structural diagram of a rectangular single body in the present embodiment;

FIG. 4 is a bottom view of FIG. 3;

FIG. 5 is a left side view of FIG. 4;

FIG. 6 is a cross-sectional view D-D of FIG. 5;

FIG. 7 is a schematic structural diagram of a rectangular single body located in the middle of a baffle in the present embodiment;

FIG. 8 is a schematic view of the internal structure of FIG. 7;

FIG. 9 is a schematic structural diagram of the rectangular single bodies located on both sides of the baffle in the present embodiment;

fig. 10 is a schematic structural view illustrating the installation of the baffle plate at the doorway of the garage according to the present embodiment.

In the attached drawings, a baffle plate 1, a mounting groove 2, a rectangular single body 3, a pin 4, a pin hole 5, a guide groove 6, a guide strip 7, an overflow hole 8, an inner cavity 9 and a through hole 10.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

It is to be noted that, unless otherwise specified, technical or scientific terms used herein shall have the ordinary meaning as understood by those skilled in the art to which the invention pertains.

As shown in fig. 1, 2 and 8, the present embodiment provides an automatic lifting flood bank for a garage, which includes a baffle 1, wherein the baffle 1 is installed in an installation groove 2 at the door of the garage. The baffle 1 and the mounting groove 2 are both rectangular bodies, wherein the direction A is the front, the direction B is the rear, and the direction C is the length direction. Mounting groove 2 transversely sets up the ground at the garage gate to the baffle 1 mounting groove 2 with mounting groove 2 highly the same, the aim at that sets up like this: the upper surface of the baffle 1 is level with the ground of the garage door, so the arrangement of the baffle 1 does not influence the normal running of the vehicle, namely the condition of vehicle bump does not occur.

As shown in fig. 3 to 6, due to the different lengths of the doorways of different garages, in order to enable garages with different lengths, the baffle plate 1 in the present apparatus includes a plurality of rectangular single bodies 3, and every two adjacent rectangular single bodies 3 are detachably connected. The length of the baffle 1 is determined by selecting the specific number of the rectangular single bodies 3 according to the length of the garage. And every two adjacent rectangular single bodies 3 are connected through an adhesive connection, a bolt connection, a snap connection or a pin 4, but the connection is not limited to these modes. In the present embodiment, taking a connection manner of the pins 4 as an example, a plurality of pins 4 are disposed on one short side of each rectangular single body 3, and a pin hole 5 corresponding to the plurality of pins 4 is disposed on the other short side. Two adjacent side surfaces of every two adjacent rectangular single bodies 3 are connected in a mode that a pin 4 is inserted into a pin hole 5, and the plurality of rectangular single bodies 3 are sequentially connected together in a sequential method, so that the whole baffle plate 1 is formed.

Because this equipment goes up and down through buoyancy, relies on baffle 1 to seal the garage gate, in order to avoid appearing the problem of leaking, this embodiment carries out following optimization to the structure of mounting groove 2 and baffle 1:

as shown in fig. 2, 5 to 10, the two lateral sides of the short side of the mounting groove 2 are provided with guide grooves 6 along the vertical direction, and the guide grooves 6 continue to extend upwards, so that corresponding guide grooves 6 are formed on the lateral walls on both sides of the garage doorway, that is, the guide groove 6 on each side of the mounting groove 2 forms one guide groove 6 together with the guide groove 6 on the corresponding side of the garage doorway. The side of two long edge directions of the rectangle monomer 3 that is located both ends is equipped with the gib block 7 that corresponds with two guide way 6, and the front and back width of gib block 7 is the same with the front and back width of guide way 6, and the total length L1 of baffle 1 equals with the total length L2 of mounting groove 2, thereby make gib block 7 block in the guide way 6, the gap between gib block 7 and the guide way 6 is very little promptly, only can realize gib block 7 and reciprocate in guide way 6, and rivers can't get into the garage through this gap. In addition, the rear side of baffle 1 and the rear side laminating of mounting groove 2, the partial baffle 1 short limit side that is located the guide strip 7 rear side also with the partial short limit side laminating of mounting groove 2 that corresponds to make the gap between two rear sides and the gap between two partial short limit sides all very little, rivers also can't pass through. Through the setting, baffle 1 rises through buoyancy back, and baffle 1 is located each side in the garage and all seals with the side laminating that mounting groove 2 corresponds, and then makes the unable garage that gets into of rainwater, has improved sealed effect, has reached the purpose of flood control. And baffle 1 is in the in-process that rises and descend, and two gib blocks 7 all reciprocate in vertical direction along two guide ways 6 for baffle 1 can rise smoothly along vertical direction.

In order to make the rainwater in time get into mounting groove 2, be equipped with certain interval between the preceding lateral wall of baffle 1 preceding lateral wall and mounting groove 2 in this embodiment to and be located and also be equipped with certain interval between the anterior part of gib block 7 short side lateral wall 1 and the partial short side lateral wall of the mounting groove 2 that corresponds, the rainwater is mainly according to in the groove through the interval inflow of above-mentioned three places. In addition, if rivers are great, the rainwater is possible to cross the interval and then the garage, and to this problem, every in this embodiment the upper end of rectangle monomer 3 all is equipped with overflow hole 8, and the formation of overflow hole 8 is along the rectangular row hole of forward direction, overflow hole 8 down extends and then forms inner chamber 9 in the inside of rectangle monomer 3. Every the side of rectangle monomer 3 all is equipped with the through-hole 10 with inner chamber 9 intercommunication to the last through-hole 10 of every two adjacent sides of two adjacent rectangle monomers 3 is all relative, and then all rectangle monomers 3's inner chamber 9 all communicates with mounting groove 2. If rivers are great, then the rainwater gets into the inner chamber 9 of mounting groove 2 from overflow hole 8, and the water in the inner chamber 9 flows into mounting groove 2 from through-hole 10 again, avoids the rainwater to increase the whole weight of baffle 1, influences the speed that baffle 1 rises.

Every inner chamber 9 of rectangle monomer 3 all is located upper portion, and the through-hole 10 of every rectangle monomer 3 all is equipped with two and two through-holes 10 locate the bottom of inner chamber 9 side by side. The inner cavity 9 is located at the upper part of the rectangular single body 3, and the lower part can be arranged into a hollow structure to improve the overall buoyancy and accelerate the rising speed. Whereas the through-hole 10 is provided at the bottom in order to drain the water in the inner chamber 9 as far as possible.

In addition, the through holes 10 of the two rectangular single bodies 3 positioned on the two sides are positioned on the front sides of the two guide strips 7, so that water discharged from the through holes 10 of the two rectangular single bodies 3 positioned on the two sides through the through holes 10 can only flow into the mounting groove 2 and cannot flow into the garage, and the waterproof effect is further improved.

In order to increase the buoyancy of the baffle 1, the baffle 1 in this embodiment may be made of a plastic with a density lower than the water density, or a stainless steel or aluminum alloy with a high strength, but when the stainless steel or aluminum alloy is used, the hollow inner cavity 9 needs to be formed to increase the buoyancy.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention, and they should be construed as being included in the following claims and description.

Claims

1. The utility model provides an automatic rising flood bank for garage which characterized in that: including the baffle, the baffle is installed in the mounting groove at the garage gate, and rivers flow into the mounting groove and make the baffle rise and then stop rivers and go into the garage through buoyancy.

2. The automatic lifting flood bank for a garage of claim 1, wherein: the density of the material of the baffle is less than the density of water.

3. The automatic lifting flood bank for a garage of claim 1, wherein: the baffle is hollow.

4. The automatic lifting flood bank for a garage of any one of claims 1 to 3, wherein: the shape of baffle with the mounting groove adaptation just is the cuboid, and two short limit sides of baffle all are equipped with the guide strip that corresponds with the guide way of garage gate both sides lateral wall.

5. The automatic lifting flood bank for a garage of claim 4, wherein: the baffle comprises a plurality of rectangular single bodies, and every two adjacent rectangular single bodies are connected in a detachable connection mode.

6. The automatic lifting flood bank for a garage of claim 5, wherein: every two adjacent rectangle monomers are connected through viscose, bolted connection, buckle connection or pin joint.

7. The automatic lifting flood bank for a garage of claim 5, wherein: one of the two guide strips is connected to the side face of the rectangular single body on one side, and the other guide strip is connected to the side face of the rectangular single body on the other side.

8. The automatic lifting flood bank for a garage of claim 7, wherein: every the upper end of the rectangular single body is provided with an overflow hole, and the overflow hole extends downwards to form an inner cavity in the rectangular single body.

9. The automatic lifting flood bank for a garage of claim 8, wherein: every the free side of rectangle all is equipped with the through-hole with the inner chamber intercommunication to the last through-hole of two adjacent sides of every two adjacent rectangles is all relative, and then the free inner chamber of all rectangles all communicates with the mounting groove.

10. The automatic lifting flood bank for a garage of claim 9, wherein: every the free inner chamber of rectangle all is located upper portion, and the free through-hole of every rectangle all is equipped with two and two through-holes locate the bottom of inner chamber side by side.