CN220377494U - Integral silica sand cistern - Google Patents

Abstract

The utility model relates to the technical field of water reservoirs, in particular to an integral silica sand water reservoir which comprises a reservoir body, wherein an upward-opening water storage cavity is formed in the reservoir body, a water collecting cover plate for plugging the water storage cavity is arranged at the opening of the water storage cavity, a water collecting groove is formed in the upper end face of the water collecting cover plate in a concave manner, a water inlet pipe communicated with the water storage cavity is arranged in the middle of the water collecting groove, and an opening and closing mechanism for opening and closing the water inlet pipe is arranged in the water inlet pipe. Through above-mentioned structure for when needs collect the rainwater, open the mechanism that opens and shuts, make the inlet tube be in open condition, the rainwater can follow the inlet tube and get into the water storage intracavity, after accomplishing to collect the rainwater, close the mechanism that opens and shuts, the inlet tube is in closed condition, makes the open end of water storage chamber be in the state of shutoff, thereby avoids rubbish to drop to the water storage intracavity, pollutes the rainwater of collecting in the water storage.

Description

Integral silica sand cistern

Technical Field

The utility model relates to the technical field of reservoirs, in particular to an integral silica sand reservoir.

Background

The impounding reservoir is constructed by artificial materials and is provided with an impermeable function, is an important engineering facility for accumulating important rainwater, most impounding reservoirs are convenient for receiving the rainwater during construction, and the upper part of the impounding reservoir is in an open state, so that the swaying garbage easily falls into the impounding reservoir, thereby causing water resource pollution and being incapable of guaranteeing the cleaning of the water resource.

For example, patent publication No. CN208472850U discloses a cistern, which comprises a tank body, the cell body bottom is equipped with the outlet, the inside washing water pipe that is equipped with vertical setting of cell body wall, be connected with the water pump on the washing water pipe, the washing water pipe shaft is equipped with a plurality of water sprayers from top to bottom, the water sprayer stretches out from cell body wall inside and sets up towards the cell body in, the water sprayer includes the body of spouting with wasing the water pipe intercommunication and sets up the shower nozzle on spouting the body, be equipped with a plurality of nozzles on the shower nozzle, the nozzle of wasing water pipe bottom shower nozzle sets up towards cell body bottom and lateral wall direction, the rest the nozzle on the shower nozzle sets up towards cell body lateral wall direction. Although the reservoir washes the bottom and the side wall of the reservoir body through a plurality of spray heads, the dirt in the reservoir body is washed. However, when the reservoir is in actual use, the upper part of the reservoir body is always open, and floating garbage falls into the reservoir, so that rainwater collected in the reservoir can be polluted.

Disclosure of Invention

In order to solve the technical problems in the background art, the utility model provides a limb muscle strength trainer.

The utility model adopts the following technical scheme for realizing the purposes:

the utility model provides an integral silica sand cistern, includes the cell body, is equipped with the ascending water storage chamber of opening in the cell body, and the opening part of water storage chamber is equipped with and is used for carrying out the shutoff to the water storage chamber and gathers the water apron, gathers the up end indent of water apron and forms the recess of gathering water, and the middle part department of gathering the recess of gathering water is equipped with the inlet tube that is linked together with the water storage chamber, is equipped with in the inlet tube and is used for carrying out the mechanism that opens and shuts to the inlet tube.

Preferably, the opening and closing mechanism comprises a protective cover detachably connected to the opening at one end of the water inlet pipe, a mounting ring is arranged in the water inlet pipe, a blocking block for blocking the water inlet pipe is arranged at the opening end of the water inlet pipe, a first spring is arranged between the mounting ring and the blocking block, the first spring always pushes the blocking block to separate from the water inlet pipe and extend into the protective cover, a moving rod penetrating through the protective cover is arranged on the blocking block, and a positioning assembly for limiting the blocking block in the water inlet pipe is arranged on the moving rod.

Preferably, the upper end part of the moving rod is provided with an installation cavity, and the lower end surface of the installation cavity is provided with a locking hole; the locating component comprises sliding blocks which are oppositely arranged in the locking holes, limiting blocks which extend out of the moving rods are arranged on the side surfaces, away from each other, of the sliding blocks, second springs are arranged between the opposite side surfaces of the sliding blocks and used for driving the sliding blocks to be away from each other to drive the limiting blocks to extend out of the moving rods, the limiting blocks which extend out of the moving rods are abutted against the inner side walls of the protective cover to achieve that the blocking blocks are limited in the water inlet pipe, and driving pieces which are used for driving the sliding blocks to be close to each other are arranged in the installation cavity.

Preferably, the upper end of the installation cavity is provided with an opening, and the opening of the installation cavity is provided with an installation cover; the driving piece comprises a mounting block which is slidably arranged in the mounting cavity, the two ends of the mounting block are respectively provided with a driving block corresponding to the sliding blocks, the driving blocks are provided with guide inclined planes, movable rods which extend out of the mounting cover are arranged on the mounting blocks, the sliding blocks are provided with matching inclined planes which correspond to the guide inclined planes, the movable rods are pressed to drive the mounting blocks to move downwards, the driving blocks are driven to move downwards, and the guide inclined planes are driven to extrude the matching inclined planes to drive the two sliding blocks to be close to each other.

Preferably, the lower plate surface of the water collecting cover plate is provided with a mounting ring along the circumferential direction thereof, and the opening end of the tank body is provided with a mounting groove for clamping the mounting ring.

Preferably, the upper end face of the water collecting cover plate is provided with opposite auxiliary holes penetrating through the water collecting cover plate.

Preferably, a drain pipe communicated with the water storage cavity is arranged on the side wall at the lower end part of the tank body, and a cover body is arranged on the drain pipe.

In summary, the utility model has the following beneficial effects:

1. according to the utility model, through the arrangement of the tank body, the water storage cavity, the water collecting cover plate, the water collecting groove, the water inlet pipe and the opening and closing mechanism, the water inlet pipe can be opened by collecting rainwater through the opening and closing mechanism, and the water inlet pipe is closed after the rainwater is collected.

2. According to the utility model, the installation of the water collecting cover plate on the tank body can be completed by clamping the installation circular ring into the installation groove through the arrangement of the installation circular ring and the installation groove, and the installation is convenient.

Drawings

FIG. 1 is a schematic view of an integral silica sand reservoir in accordance with the present utility model.

FIG. 2 is a schematic diagram of the explosion structure of the reservoir and the water collecting cover plate in the utility model.

FIG. 3 is a schematic cross-sectional view of the water trap cover of the present utility model.

FIG. 4 is a schematic view of the structure of the sectional view in the installation cavity in the utility model.

Reference numerals illustrate:

100. a cell body; 110. a water collecting cover plate; 111. a water collecting groove; 112. an auxiliary hole; 120. a protective cover; 130. a drain pipe; 131. a cover body;

201. a water storage cavity; 202. a mounting groove; 210. a water inlet pipe; 220. installing a circular ring;

300. a mounting ring; 310. blocking; 320. a first spring; 330. a moving rod;

501. a mounting cavity; 502. a locking hole; 510. a slide block; 511. a limiting block; 512. matching with the inclined plane; 520. a second spring; 530. a mounting cover; 540. A mounting block; 541. a driving block; 542. a guide slope; 550. a movable rod.

Detailed Description

For a further understanding of the present utility model, the present utility model will be described in detail with reference to the drawings and examples. It is to be understood that the examples are illustrative of the present utility model and are not intended to be limiting.

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

In the description of the present application, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "configured to," "engaged with," "connected to," and the like are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art in a specific context.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present utility model, the meaning of "a number" is two or more, unless explicitly defined otherwise.

The utility model is described in further detail below with reference to fig. 1-4.

The embodiment of the utility model discloses an integral silica sand reservoir.

As shown in fig. 1-2, an integral silica sand reservoir in this embodiment includes a reservoir body 100, a water storage cavity 201 with an upward opening is provided in the reservoir body 100, a water collecting cover plate 110 for plugging the water storage cavity 201 is provided at the opening of the water storage cavity 201, a water collecting groove 111 is formed by concave upper end surface of the water collecting cover plate 110, a water inlet pipe 210 communicated with the water storage cavity 201 is provided in the middle of the water collecting groove 111, and an opening and closing mechanism for opening and closing the water inlet pipe 210 is provided in the water inlet pipe 210.

In this embodiment, the water collecting groove 111 on the water collecting cover plate 110 has a smooth downward slope, so that when rainwater falls into the water collecting groove 111, the rainwater can collect along the smooth slope on the water collecting groove 111 towards the central position of the water collecting groove 111, and the opening and closing mechanism is opened to enable the water inlet pipe 210 to be in an open state, so that the rainwater can only enter the water storage cavity 201 through the water inlet pipe 210, and thus the rainwater collection is completed;

when the collection of the rainwater is completed, the opening and closing mechanism is closed, so that the water inlet pipe 210 is closed, and the water storage cavity 201 is in a closed state at this time, so that the collected rainwater can be protected;

by screwing the cover 131, the cover 131 is separated from the drain pipe 130, so that the drain pipe 130 is opened, and rainwater collected in the water storage chamber 201 is discharged from the drain pipe 130.

According to the embodiment, through the cooperation setting of the water collecting cover plate 110, the water inlet pipe 210 and the opening and closing mechanism, the water collecting cover plate 110 can shield the opening of the water storage cavity 201, so that more garbage can be prevented from entering the water storage cavity 201, meanwhile, the opening or closing state of the water inlet pipe 210 can be adjusted by the opening and closing mechanism, and therefore rainwater can be collected into the water storage cavity 201.

Wherein, the lower plate surface of the water collecting cover plate 110 is provided with a mounting ring 220, the end surface of the tank body 100 corresponding to the mounting ring 220 is provided with a mounting groove 202 corresponding to the mounting ring 220, and the mounting of the mounting ring 220 on the tank body 100 can be realized by clamping the mounting ring 220 into the corresponding mounting groove 202;

wherein, the upper end surface of the water collecting cover plate 110 is provided with an auxiliary hole 112 penetrating through the water collecting cover plate 110 and opposite to the water collecting cover plate, and the water collecting cover plate 110 can be carried through the auxiliary holes 112 at two ends, so that the water collecting cover plate 110 can be conveniently dismounted and mounted on the tank body 100.

As shown in fig. 3-4, in this embodiment, the opening and closing mechanism includes a protective cover 120 detachably connected to an opening at one end of the water inlet pipe 210, a mounting ring 300 is disposed in the water inlet pipe 210, a blocking block 310 for blocking the water inlet pipe 210 is disposed at the opening end of the water inlet pipe 210, a first spring 320 is installed between the mounting ring 300 and the blocking block 310, the blocking block 310 is always pushed by the first spring 320 to separate from the water inlet pipe 210 and extend into the protective cover 120, a moving rod 330 penetrating through the protective cover 120 is disposed on the blocking block 310, and a positioning component for limiting the blocking block 310 in the water inlet pipe 210 is disposed on the moving rod 330.

In this embodiment, through the arrangement of the protection cover 120, the blocking block 310, the mounting ring 300, the first spring 320 and the moving rod 330, the mounting ring 300 is installed on the inner wall of the water inlet pipe 210 in a threaded manner, the first spring 320 is fixed on the mounting ring 300, the blocking block 310 is closely attached to the inner wall of the water inlet pipe 210, the blocking block 310 is pushed out of the water inlet pipe 210 through the first spring 320, the water inlet pipe 210 is in an open state, and rainwater can enter the water storage cavity 201 from the water inlet pipe 210

Wherein, the protecting cover 120 is fixedly installed at the water inlet end of the water inlet pipe 210, and a plurality of filtering holes are uniformly formed on the protecting cover 120, so that collected rainwater can enter the water inlet pipe 210 from the filtering holes, the protecting cover 120 can filter garbage with smaller particle size contained in the rainwater, and the garbage in the rainwater is reduced from entering the water storage cavity 201;

when the plugging device is in actual use, the plugging piece 310 of the water inlet pipe 210 can be pushed into the water inlet pipe 210 by pressing the moving rod 330, and the first spring 320 is compressed at the moment, so that the water inlet pipe 210 is closed, and in order to position the plugging piece 310 when the moving rod 330 presses the plugging piece 310, the moving rod 330 is provided with a positioning component, so that the plugging piece 310 positions the moving rod 330 when the plugging piece 310 plugs the water inlet pipe 210, and the plugging of the water inlet pipe 210 is completed.

As shown in fig. 3-4, in this embodiment, a mounting cavity 501 is provided at the upper end of the moving rod 330, and a locking hole 502 is provided on the lower end surface of the mounting cavity 501;

the locating component comprises a sliding block 510 which is relatively arranged in a locking hole 502, limiting blocks 511 which extend out of a moving rod 330 are respectively arranged on the side surfaces, away from each other, of the sliding block 510, a second spring 520 is arranged between the opposite side surfaces of the sliding block 510, the second spring 520 is used for driving the sliding block 510 to be away from each other and driving the limiting blocks 511 to extend out of the moving rod 330, the limiting blocks 511 which extend out of the moving rod 330 are abutted against the inner side walls of a protective cover 120 to limit a blocking block 310 in a water inlet pipe 210, and a driving piece which is used for driving the sliding blocks 510 to be close to each other is arranged in a mounting cavity 501.

In this embodiment, two ends of the locking hole 502 penetrate through the moving rod 330 along the radial direction of the moving rod 330, wherein through the arrangement of the mounting cavity 501, the locking hole 502, the sliding blocks 510, the second springs 520 and the driving piece, two ends of the second springs 520 are respectively and fixedly mounted on the corresponding sliding blocks 510, the second springs 520 always push the two sliding blocks 510 to be far away from each other, so that the corresponding limiting blocks 511 extend out of the locking hole 502, when the extending ends of the limiting blocks 511 are abutted against the inner side wall of the protective cover 120, even if the moving rod 330 is locked and positioned, the blocking block 310 is in a state of blocking the water inlet pipe 210, namely, the opening and closing mechanism is in a closed state;

when the opening and closing mechanism is required to be in an opening state, the opposite limiting block 511 is retracted into the locking hole 502, and the abutting and matching between the limiting block 511 and the protective cover 120 is released, so that the moving rod 330 moves upwards under the action of the first spring 320 even if the opening and closing mechanism is opened;

in actual use, the second spring 520 can be compressed through the driving piece, so that the two opposite sliding blocks 510 are close to each other, the limiting block 511 is positioned in the locking hole 502, at the moment, the first spring 320 is decompressed to push the blocking piece 310 to separate from the water inlet pipe 210, and when the blocking piece 310 is separated from the water inlet pipe 210, the moving rod 330 is lifted up and down, and at the moment, the locking holes 502 are positioned outside the protective cover 120;

as shown in fig. 4, in this embodiment, an upper end of the installation cavity 501 is provided with an opening, and an installation cover 530 is provided at the opening of the installation cavity 501;

the driving piece comprises a mounting block 540 slidably arranged in the mounting cavity 501, driving blocks 541 are respectively arranged at two ends of the mounting block 540 corresponding to the sliding blocks 510, guide inclined planes 542 are arranged on the driving blocks 541, movable rods 550 extending out of the mounting cover 530 are arranged on the mounting block 540, matching inclined planes 512 matched with the corresponding guide inclined planes 542 are arranged on the sliding blocks 510, the movable rods 550 are pressed to drive the mounting block 540 to move downwards, the driving blocks 541 are driven to move downwards, and the guide inclined planes 542 are driven to press the matching inclined planes 512 to drive the two sliding blocks 510 to be close to each other.

In this embodiment, through the arrangement of the mounting cover 530, the mounting block 540, the driving block 541 and the movable rod 550, one end of the movable rod 550 extends out of the mounting cover 530, and the movable rod 550 is pressed to drive the mounting block 540 to move downwards, so that the driving blocks 541 at two ends are driven to drive the corresponding sliding blocks 510 to approach each other;

wherein, the driving blocks 541 are provided with guiding inclined planes 542, the sliding blocks 510 are provided with matching inclined planes 512 corresponding to the guiding inclined planes 542, the matching inclined planes 512 are pressed by the guiding inclined planes 542, so that the two sliding blocks 510 are close to each other, and the second springs 520 are pressed, so that the limiting blocks 511 retract into the moving rods 330;

when the movable rod 550 is stopped being pressed, the second spring 520 is decompressed to push the two opposite sliding blocks 510 away from each other, so that one end of the limiting block 511 extends out of the locking hole 502, and the extending end of the limiting block 511 is abutted against the inner side wall of the protective cover 120;

when the movable rod 550 is pressed, the side wall of the driving block 541 slides along the inner side wall of the mounting cavity 501, so that the mounting block 540 always keeps sliding horizontally, and the effect that the driving block 541 presses the sliding block 510 is better;

when the movable rod 330 and the movable rod 550 are pressed simultaneously to block the water inlet pipe 210 when the movable rod 550 is loosened to enable the extending end of the sliding block 510 to be abutted against the inner side of the protective cover 120, at the moment, the block 310 always blocks the water inlet pipe 210, so that dust in air can be prevented from penetrating through the protective cover 120 to enter the water storage cavity 201, and pollution of the dust to the rainwater in the water storage cavity 201 is reduced.

Claims (7)

1. An integral silica sand cistern, its characterized in that: including cell body (100), be equipped with ascending retaining chamber (201) of opening in cell body (100), the opening part of retaining chamber (201) is equipped with and is used for carrying out shutoff to retaining chamber (201) and gathers water apron (110), the up end indent that gathers water apron (110) forms and gathers water recess (111), the middle part department that gathers water recess (111) is equipped with inlet tube (210) that are linked together with retaining chamber (201), is equipped with in inlet tube (210) and is used for carrying out the mechanism that opens and shuts to inlet tube (210).

2. An integral silica sand reservoir as claimed in claim 1 wherein: the opening and closing mechanism comprises a protective cover (120) detachably connected to the opening of one end of the water inlet pipe (210), a mounting ring (300) is arranged in the water inlet pipe (210), a blocking block (310) for blocking the water inlet pipe (210) is arranged at the opening end of the water inlet pipe (210), a first spring (320) is arranged between the mounting ring (300) and the blocking block (310), the first spring (320) always pushes the blocking block (310) to separate from the water inlet pipe (210) and extend into the protective cover (120), a moving rod (330) penetrating through the protective cover (120) is arranged on the blocking block (310), and a positioning assembly for limiting the blocking block (310) in the water inlet pipe (210) is arranged on the moving rod (330).

3. An integral silica sand reservoir as claimed in claim 2, wherein: an installation cavity (501) is arranged at the upper end part of the movable rod (330), and a locking hole (502) is arranged on the lower end surface of the installation cavity (501);

the locating component comprises sliding blocks (510) which are oppositely arranged in locking holes (502), limiting blocks (511) which extend out of moving rods (330) are respectively arranged on the side surfaces, away from each other, of the sliding blocks (510), second springs (520) are arranged between the opposite side surfaces of the sliding blocks (510), the second springs (520) are used for driving the sliding blocks (510) to be far away from each other and drive the limiting blocks (511) to extend out of the moving rods (330), the limiting blocks (511) which extend out of the moving rods (330) are abutted against the inner side walls of protective covers (120), the blocking blocks (310) are limited in water inlet pipes (210), and driving pieces which are used for driving the sliding blocks (510) to be close to each other are arranged in installation cavities (501).

4. A monolithic silica sand reservoir as claimed in claim 3, wherein: the upper end of the mounting cavity (501) is provided with an opening, and the opening of the mounting cavity (501) is provided with a mounting cover (530);

the driving piece comprises a mounting block (540) which is slidably arranged in the mounting cavity (501), driving blocks (541) are respectively arranged at two ends of the mounting block (540) corresponding to the sliding blocks (510), guide inclined planes (542) are arranged on the driving blocks (541), movable rods (550) which extend out of the mounting cover (530) are arranged on the mounting block (540), matching inclined planes (512) which are matched with the corresponding guide inclined planes (542) are arranged on the sliding blocks (510), the movable rods (550) are pressed to drive the mounting block (540) to move downwards, the driving blocks (541) are driven to move downwards, and the guide inclined planes (542) are driven to press the two sliding blocks (510) to be close to each other.

5. An integral silica sand reservoir as claimed in claim 1 wherein: the lower plate surface of the water collecting cover plate (110) is provided with a mounting circular ring (220) along the circumferential direction, and the opening end of the tank body (100) is provided with a mounting groove (202) for the mounting circular ring (220) to be clamped in.

6. An integral silica sand reservoir as claimed in claim 5 wherein: the upper end face of the water collecting cover plate (110) is provided with opposite auxiliary holes (112) penetrating through the water collecting cover plate (110).

7. An integral silica sand reservoir as claimed in claim 1 wherein: the side wall at the lower end part of the tank body (100) is provided with a drain pipe (130) communicated with the water storage cavity (201), and the drain pipe (130) is provided with a cover body (131).