阅读说明：本技术 一种自增压除杂的卵形槽排水渠结构 (Self-pressurization impurity-removal oval-shaped groove drainage channel structure ) 是由 陈文娟 于 2020-06-04 设计创作，主要内容包括：本发明提供了一种自增压除杂的卵形槽排水渠结构,包括主体、进水口、排水渠、增压轮和升降栏,主体的顶端开口设置有进水口,主体的内部开口设置有排水渠,进水口的一侧嵌入设置有增压轮,进水口的因此嵌入设置有升降栏。该装置设置有增压轮,通过增压轮能够增加水流的冲击力来将内壁上的杂质进清洗,同时可以加快水流入进排水渠的速度。(The invention provides a self-pressurization impurity-removing oval-shaped groove drainage channel structure which comprises a main body, a water inlet, a drainage channel, a pressurization wheel and a lifting fence. The device is provided with the pressure boost wheel, can increase the impact force of rivers through the pressure boost wheel and advance to wash with the impurity on the inner wall, can accelerate the speed that water flows into water inlet and outlet canal simultaneously.)

1. The utility model provides an oval groove drainage canal structure from pressure boost edulcoration, includes main part (1), water inlet (2), drainage canal (3), pressure boost wheel (4) and lift fence (5) its characterized in that: the top end opening of main part (1) is provided with water inlet (2), the inside opening of main part (1) is provided with drainage channel (3), one side embedding of water inlet (2) is provided with pressure wheel (4), consequently the embedding of water inlet (2) is provided with companion rail (5).

2. The self-pressurizing impurity-removing oval-shaped drainage channel structure according to claim 1, characterized in that: the water inlet (2) further comprises a water guide groove (201), and an opening of the water guide groove (201) is formed in one side of the water inlet (2).

3. The self-pressurizing impurity-removing oval-shaped drainage channel structure according to claim 1, characterized in that: pressure boost wheel (4) are still including lifting disk (401), rotary disk (4011), spacing ring (4012), impact post (402) and tacho wheel (4021), and lifting disk (401) embedding sets up in one side of pressure boost wheel (4), and strikes post (402) embedding and sets up in lifting disk (401) one side, and tacho wheel (4021) fixed connection is in the side surface of strikeing post (402) simultaneously.

4. The self-pressurizing impurity-removing oval-shaped drainage channel structure according to claim 1, characterized in that: the rotating disc (4011) is embedded in the lifting disc (401), and the number of tooth marks in the middle of the rotating disc (4011) is less than that of tooth marks on the rotating wheel (4021).

5. The self-pressurizing impurity-removing oval-shaped drainage channel structure according to claim 1, characterized in that: spacing ring (4012) embedding sets up in the middle part of lifting disk (401), and half area of spacing ring (4012) is the setting of cavity form.

6. The self-pressurizing impurity-removing oval-shaped drainage channel structure according to claim 1, characterized in that: the lifting fence (5) further comprises a connecting disc (501), an inclined ring (5011), a limiting block (5012) and a water outlet groove (502), the connecting disc (501) is embedded into one side of the lifting fence (5), and the water outlet groove (502) is embedded into one side of the connecting disc (501).

7. The self-pressurizing impurity-removing oval-shaped drainage channel structure according to claim 1, characterized in that: the inclined ring (5011) is embedded in the connecting disc (501).

8. The self-pressurizing impurity-removing oval-shaped drainage channel structure according to claim 1, characterized in that: and the limiting block (5012) is fixedly connected to the inside of the connecting disc (501).

Technical Field

The invention relates to the technical field of pavement drainage, in particular to an oval-shaped drainage channel.

Background

Oval groove drainage canal refers to the drainage canal that sets up in the bottom on road surface, and the middle part of drainage canal is the hollow part that is oval form, set up like this and to make the mobility of rivers bigger, can increase the efficiency of drainage, set up like this simultaneously and can bury it in the underground on road surface has increased the aesthetic property on road surface, but current oval groove drainage canal can depend on some impurity on the inner wall and be difficult to with its clarity after long-time drainage, simultaneously because bury the water inlet that makes the road surface at the bottom of the earth can be more narrow, because water can be very slow when flowing in has reduced the efficiency of drainage.

Disclosure of Invention

The invention aims to solve the technical problems that the oval-shaped drainage channel is difficult to clean because the oval-shaped drainage channel is buried in the ground bottom, and the drainage efficiency is low because the water inlet is narrow.

The purpose and the effect of the self-pressurizing impurity-removing oval-shaped groove drainage channel structure are achieved by the following specific technical means:

the utility model provides an oval groove drainage canal structure from pressure boost edulcoration, includes main part, water inlet, drainage canal, pressure boost wheel and lift fence, the top end opening of main part is provided with the water inlet, the inside opening of main part is provided with drainage canal, one side embedding of water inlet is provided with the pressure boost wheel, therefore the embedding of water inlet is provided with the lift fence.

Further preferred embodiments: the water inlet is also provided with a water chute, and the opening of the water chute is arranged at one side of the water inlet.

Further preferred embodiments: the pressure increasing wheel further comprises a lifting disc, a rotating disc, a limiting ring, an impact column and a rotating speed wheel, the lifting disc is embedded into one side of the pressure increasing wheel, the impact column is embedded into one side of the lifting disc, and the rotating speed wheel is fixedly connected to the surface of one side of the impact column.

Further preferred embodiments: the rotating disc is embedded in the lifting disc, and the number of tooth marks in the middle of the rotating disc is less than that of tooth marks on the rotating speed wheel.

Further preferred embodiments: the limiting ring is embedded in the middle of the lifting disc, and half area of the limiting ring is arranged in a hollow shape.

Further preferred embodiments: the lifting fence further comprises a connecting disc, an inclined ring, a limiting block and a water outlet groove, the connecting disc is embedded in one side of the lifting fence, and the water outlet groove is embedded in one side of the connecting disc.

Further preferred embodiments: the inclined ring is embedded in the connecting disc.

Further preferred embodiments: the limiting block is fixedly connected to the inside of the connecting disc.

Has the advantages that:

(1) this kind of oval groove drainage canal structure from pressure boost edulcoration is provided with the pressure boost wheel, can let the lift fence descend because of the increase of weight when the rivers in the lift fence are too much, the haulage rope on the lift fence can stimulate the rotary disk in the lifting disk to rotate and emit the line when descending, make the lift fence can descend then can drive the impact column and begin to rotate because of the reason of gear when the rotary disk is rotatory, and make the rotational speed between them different because the quantity of two tooth marks makes the rotational speed between them, make the rotational speed of impact column want faster than the rotational speed of rotary disk, then can the convection current carry out the application of force at surperficial rivers when the impact column rotates, make rivers can have certain impact force to flow into in the drainage canal, make can dash the impurity of depending on the inner wall and fall, accelerate the speed that water flows into in the drainage canal simultaneously.

(2) Then the protrusion can be dragged the spring and rotate at the middle part of spacing ring when the rotary disk is rotatory for can reset when rotatory certain distance and pull up the lift fence, also can drive the rotatory water feeding of impact column when reseing simultaneously and increase the impact force.

(3) At last when the lift fence descends to certain position inside water holds fully rivers can flow through play basin, cause the lift fence can take place to incline because of the reason of weight when flowing, the tilt ring can begin to rotate when the slope, the arch of one side can support the opposite side of stopper when the pivoted, let the lift fence can't continue to incline, then can make the lift fence rise because of not having weight when inside water is whole to flow out, can let the tilt ring turn back and reset the lift fence because dragging that rises to produce when rising, so relapse go up and down to carry out the pressure boost to the rivers.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is an enlarged schematic view of the structure at a in fig. 1 according to the present invention.

Fig. 3 is a side view of the anatomical structure of the interface disc of the present invention.

Fig. 4 is a partial overall structure diagram of the lifting fence of the present invention.

Fig. 5 is a partial overall structural schematic view of the booster wheel of the present invention.

Figure 6 is a side view of the anatomical representation of the booster wheel of the present invention.

In FIGS. 1-6: the water outlet device comprises a main body 1, a water inlet 2, a water chute 201, a drainage channel 3, a pressurizing wheel 4, a lifting disc 401, a rotating disc 4011, a limiting ring 4012, an impact column 402, a rotating speed wheel 4021, a lifting column 5, a connecting disc 501, an inclined ring 5011, a limiting block 5012 and a water outlet groove 502.

Detailed Description

As shown in figures 1 to 6:

the invention provides a self-pressurization impurity-removal oval-shaped groove drainage channel structure which comprises a main body 1, a water inlet 2, a drainage channel 3, a pressurization wheel 4 and a lifting fence 5, wherein the water inlet 2 is arranged at an opening at the top end of the main body 1, the drainage channel 3 is arranged at an opening in the main body 1, the pressurization wheel 4 is embedded into one side of the water inlet 2, and the lifting fence 5 is embedded into the water inlet 2.

Wherein, water inlet 2 is still including guiding gutter 201, and the opening of guiding gutter 201 sets up in one side of water inlet 2, and guiding gutter 201 is the arc recess form setting of incurving simultaneously.

Wherein, pressure boost wheel 4 is still including lifting disk 401, rotary disk 4011, spacing ring 4012, impact post 402 and tacho wheel 4021, and lifting disk 401 embedding sets up in one side of pressure boost wheel 4, and strikes post 402 embedding and sets up in lifting disk 401 one side, and tacho wheel 4021 fixed connection is in one side surface of impact post 402 simultaneously, and the surface of impact post 402 is provided with spiral helicine recess simultaneously for impact post 402 can apply force to the rivers and let rivers can have certain impact force and flow down when rotatory.

The rotating disc 4011 is embedded in the lifting disc 401, the number of teeth marks in the middle of the rotating disc 4011 is less than that of teeth marks on the rotating wheel 4021, and the rotating speeds of the two teeth marks are different due to the fact that the two teeth marks are different, so that the rotating speed of the impact column 402 is higher than that of the rotating disc 4011.

Wherein, the insert of spacing ring 4012 sets up in the middle part of lifting disk 401, and half area of spacing ring 4012 is the setting of cavity form, simultaneously because half of spacing ring 4012 sets up half for solid setting for cavity for half for the rotary disk 4011 can only rotate at hollow portion, and one side of spacing ring 4012 still passes through spring coupling together with rotary disk 4011 one side rectangle form arch.

The lifting fence 5 further comprises a connecting disc 501, an inclined ring 5011, a limiting block 5012 and a water outlet groove 502, wherein the connecting disc 501 is embedded in one side of the lifting fence 5, and the water outlet groove 502 is embedded in one side of the connecting disc 501.

The inclined ring 5011 is embedded in the connecting plate 501, the middle of the inclined ring 5011 is hollow, and a rectangular protrusion is further disposed on one side of the middle of the inclined ring 5011.

The limit block 5012 is fixedly connected to the inside of the connecting pad 501, the limit block 5012 is semicircular, and the limit block 5012 can enable the protruding portion of the inclined ring 5011 to abut against the limit block 5012 during rotation so as to limit the rotation angle of the inclined ring 5011.

The working principle is as follows:

firstly, accumulated water on the road surface can enter the drainage channel 3 through the water filling port 2, then the water flow is discharged through the drainage channel 3, when the water flow enters the water filling port 2, the water flow can be attached to the groove to flow due to the arc-shaped groove of the water chute 201, so that the water flow can flow into the lifting rail 5, then when the water flow in the lifting rail 5 is excessive, the lifting rail 5 can descend due to the increase of the weight, when descending, the traction rope on the lifting rail 5 can pull the rotating disc 4011 in the lifting disc 401 to rotate to discharge a line, so that the lifting rail 5 can descend, and when the rotating disc 4011 rotates, the impact column 402 can be driven to rotate due to the gear, and because the rotating speeds of the two tooth marks are different, the rotating speed of the impact column 402 is higher than that of the rotating disc 4011, then when the impact column 402 rotates, force can be applied to the water flow on the surface, the water flow can flow into the water inlet and outlet channel 3 with a certain impact force, then the protrusion can pull the spring to rotate at the middle part of the limit ring 4012 when the rotating disc 4011 rotates, so that the lifting rail 5 can be pulled up by resetting when rotating to a certain distance, and simultaneously the impact column 402 can be driven to rotate to feed water flow to increase the impact force when resetting, finally the water flow can flow out through the water outlet groove 502 when the lifting rail 5 descends to a certain position and the water in the lifting rail 5 is full, the lifting rail 5 can incline due to the weight when flowing out, the inclined ring 5011 can start to rotate when inclining, the protrusion on one side can abut against the other side of the limit block 5012 when rotating, so that the lifting rail 5 can not incline continuously, then the lifting rail 5 can ascend due to the absence of the weight when the water in the lifting, the inclined ring 5011 can rotate back to reset the lifting rail 5 due to the pull generated by ascending, the water flow is pressurized by repeatedly ascending and descending.