CN117552505A - Rotary swing gate and drainage pipeline system - Google Patents

Abstract

The invention provides a swing gate and a drainage pipeline system, wherein the swing gate comprises an arc-shaped gate groove, a circular gate and a power mechanism; the arc gate groove is arranged on a first well wall of the drainage inspection well, a water outlet is arranged on the first well wall, and the channel path of the arc gate groove covers the water outlet; the circular gate is arranged on the channel of the arc-shaped gate groove; the power mechanism is arranged on the first well wall above the arc-shaped gate groove and connected with the circular gate and is used for driving the circular gate to swing along the channel path on the channel of the arc-shaped gate groove so as to open or close the water outlet. The invention solves the problem that the traditional up-down sewage gate cannot be installed due to insufficient space of the existing drain pipeline with shallow burial depth.

Description

Rotary swing gate and drainage pipeline system

Technical Field

The invention relates to municipal drainage systems, in particular to a swing gate and a drainage pipeline system.

Background

The manual and electric integrated sewage gate is generally applied to sewage treatment engineering, and normally adopts an up-down type to open and close a pipeline, and a matched headstock gear and a screw rod are vertically arranged above the gate, so that a large amount of upper operation space is required when the gate is opened or closed; for municipal sewer lines with shallow burial depths, the operation of the gate and the hoist is required to be performed in the drainage inspection well, and the ground cannot be exposed when the screw rod operates, so that the situation that the traditional up-down sewage gate cannot be installed often occurs.

Therefore, how to solve the problem that the drainage pipeline with shallow burial depth cannot be provided with the traditional up-down sewage gate due to insufficient space is always a pain point in practical engineering application and is a technical problem which is urgent to be solved by the person skilled in the art.

It should be noted that the foregoing description of the background art is only for the purpose of providing a clear and complete description of the technical solution of the present invention and is presented for the convenience of understanding by those skilled in the art. The above-described solutions are not considered to be known to the person skilled in the art simply because they are set forth in the background of the invention section.

Disclosure of Invention

In view of the above-mentioned drawbacks of the prior art, an object of the present invention is to provide a swing gate and a drainage pipeline system, which are used for solving the problem that the conventional vertical sewage gate cannot be installed due to insufficient space in the existing drainage pipeline with a shallow burial depth.

To achieve the above and other related objects, the present invention provides a swing gate including:

an arc gate slot, a circular gate and a power mechanism;

the arc-shaped gate groove is arranged on a first well wall of the drainage inspection well, a water outlet is formed in the first well wall, and the channel path of the arc-shaped gate groove covers the water outlet;

the circular gate is arranged on the channel of the arc-shaped gate groove;

the power mechanism is arranged on the first well wall above the arc-shaped gate groove and connected with the circular gate, and is used for driving the circular gate to swing on the groove channel of the arc-shaped gate groove along the channel path so as to open or close the water outlet.

Optionally, the swing gate further includes:

the electric control system is arranged outside the drainage inspection well and connected with the power mechanism and is used for sending an instruction to the power mechanism so that the power mechanism controls the circular gate to open or close the water outlet.

Optionally, the swing gate further includes:

the liquid level meter is arranged on any well wall of the drainage inspection well and connected with the electric control system, and is used for monitoring the liquid level change in the drainage inspection well to obtain a liquid level value, generating a switch control signal when the liquid level value reaches a warning value and sending the switch control signal to the electric control system, so that the electric control system sends an instruction to the power mechanism according to the switch control signal.

Optionally, the electronic control system includes:

the controller is used for sending an instruction to the power mechanism, and the power supply is used for supplying power to the controller;

the power supply device comprises a storage battery and a photovoltaic panel, wherein the photovoltaic panel is used for converting solar energy into electric energy and then transmitting the electric energy to the storage battery for storage.

Optionally, the power mechanism includes:

the device comprises a hoist, a fan-shaped slideway, a transmission gear, a first screw rod, a second screw rod and a third screw rod;

the hoist is horizontally arranged on the first well wall above the arc-shaped gate groove, the fan-shaped slide rail is arranged on the first well wall below the hoist, and the transmission gear is arranged on the fan-shaped slide rail;

the first screw rod is horizontally arranged and connected with the hoist, one end of the second screw rod is connected with one end of the first screw rod, the other end of the second screw rod is connected with a first shaft of the transmission gear, one end of the third screw rod is connected with a second shaft of the transmission gear, and the other end of the third screw rod is connected with the circular gate.

Optionally, when the swing gate does not include an electric control system, the hoist includes a manual hoist; when the swing gate comprises an electric control system, the hoist comprises an electric hoist or a flashlight integrated hoist.

Optionally, the swing gate further includes an auxiliary limiting mechanism, the auxiliary limiting mechanism includes:

limiting slide ways and limiting plates; the limiting slide way is arranged on the first well wall below the arc-shaped gate groove, and the limiting slide way is arranged in parallel with the corresponding groove section of the arc-shaped gate groove; the limiting plate is fixed on the limiting slide way and the arc-shaped gate groove, so that the circular gate is subjected to auxiliary limiting.

Optionally, the swing gate further includes a plurality of fixing members, and the arc-shaped gate slot is mounted on the first well wall through each fixing member.

The present invention also provides a drainage pipe system including:

drainage pipelines, drainage inspection wells and swing gates as described above;

the drainage pipeline passes through the drainage inspection well and is disconnected at the penetration position of the drainage inspection well so as to form a drainage outlet on two well walls of the drainage inspection well, wherein the drainage outlet comprises a water inlet and a water outlet;

the rotary and swing gate is arranged on the well wall where the water inlet is located and/or the well wall where the water outlet is located.

Optionally, the drainage pipe system further comprises:

the camera is arranged on any well wall of the drainage inspection well and connected with an external monitor and is used for remotely monitoring the condition in the drainage inspection well.

As described above, the swing gate and the drainage pipeline system can save vertical space to the greatest extent through the design of the arc gate groove, the round gate and the power mechanism, so that the swing gate can be suitable for the drainage pipeline system with shallow burial depth, is beneficial to popularization and use in a large range, and has wide market application space.

Drawings

Fig. 1 is a schematic view showing a structure of a swing gate at a position according to an embodiment of the present invention.

Fig. 2 is a schematic view showing a structure of a swing gate at another position according to an embodiment of the present invention.

Fig. 3 is a schematic view showing the structure of a swing gate at different positions according to an embodiment of the present invention.

Fig. 4 is a schematic view showing a structure of a two-swing gate in one position according to an embodiment of the present invention.

Fig. 5 is a schematic view showing a structure of a second swing gate in another position according to the embodiment of the present invention.

Fig. 6 is a schematic view showing the structure of the second swing gate at different positions according to the embodiment of the invention.

FIG. 7 is a schematic view showing the structure of the three-drain pipeline system according to the embodiment of the present invention without the swing gate.

FIG. 8 is a schematic view of the wall of the well where the water inlet of the drainage system of FIG. 7 is located.

Description of element reference numerals

100. Rotary swing gate

110. Arc-shaped gate slot

120. Round gate

121. Gate body

122. Transmission body

130. Power mechanism

131. Hoist machine

132. Sector slideway

133. Transmission gear

134. First screw rod

135. Second screw rod

136. Third screw rod

140. Fixing piece

150. Auxiliary limiting mechanism

151. Limiting slideway

152. Limiting plate

160. Electric control system

161. Controller for controlling a power supply

162. Power supply

170. Cable with improved heat dissipation

180. Liquid level meter

200. Drainage pipeline

300. Drainage inspection well

400. Water outlet

410. Water inlet

420. Water outlet

500. Camera head

Detailed Description

Other advantages and effects of the present invention will become apparent to those skilled in the art from the following disclosure, which describes the embodiments of the present invention with reference to specific examples. The invention may be practiced or carried out in other embodiments that depart from the specific details, and the details of the present description may be modified or varied from the spirit and scope of the present invention.

Please refer to fig. 1 to 8. It should be noted that, the illustrations provided in the present embodiment merely illustrate the basic concept of the present invention by way of illustration, and only the components related to the present invention are shown in the drawings rather than the number, shape and size of the components in actual implementation, and the form, number and proportion of the components in actual implementation may be arbitrarily changed, and the layout of the components may be more complex.

Example 1

As shown in fig. 1 and 2, the present embodiment provides a swing gate 100, which includes an arc-shaped gate groove 110, a circular gate 120, and a power mechanism 130.

The arc gate 110 is installed on a first well wall of the drain inspection well 300, wherein a drain opening 400 is provided on the first well wall, and a chute path of the arc gate 110 covers the drain opening 400, so that the drain opening 400 can be opened or closed by adjusting a swing angle when the circular gate 120 swings on the chute path of the arc gate 110 along the chute path.

Further, the swing gate 100 of the present embodiment further includes a plurality of fixing members 140, and the arc-shaped gate groove 110 is mounted on the first wall of the drainage inspection well 300 through each fixing member 140. In one embodiment, the securing member comprises a securing bolt; the number of the fixing bolts is determined by practical requirements, which is not limited in this embodiment.

The circular gate 120 is installed on the channel of the arc-shaped gate groove 110; the circular gate 120 is designed to fit the arc-shaped gate slot 110, so that when the power mechanism 130 works, the circular gate 120 can swing along the path of the slot road on the slot road of the arc-shaped gate slot 110, and when the power mechanism 130 does not work, the circular gate 120 can remain fixed on the slot road of the arc-shaped gate slot 110, for example, fixed at the starting position or fixed at the working position.

In one embodiment, the circular gate 120 includes a gate body 121 and a transmission body 122; the gate body 121 is mounted on the channel of the arc-shaped gate groove 110 and connected with the transmission body 122, and the transmission body 122 is connected with the power mechanism 130 so as to drive the gate body 121 to swing along the channel path on the channel of the arc-shaped gate groove 110 under the control of the power mechanism 130.

In this embodiment, a circular gate is selected instead of a gate with another shape, and mainly, the circular gate 120 is more balanced in stress during the swinging process than a gate with another shape (such as a conventional rectangular gate), which is beneficial to realizing the swinging action.

The power mechanism 130 is installed on the first well wall above the arc-shaped gate groove 110 and connected to the circular gate 120, for driving the circular gate 120 to swing along the path of the chute on the channel of the arc-shaped gate groove 110 to open or close the drain opening 400.

In one embodiment, the power mechanism 130 includes a hoist 131, a fan-shaped slide 132, a transmission gear 133, a first screw 134, a second screw 135, and a third screw 136.

The hoist 131 is horizontally arranged on a first well wall above the arc-shaped gate groove 110, the sector slide way 132 is arranged on the first well wall below the hoist 131, and the transmission gear 133 is arranged on the sector slide way 132; the first screw rod 134 is horizontally arranged and connected with the hoist 131, one end of the second screw rod 135 is connected with one end of the first screw rod 134, the other end of the second screw rod 135 is connected with a first shaft of the transmission gear 133, one end of the third screw rod 136 is connected with a second shaft of the transmission gear 133, and the other end of the third screw rod 136 is connected with the circular gate 120. The hoist 131 includes a manual hoist.

The headstock gear 131, the fan-shaped slide way 132, the transmission gear 133, the first screw rod 134, the second screw rod 135, the third screw rod 136 and the circular gate 120 are connected into a whole, and when the headstock gear 131 works, the first screw rod 134 is driven to horizontally move and the transmission gear 133 is driven to slide on the fan-shaped slide way 132 through the second screw rod 135, so that the circular gate 120 is driven to swing along the path of the grooved road on the grooved channel of the arc-shaped gate groove 110 through the third screw rod 136.

In practical application, by controlling the length of the first screw rod 134, the swing angle of the circular gate 120 can be controlled, so as to control the opening degree of the water outlet, for example, control the water outlet to be completely opened, completely closed, partially opened, partially closed, and the like, and perform the functions of controlling the flow rate of water flow, limiting flow, and the like.

In this embodiment, the hoist 131 and the first screw rod 134 are horizontally disposed, and the transmission direction is changed by using the sliding of the transmission gear 133 on the fan-shaped slideway 132 to control the circular gate 120, and the conventional vertical gate running direction is changed by using the design of the arc gate slot, so that the vertical space is saved to the greatest extent, and the swing gate 100 of this embodiment can be suitable for a drain pipeline system with a shallow burial depth.

Further, the swing gate 100 of the present embodiment further includes an auxiliary limiting mechanism 150 for assisting the arc-shaped gate slot to limit and fix the circular gate 120, so that the circular gate 120 is more stably fixed on the channel of the arc-shaped gate slot 110.

In one embodiment, as shown in fig. 2, the auxiliary limiting mechanism 150 includes a limiting slideway 151 and a limiting plate 152; the limiting slide ways 151 are arranged on the first well wall below the arc-shaped gate groove 110, and the limiting slide ways 151 are arranged in parallel with corresponding groove sections of the arc-shaped gate groove 110; the limiting plate 152 is fixed on the limiting slideway 151 and the arc-shaped gate groove 110 to assist in limiting the circular gate 120.

In practical application, the limiting plate 152 is manually fixed by the fixing bolts, for example, corresponding slot sections of the limiting slideway 151 and the arc-shaped gate slot 110 are provided with a plurality of bolt holes, and the limiting plate 152 is fixed on the limiting slideway 151 and the arc-shaped gate slot 110 by using two fixing bolts, so that auxiliary supporting force is provided for the circular gate 120.

Fig. 3 shows the operation of the swing gate 100 of the present embodiment, which includes two cases: the circular shutter 120 swings from position 1 to position 2, and the circular shutter 120 swings from position 2 to position 1.

First kind: the start position of the circular shutter 120 is at position 1, that is, the drain port 400 is in a closed state under normal operation; when the water outlet 400 needs to be opened, the hoist 131 drives the first screw rod 134 to horizontally move leftwards, and drives the transmission gear 133 to downwardly move on the fan-shaped slideway 132 through the second screw rod 135, so that the circular gate 120 is driven to swing upwards along the radial direction of the slot road on the slot channel of the arc-shaped gate slot 110 through the third screw rod 136 to open the water outlet 400.

Second kind: the starting position of the circular gate 120 is at position 2, that is, the water drain 400 is in an open state under normal operation; when the water outlet 400 needs to be closed, the hoist 131 drives the first screw rod 134 to horizontally move rightward, and drives the transmission gear 133 to upwardly move on the fan-shaped slideway 132 through the second screw rod 135, so that the circular gate 120 is driven to swing down along the radial direction of the slot road on the slot channel of the arc-shaped gate slot 110 through the third screw rod 136 to close the water outlet 400.

Example two

As shown in fig. 4 and 5, the difference between the present embodiment and the first embodiment is that the swing gate 100 of the present embodiment further includes an electric control system 160; at this time, the hoist 131 in the power mechanism 130 is no longer a manual hoist, but an electric hoist or a flashlight-integrated hoist.

The electronic control system 160 is installed outside the drainage inspection well 300 and connected with the power mechanism 130, and is used for sending a command to the power mechanism 130, so that the power mechanism 130 controls the circular gate 120 to open or close the drainage outlet 400. Wherein the electronic control system 160 is connected to the power mechanism 130 through a cable 170.

In one embodiment, the electronic control system 160 includes a controller 161 and a power supply 162; the controller 161 is connected to the power mechanism 130 for sending instructions to the power mechanism 130, and the power supply 162 is connected to the controller 161 for supplying power to the controller 161.

Wherein the controller 161 includes a PLC (programmable controller); the power supply 162 includes a battery and a photovoltaic panel (not shown) for converting solar energy into electric energy and then transmitting the electric energy to the battery for storage to supply power to the controller 161. By adopting the solar power supply mode, the swing gate 100 of the embodiment can realize low-carbon operation without electricity consumption.

Further, the swing gate 100 of the present embodiment further includes a liquid level meter 180, which is installed on any wall of the drain inspection well 300 and connected to the electric control system 160, and is configured to monitor the liquid level change in the drain inspection well 300 to obtain a liquid level value, and generate a switch control signal to send to the electric control system 160 when the liquid level value reaches a warning value, so that the electric control system 160 sends an instruction to the power mechanism 130 according to the switch control signal, to control the circular gate 120 to open or close the drain outlet 400.

For example, when the liquid level value reaches the high warning value, the electronic control system 160 sends an instruction to the power mechanism 130 according to the opening control signal generated by the liquid level gauge 180, so as to control the circular gate 120 to open the water outlet 400; when the liquid level value reaches the low warning value, the electronic control system 160 sends an instruction to the power mechanism 130 according to the closing control signal generated by the liquid level meter 180, so as to control the circular gate 120 to close the water outlet 400.

Of course, when swing gate 100 does not include level gauge 180, electronic control system 160 may also send instructions to power mechanism 130 to control circular gate 120 to open or close drain 400 based on other control signals.

Fig. 6 shows the operation of the swing gate 100 of the present embodiment, which includes two cases: the circular shutter 120 swings from position 1 to position 2, and the circular shutter 120 swings from position 2 to position 1.

First kind: the start position of the circular shutter 120 is at position 1, that is, the drain port 400 is in a closed state under normal operation; when the water outlet 400 needs to be opened, if the liquid level gauge 180 monitors that the liquid level value in the drainage inspection well 300 reaches the high warning value, an opening control signal is generated and sent to the electronic control system 160, the electronic control system 160 controls the headstock gear 131 to drive the first screw rod 134 to horizontally move leftwards, and the second screw rod 135 drives the transmission gear 133 to downwardly move on the fan-shaped slide way 132, so that the third screw rod 136 drives the circular gate 120 to swing upwards along the radial direction of the slot road on the slot road of the arc gate groove 110 to open the water outlet 400, the liquid level in the drainage inspection well 300 is reduced below the high warning value, and the safety of the headstock gear 131 is protected.

Second kind: the starting position of the circular gate 120 is at position 2, that is, the water drain 400 is in an open state under normal operation; when the water outlet 400 needs to be closed, if the liquid level gauge 180 monitors that the liquid level value in the drainage inspection well 300 reaches the low warning value, a closing control signal is generated and sent to the electronic control system 160, the electronic control system 160 controls the hoist 131 to drive the first screw rod 134 to horizontally move rightwards, and the second screw rod 135 drives the transmission gear 133 to move upwards on the fan-shaped slideway 132, so that the third screw rod 136 drives the circular gate 120 to swing downwards along the radial direction of the slot road on the slot road of the arc gate groove 110 to close the water outlet 400, and the liquid level in the drainage inspection well 300 is raised to be above the low warning value.

Example III

As shown in fig. 7 and 8, the present embodiment provides a drainage pipe system including a drainage pipe 200, a drainage inspection well 300, and a swing gate 100 (not shown in the drawings), wherein the swing gate 100 is implemented by adopting the structure described in the first embodiment or the second embodiment.

The drain pipe 200 passes through the drain inspection well 300 and is broken at a penetration of the drain inspection well 300 to form drain openings 400 on both walls of the drain inspection well 300.

In practical application, the overflow port can be used to replace the water outlet 400, and the pipeline corresponding to the overflow port is an overflow pipeline at this time, so that the drainage inspection well can quickly realize the function of the intercepting well.

Wherein the drain port 400 includes a water inlet 410 and a water outlet 420.

In one embodiment, the swing gate 100 is installed on the wall of the well where the water inlet 410 is located, so as to control the opening or closing of the water inlet 410; at this time, the well wall where the water inlet 140 is located is a first well wall. In this embodiment, the initial state of the water inlet 410 is normally an open state, so that the water inlet 410 can be controlled to be closed by swinging the shutter 100 when necessary.

In another embodiment, the swing gate 100 is installed on the wall of the well where the water outlet 420 is located, so as to control the opening or closing of the water outlet 420; at this time, the wall of the well where the water outlet 420 is located is the first wall of the well. In this embodiment, the initial state of the water outlet 420 is normally a closed state, so that the opening of the water outlet 420 can be controlled by swinging the shutter 100 when necessary.

Of course, in other embodiments, the swing gate 100 may be mounted on the wall of the well where the water inlet 410 is located and the wall of the well where the water outlet 420 is located; in practical applications, for cost reasons, it is rare to install the swing gate 100 on two walls of a well simultaneously, and one is usually chosen.

Further, the drainage pipe system of the present embodiment further includes a camera 500 installed on any wall of the drainage inspection well 300 and connected to an external monitor (not shown) for remotely monitoring the condition in the drainage inspection well 300.

In summary, according to the swing gate and the drainage pipeline system, through the design of the arc gate groove, the round gate and the power mechanism, the vertical space can be saved to the greatest extent, so that the swing gate can be suitable for the drainage pipeline system with shallow burial depth, and the swing gate is beneficial to wide popularization and application in a large range and has a wide market application space. Therefore, the invention effectively overcomes various defects in the prior art and has high industrial utilization value.

The above embodiments are merely illustrative of the principles of the present invention and its effectiveness, and are not intended to limit the invention. Modifications and variations may be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the invention. Accordingly, it is intended that all equivalent modifications and variations of the invention be covered by the claims, which are within the ordinary skill of the art, be within the spirit and scope of the present disclosure.

Claims (10)

1. A swing gate, the swing gate comprising:

an arc gate slot, a circular gate and a power mechanism;

the arc-shaped gate groove is arranged on a first well wall of the drainage inspection well, a water outlet is formed in the first well wall, and the channel path of the arc-shaped gate groove covers the water outlet;

the circular gate is arranged on the channel of the arc-shaped gate groove;

the power mechanism is arranged on the first well wall above the arc-shaped gate groove and connected with the circular gate, and is used for driving the circular gate to swing on the groove channel of the arc-shaped gate groove along the channel path so as to open or close the water outlet.

2. The swing gate of claim 1, further comprising:

the electric control system is arranged outside the drainage inspection well and connected with the power mechanism and is used for sending an instruction to the power mechanism so that the power mechanism controls the circular gate to open or close the water outlet.

3. The swing gate of claim 2, further comprising:

the liquid level meter is arranged on any well wall of the drainage inspection well and connected with the electric control system, and is used for monitoring the liquid level change in the drainage inspection well to obtain a liquid level value, generating a switch control signal when the liquid level value reaches a warning value and sending the switch control signal to the electric control system, so that the electric control system sends an instruction to the power mechanism according to the switch control signal.

4. The swing gate of claim 2, wherein the electronic control system comprises:

the controller is used for sending an instruction to the power mechanism, and the power supply is used for supplying power to the controller;

the power supply device comprises a storage battery and a photovoltaic panel, wherein the photovoltaic panel is used for converting solar energy into electric energy and then transmitting the electric energy to the storage battery for storage.

5. A swing gate according to any one of claims 1 to 4, wherein the power mechanism comprises:

the device comprises a hoist, a fan-shaped slideway, a transmission gear, a first screw rod, a second screw rod and a third screw rod;

the hoist is horizontally arranged on the first well wall above the arc-shaped gate groove, the fan-shaped slide rail is arranged on the first well wall below the hoist, and the transmission gear is arranged on the fan-shaped slide rail;

the first screw rod is horizontally arranged and connected with the hoist, one end of the second screw rod is connected with one end of the first screw rod, the other end of the second screw rod is connected with a first shaft of the transmission gear, one end of the third screw rod is connected with a second shaft of the transmission gear, and the other end of the third screw rod is connected with the circular gate.

6. The swing gate of claim 5, wherein the hoist comprises a manual hoist when the swing gate does not include an electrical control system; when the swing gate comprises an electric control system, the hoist comprises an electric hoist or a flashlight integrated hoist.

7. A swing gate according to claim 1, further comprising an auxiliary limit mechanism comprising:

limiting slide ways and limiting plates; the limiting slide way is arranged on the first well wall below the arc-shaped gate groove, and the limiting slide way is arranged in parallel with the corresponding groove section of the arc-shaped gate groove; the limiting plate is fixed on the limiting slide way and the arc-shaped gate groove, so that the circular gate is subjected to auxiliary limiting.

8. The swing gate of claim 1, further comprising a plurality of fasteners, said arcuate gate slot being mounted to said first wall of the well by each of said fasteners.

9. A drain pipe system, the drain pipe system comprising:

a drain line, a drain manhole, and a swing gate as claimed in any one of claims 1 to 8;

the drainage pipeline passes through the drainage inspection well and is disconnected at the penetration position of the drainage inspection well so as to form a drainage outlet on two well walls of the drainage inspection well, wherein the drainage outlet comprises a water inlet and a water outlet;

the rotary and swing gate is arranged on the well wall where the water inlet is located and/or the well wall where the water outlet is located.

10. The drain pipe system of claim 9, further comprising:

the camera is arranged on any well wall of the drainage inspection well and connected with an external monitor and is used for remotely monitoring the condition in the drainage inspection well.