CN212509743U - Automatic throttling communication device - Google Patents

Abstract

The invention relates to a device for the sea water bittern-making industry, in particular to an automatic throttling communication device. The water inlet and the water outlet of the communicating vessel are level, the tail end of the closing barb is connected with one end of the first lever, the front end of the closing barb is connected with a lever pin, and the lever pin is arranged on the second lever; the other end of the first lever is located above the downward pressing lever pin, the closing barb pin, the downward pressing lever pin and the opening barb pin are sequentially arranged on the double upright columns of the buoyancy tank from top to bottom, the upper end of the lever frame is hinged to the second lever, the counterweight hammer is arranged at one end of the second lever, the flexible body is arranged at the other end of the second lever, the flexible body is connected with the telescopic sleeve through the telescopic sleeve lifting beam, the telescopic sleeve is sleeved on the water inlet of the communicating device, and one end of the opening barb is connected with the telescopic sleeve lifting beam. Compared with the prior art, the counterweight buoyancy tank can automatically realize the closing or opening state of the upstream and downstream brine ponds according to the change of the water level, and has low cost and high automation level.

Description

Automatic throttling communication device

Technical Field

The invention relates to a device for the sea water bittern making industry, in particular to an automatic throttling and communicating device suitable for sea water salt-making bittern pools.

Background

The water level of the existing seawater brine pond for preparing brine is usually controlled by a manual or flashboard type opening device, and the two modes have the defects of high labor intensity and low efficiency; the probability that the later-check flashboard type opening device needs to be maintained is higher, if seawater is not required to be introduced in the evaporation process of the salt pond, the seawater can be further leaked due to aging or failure of the sealing device of the flashboard, the evaporation time is increased again, the intensity and the probability of manual inspection are increased to a greater extent, and therefore the evaporation effect is influenced.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide the automatic throttling communication device with low price and high automation degree.

The invention adopts the following technical scheme:

the utility model provides an automatic festival system intercommunication device, includes the linker, the counter weight flotation tank, the actuating mechanism frame, its characterized in that: the water inlet and the water outlet of the communicating vessel are respectively positioned in two adjacent brine ponds separated by the soil bank, the height of the water inlet and the height of the water outlet are equal, and the bottom of the communicating pipeline corresponding to the water inlet of the communicating vessel is higher than the bottom of the communicating pipeline corresponding to the water outlet of the communicating vessel;

an actuating mechanism frame is arranged above the communicating vessel at the water outlet end, and a closing barb mechanism and a switching-off barb mechanism are respectively arranged on the actuating mechanism frame; the tail end of a closing barb in the closing barb mechanism is connected with one end of a first lever, the front end of the closing barb is connected with a lever pin, and the lever pin is arranged on a second lever; the first lever is hinged on the actuating mechanism frame, the other end of the first lever is positioned above the downward pressing lever pin, a buoyancy tank cross beam is arranged above the counterweight buoyancy tank, a buoyancy tank double-column is arranged on the buoyancy tank cross beam, a closing barb pin, a downward pressing lever pin and an opening gate hook pin are sequentially arranged on the buoyancy tank double-column from top to bottom, a lever frame is arranged on one side of the counterweight buoyancy tank, the upper end of the lever frame is hinged with the second lever, a counterweight hammer is arranged at one end of the second lever, a flexible body is arranged at the other end of the second lever, the flexible body is connected with a telescopic sleeve through a telescopic sleeve lifting beam, the telescopic sleeve is sleeved outside a water inlet of the communicating device, one end of the opening gate barb is connected with the telescopic sleeve lifting beam, the other end of the opening gate barb is arranged on the third lever; the downward pressing lever pin is positioned above the brake-opening barb.

Compared with the prior art, the invention adopting the technical scheme has the advantages that the counterweight buoyancy tanks can automatically realize the closing or opening states of the upstream and downstream brine ponds according to the change of the water level, the cost is low, and the automation degree is high.

The preferred scheme of the invention is as follows:

the lever frame is arranged on the actuating mechanism frame; the actuating mechanism frame is h type structure, and wherein close barb mechanism and be located the highest side top of h type structure, and the barb mechanism that opens the floodgate is located the opposite side highest end of h type structure.

The water inlet of the communicating vessel and the water outlet of the communicating vessel are respectively positioned above the bottom of the pool.

The counterweight buoyancy tank is positioned in the buoyancy tank shaft.

And a sealing ring matched with the telescopic sleeve is arranged on the water outlet of the communicating vessel.

The flexible body adopts a lifting rope structure.

The bottom of the soil reclamation dam is matched with the pipeline structure of the communicating vessel and is arranged in a slope state.

A plurality of mounting holes for mounting the downward pressing lever pins and opening the barb pins are formed in the double upright columns of the buoyancy tank.

Description of the drawings:

fig. 1 is a schematic structural view (on state) of the present invention.

Figure 2 is a top view of the counterweight float and the position of the communicator.

Fig. 3 is a schematic structural diagram of the closed state of the present invention.

Fig. 4 is a schematic view of the connection structure of the counterweight buoyancy tank and the shaft.

Detailed Description

The invention is described with reference to figures 1 and 2, in which: the device comprises an upstream highest liquid level 1, a pool bottom 2, a water inlet 3, a communicating pipeline 4, a water outlet 5, a sealing ring 6, a telescopic sleeve 7, a downstream lowest liquid level 8, a downstream highest liquid level 9, a telescopic sleeve lifting beam 10, a gate opening barb 11, a rope lifting structure 12, an actuating mechanism frame 13, a pressing lever pin 14, a second lever 15, a closing barb pin 16, a first lever 17, a closing barb 18, a lever pin 19, a counterweight hammer 20, a lever frame 21, a floating box double-column 22, a gate opening barb pin 23, a floating box cross beam 24, a counterweight floating box 25, a floating box vertical shaft 26, a third lever 27, a soil reclamation gate 28 and rollers 29.

In this example, the communicating vessel is composed of a communicating pipeline 4 which is obliquely arranged and two water inlet pipes and water outlet pipes which are vertically arranged, and a water inlet 3 on the water inlet pipe and a water outlet 5 on the water outlet pipe are arranged in a horizontal manner.

The water inlet 3 and the water outlet 5 are respectively positioned in two adjacent brine ponds separated by the soil bank 28, the heights of the water inlet 3 and the water outlet 5 are equal, and the bottom of a communicating pipeline 4 corresponding to the water inlet 3 of the communicating vessel is higher than the bottom of a communicating pipeline 4 corresponding to the water outlet 5 of the communicating vessel; the bottom of the reclamation dam 28 is matched with the structure of the communicating pipeline 4 and is arranged in a slope state.

An actuating mechanism frame 13 is arranged above the communicating vessel at the water outlet 5 end, the actuating mechanism frame is of an h-shaped structure, and a closing barb mechanism and a switching-off barb mechanism are respectively arranged on the actuating mechanism frame 13.

The tail end of a closing barb 18 in the closing barb mechanism is connected with one end of a first lever 17, the front end of the closing barb 18 is connected with a lever pin 19, and the lever pin 19 is arranged on a second lever 15. The first lever 17 is hinged on the highest end of the actuating mechanism frame 13, the other end of the first lever 17 is positioned above the lower lever pin 14, the two ends of the buoyancy tank cross beam 24 are respectively provided with a counterweight buoyancy tank 25, and the specifications of the two counterweight buoyancy tanks 25 are consistent. A plurality of rollers 29 are disposed between the counterweight buoyancy tank 25 and the buoyancy tank shaft 26 to reduce friction between the counterweight buoyancy tank 25 and the buoyancy tank shaft 26, and the rollers 29 are mounted on the outer circumferential surface of the counterweight buoyancy tank 25 and correspond to the grooves of the buoyancy tank shaft 26.

A buoyancy tank double-upright-column 22 is arranged on a buoyancy tank cross beam 24, a closing barb pin 16, a pressing lever pin 14 and an opening gate hook pin 23 are sequentially arranged on the buoyancy tank double-upright-column 22 from top to bottom, a lever frame 21 is arranged on one side of a counterweight buoyancy tank 25, the upper end of the lever frame 21 is hinged with a second lever 15, a counterweight hammer 20 is arranged at one end of the second lever 15, a flexible body is arranged at the other end of the second lever 15, the flexible body adopts a lifting rope structure 12, the lifting rope structure 12 is connected with a telescopic sleeve 7 through a telescopic sleeve lifting beam 10, the telescopic sleeve 7 is sleeved outside a water inlet 5 of a communicating device, one end of an opening barb 11 is connected with the telescopic sleeve lifting beam 10, the other end of the opening barb 11 is arranged on a third lever 27, and the third lever 27 is hinged on an; the pin 23 of the opening barb is positioned above the opening barb 11, the pin 14 of the lower lever is positioned above the second lever 15, and the pin 16 of the closing barb is positioned at the topmost end or the highest position of the double upright posts 22 of the floating box.

The lever frame 21 is arranged on the actuating mechanism frame 13; the actuator frame 13 is of an h-shaped structure, wherein the closing barb mechanism is located at the top end of the highest side of the h-shaped structure, and the opening barb mechanism is located at the highest end of the other side of the h-shaped structure.

The water inlet 3 and the water outlet 5 of the communicating vessel are respectively positioned above the pool bottom 5, and the counterweight buoyancy tank 25 is positioned in a buoyancy tank vertical shaft 26.

And a sealing ring 6 matched with the telescopic sleeve 7 is arranged on the water outlet 3 of the communicating vessel. A plurality of mounting holes for mounting the downward pressing lever pins 14 and the opening barb pins 23 are formed in the double upright columns of the buoyancy tank, and the mounting positions of the downward pressing lever pins 14 and the opening barb pins 23 can be adjusted.

The telescopic lifting beam 10 is arranged on the actuating mechanism frame 13, and the lever frame 21 is connected with the actuating mechanism frame 13.

When the device is installed, the upper limit of the water level is kept level with the upper limit mark line of the highest water level of the device according to the actual requirement, the installation is finished, and the execution system of the highest limit of the downstream liquid level is set to be closed: the downstream minimum water level executing system is set to be opened, namely the critical point of the disengagement of the lever pin 19 and the closing barb 18, namely the critical point of the disengagement of the telescopic pipe lifting beam 10 and the opening barb 11, and the position of pressing the lever pin 14 is set, namely the downstream minimum water level, so that the lever pin 14 can be hung on the closing barb 18.

The operation process is specifically opened and closed, before water is injected for the first time, the lever pin 19 is hung on the closing barb 18 manually, the telescopic tube 7 of the water outlet 5 of the communicating device is in a system opening state, along with the rise of the liquid level, the counterweight buoyancy tank 25 rises, the upper surface of the closing barb pin 16 on the buoyancy tank double-column 22 is pushed to the disengaging position of the closing barb 18 when the liquid level is the highest, under the action of the counterweight hammer 20, the second lever 15 is pressed down, the other end of the counterweight hammer lifts the rope lifting structure 12 of the telescopic tube, the telescopic tube 7 cuts off the liquid level, and the communicating system is closed.

Brine is evaporated or discharged, the liquid level is reduced to the low limit, meanwhile, the opening barb pins 23 on the double upright columns 22 of the floating box press the opening barb 11 to be separated from the lifting beam 10 of the telescopic sleeve, the telescopic sleeve 7 slides downwards depending on the self mass, and the communicating system is opened for brine injection. And sequentially returning, starting the system from the liquid level to the low limit, injecting halogen, and closing the system from the liquid level to the high limit to cut off the flow.

The device can adjust the position of the pin on the double upright posts of the buoyancy tank according to the setting of the upper limit and the lower limit of the required liquid level.

Claims (8)

1. The utility model provides an automatic festival system intercommunication device, includes the linker, the counter weight flotation tank, the actuating mechanism frame, its characterized in that: the water inlet and the water outlet of the communicating vessel are respectively positioned in two adjacent brine ponds separated by the soil bank, the height of the water inlet and the height of the water outlet are equal, and the bottom of the communicating pipeline corresponding to the water inlet of the communicating vessel is higher than the bottom of the communicating pipeline corresponding to the water outlet of the communicating vessel;

an actuating mechanism frame is arranged above the communicating vessel at the water outlet end, and a closing barb mechanism and a switching-off barb mechanism are respectively arranged on the actuating mechanism frame; the tail end of a closing barb in the closing barb mechanism is connected with one end of a first lever, the front end of the closing barb is connected with a lever pin, and the lever pin is arranged on a second lever; the first lever is hinged on the actuating mechanism frame, the other end of the first lever is positioned above the lower pressing lever pin, a buoyancy tank cross beam is arranged above the counterweight buoyancy tank, a buoyancy tank double-column is arranged on the buoyancy tank cross beam, a closing barb pin, a lower pressing lever pin and an opening barb pin are sequentially arranged on the buoyancy tank double-column from top to bottom, a lever frame is arranged on one side of the counterweight buoyancy tank, the upper end of the lever frame is hinged with the second lever, a counterweight hammer is arranged at one end of the second lever, a flexible body is arranged at the other end of the second lever, the flexible body is connected with a telescopic sleeve through a telescopic sleeve lifting beam, the telescopic sleeve is sleeved outside a water inlet of the communicating device, one end of the opening barb is connected with the telescopic sleeve lifting beam, the other end of the opening barb is arranged on the third lever, and the third; the pin of the opening barb is positioned above the opening barb.

2. The self-restraining communication device of claim 1 wherein the lever bracket is mounted to the actuator frame; the actuating mechanism frame is h type structure, and wherein close barb mechanism and be located the highest side top of h type structure, and the barb mechanism that opens the floodgate is located the opposite side highest end of h type structure.

3. The self-restraining communication device of claim 1 wherein the communicator inlet and the communicator outlet are each located above the tank floor.

4. The self-restraining communication device of claim 1, wherein a weighted buoyancy tank is located within the buoyancy tank shaft.

5. The self-check communication device according to claim 1, wherein the outlet of the communication device is provided with a sealing ring matched with the telescopic tube.

6. The self-restraining communication device of claim 1, wherein the flexible body is a rope-lifting structure.

7. The apparatus according to claim 1, wherein the bottom of the coffer dam is disposed in a slope in accordance with the structure of the communication pipe.

8. The self-restraining communication device according to claim 1, wherein the buoyancy tank double-column is provided with a plurality of mounting holes for mounting a press-down lever pin and an opening barb pin.

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