CN215521159U - Hydraulic water delivery machine - Google Patents

Abstract

The utility model discloses a hydraulic water delivery machine, which comprises a first cylinder body and a second cylinder body, wherein the first cylinder body and the second cylinder body are respectively communicated with the two ends of a U-shaped pipe, the bottom of the U-shaped pipe is provided with a water outlet, the top of the first cylinder body and the top of the second cylinder body are respectively provided with a first hydraulic component and a second hydraulic component, and the top of the first cylinder body and the top of the second cylinder body are respectively provided with a water inlet. According to the utility model, after water flow enters the first cylinder body and the second cylinder body from the water inlet respectively, when the first hydraulic assembly is started to discharge water through hydraulic pressure, the second hydraulic assembly supplies water, when the first hydraulic assembly supplies water, the second hydraulic assembly discharges water, the two hydraulic cylinder groups work alternately, so that an uninterrupted water delivery process is realized, the working efficiency is improved, and meanwhile, the hydraulic cylinders are adopted for delivering water, so that the pressure is high, and the water delivery efficiency is high.

Description

Hydraulic water delivery machine

Technical Field

The utility model belongs to the technical field of water delivery facilities, and particularly belongs to a hydraulic water delivery machine.

Background

The water delivery device is used for delivering water, and water in one place is delivered to another place through the water delivery device.

However, the existing water delivery equipment generally needs to pump water into the water tank first and then can be transmitted out of the water tank, so that the uninterrupted water delivery process cannot be realized, and the working efficiency is low.

As application number CN 201520235348.9's patent application week, the disclosed water delivery device with stationary flow output, the middle water storage tank of connecting including centrifugal pump and centrifugal pump body water inlet, the delivery port end of the centrifugal pump body is connected with an outer sleeve and sets up the taper fairing in outer sleeve central axis department, there is a plurality of fairing along radial equipartition between outer sleeve and the taper fairing, be equipped with the delivery port of being connected with the centrifugal pump water inlet on the bottom of middle water storage tank, the bottom of middle water storage tank is equipped with and arranges the water inlet of the inlet tube intercommunication of water source week in with the mouth of pipe, still be equipped with on the bottom of middle water storage tank and be used for the maintenance outlet, be equipped with the check valve of one-way orientation water storage tank in the middle of the flowing direction on the inlet tube.

The water delivery device disclosed in the patent needs to pump water into the intermediate water storage tank and then output the water from the intermediate water storage tank during operation, so that the uninterrupted water delivery process cannot be realized, and the working efficiency is lower.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problems in the prior art, the present invention provides a hydraulic water delivery machine

The utility model adopts the following technical scheme:

the utility model provides a hydraulic water delivery machine, includes first cylinder body and second cylinder body, the bottom of first cylinder body and second cylinder body communicates with the both ends of U type pipe respectively, the bottom of U type pipe is provided with the delivery port, and the top of first cylinder body and second cylinder body is provided with first hydraulic assembly and second hydraulic assembly respectively, the top of first cylinder body and the top of second cylinder body all are provided with the water inlet.

Adopt above-mentioned scheme, the water inlet that is located first cylinder body and second cylinder body all passes through pipe connection in outside water source, rivers get into first cylinder body and second cylinder body back respectively from the water inlet, when first hydraulic component starts to go out water through hydraulic pressure, the second hydraulic component intake this moment, when first hydraulic component intakes, the second hydraulic component goes out water, two pneumatic cylinder group alternate work, realize incessant water delivery process, and the work efficiency is improved, adopt the pneumatic cylinder to carry out water delivery simultaneously, and pressure is big, and water delivery efficiency is high.

Preferably, first hydraulic assembly includes first pneumatic cylinder, first piston rod and first support, the inside of first cylinder body is provided with first valve plug, first valve plug is located the bottom of first cylinder body, first support sets firmly the top at first valve plug, the one end of first piston rod is passed first support, the other end of first piston rod with first pneumatic cylinder is connected, first pneumatic cylinder sets firmly the top at first cylinder body, and the tip that first piston rod passed first support is provided with the second valve plug, be provided with first overflow mouth on the first valve plug, the second valve plug is located directly over first overflow mouth. By adopting the preferred scheme, the utility model provides a first hydraulic assembly, which comprises a first hydraulic cylinder, a first piston rod and a first bracket for fixing the first piston rod, the interior of a first cylinder body is improved, a first valve plug is arranged at the bottom of the first cylinder body, a first overflow port is arranged on the first valve plug, when water flows in, the first hydraulic cylinder is started to drive the first piston rod to lift upwards, in the process of moving the first piston rod upwards, the top of the second valve plug can drive the top of the first bracket and the first valve plug to move upwards, the water flows into the cylinder body from the second valve plug and the first overflow port of the first valve plug, after the first cylinder body is filled with water, the first hydraulic rod is started again, the first piston rod moves downwards, so that the second valve plug is moved to the position of the first overflow port to drive the first valve plug to press downwards to convey the water, and the flowing pressure of the water is improved, the efficiency of water delivery is increased.

Preferably, a fifth valve plug is arranged between the first hydraulic cylinder and the first piston rod. Adopt this preferred scheme, set up the fifth valve plug between first pneumatic cylinder and the first piston rod, fix first piston rod.

Preferably, the second hydraulic component includes second pneumatic cylinder, second piston rod and second support, the inside of second cylinder body is provided with the third valve stopper, and the third valve stopper is located the upper portion of second cylinder body, the second support sets firmly the top at the third valve stopper, the one end of second piston rod is passed the second support, the other end of second piston rod with the second pneumatic cylinder is connected, the second pneumatic cylinder sets firmly the top at the second cylinder body, and the tip that the second piston rod passed the second support is provided with the fourth valve stopper, be provided with the second overflow mouth on the third valve stopper, the fourth valve stopper is located directly over the second overflow mouth. By adopting the preferred scheme, the utility model provides a second hydraulic component, which comprises a second hydraulic cylinder, a second piston rod and a second bracket for fixing the second piston rod, the interior of the second cylinder body is improved, a third valve plug is arranged at the top of the first cylinder body, a second overflow port is arranged on the third valve plug, when water flows into the top of the second cylinder body, the second hydraulic cylinder is started to drive the second piston rod to lift up, in the process of moving the second piston rod upwards, the top of the fourth valve plug can drive the second bracket and the third valve plug to move upwards, the water flows into the second cylinder body from the second overflow ports of the fourth valve plug and the third valve plug, after the second cylinder body is filled with water, the second hydraulic cylinder is started again, the second piston rod is pressed downwards, so that the fourth valve plug is positioned at the second overflow port to drive the third valve plug to press downwards to convey the water, and the flowing pressure of the water flow is improved, the water delivery efficiency is increased; the second hydraulic component and the first hydraulic component are alternately arranged and are conveyed in turn, so that the water conveying efficiency is improved.

Preferably, a water outlet pipe is arranged at the bottom of the U-shaped pipe, one end of the water outlet pipe is communicated with the bottom of the U-shaped pipe, the other end of the water outlet pipe is provided with the water outlet, and a pressure reducer is arranged in the middle of the water outlet pipe. Adopt this preferred scheme, set up the pressure reducer in the middle part of outlet pipe, the flow of control rivers regulates and control the pressure of rivers, prevents that rivers pressure intensity is too big to cause the damage to follow-up equipment.

Preferably, the two ends of the U-shaped pipe, which are respectively connected with the first cylinder body and the second cylinder body, are provided with self-closing valves. By adopting the preferred scheme, the two ends of the U-shaped pipe are respectively provided with the self-closing valves, and the water flow in the first cylinder body and the water flow in the second cylinder body are respectively controlled.

In summary, due to the adoption of the technical scheme, the utility model has the beneficial effects that:

1. according to the utility model, water inlets of the first cylinder body and the second cylinder body are connected with an external water source through pipelines, after water flow enters the first cylinder body and the second cylinder body from the water inlets respectively, the first hydraulic assembly starts to discharge water through hydraulic pressure, the second hydraulic assembly supplies water at the moment, when the first hydraulic assembly supplies water, the second hydraulic assembly discharges water, the two hydraulic cylinder groups work alternately, the uninterrupted water delivery process is realized, the working efficiency is improved, and meanwhile, the hydraulic cylinders are adopted for water delivery, so that the pressure is high, and the water delivery efficiency is high.

2. The utility model provides a first hydraulic assembly, which comprises a first hydraulic cylinder, a first piston rod and a first bracket for fixing the first piston rod, the interior of the first cylinder body is improved, a first valve plug is arranged at the bottom of the first cylinder body, a first overflow port is arranged on the first valve plug, when water flows into the water tank, the first hydraulic cylinder is started to drive the first piston rod to lift upwards, in the process of moving the first piston rod upwards, the top of the second valve plug drives the top of the first bracket and the first valve plug to move upwards, water flows into the cylinder body from the second valve plug and the first overflow port of the first valve plug, after the first cylinder body is filled with water, the first hydraulic rod is started again, the first piston rod moves downwards, make second valve plug to first overflow mouth position department, drive first valve plug and push down, push down the transport to water, improved the pressure that rivers flow, increased the efficiency of water delivery.

3. The utility model provides a second hydraulic component, which comprises a second hydraulic cylinder, a second piston rod and a second bracket for fixing the second piston rod, the interior of the second cylinder body is improved, a third valve plug is arranged at the top of the first cylinder body, a second overflow port is arranged on the third valve plug, when water flows into the top of the second cylinder body, the second hydraulic cylinder is started to drive the second piston rod to lift upwards, in the process of moving the second piston rod upwards, the top of the fourth valve plug drives the second bracket and the third valve plug to move upwards, water flows into the second cylinder body from the second overflow port of the fourth valve plug and the third valve plug, after the second cylinder body is filled with water, the second hydraulic cylinder is started again, the second piston rod is pressed downwards, the fourth valve plug is driven to press downwards to convey water from the fourth valve plug to the second overflow port, so that the flowing pressure of water flow is improved, and the water conveying efficiency is improved; the second hydraulic components and the first hydraulic components are alternately arranged and conveyed in turn, so that the water conveying efficiency is improved; the pressure reducer is arranged in the middle of the water outlet pipe, the flow of water flow is controlled, the pressure of the water flow is regulated and controlled, and damage to subsequent equipment due to overlarge pressure of the water flow is prevented. And self-closing valves are arranged at two ends of the U-shaped pipe and respectively control water flow in the first cylinder body and the second cylinder body.

Drawings

The utility model will now be described, by way of example, with reference to the accompanying drawings, in which:

fig. 1 is a schematic view of the internal structure of the present invention.

Fig. 2 is a schematic view of the construction of the pressure reducer of the present invention.

Reference numerals: 1-a first cylinder; 2-a second cylinder; 3-U-shaped pipe; 4-water outlet; 5-water inlet; 6-a first hydraulic cylinder; 7-a first piston rod; 8-a first scaffold; 9-a first valve plug; 10-a second valve plug; 11-a fifth valve plug; 12-a pressure reducer; 13-self-closing valve.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

The present invention is described in detail below with reference to fig. 1-2.

The first embodiment is as follows:

the utility model provides a hydraulic water delivery machine, includes first cylinder body 1, second cylinder body 2 and U type pipe 3, first cylinder body 1 and second cylinder body 2, the bottom of first cylinder body 1 and second cylinder body 2 communicates with the both ends of U type pipe 3 respectively, the bottom of U type pipe 3 is provided with delivery port 4, and the top of first cylinder body 1 and second cylinder body 2 is provided with first hydraulic assembly and second hydraulic assembly respectively, the top of first cylinder body 1 and the top of second cylinder body 2 all are provided with water inlet 5.

First hydraulic assembly includes first pneumatic cylinder 6, first piston rod 7 and first support 8, the inside of first cylinder body 1 is provided with first valve plug 9, first valve plug 9 is located the bottom of first cylinder body 1, first support 8 sets firmly the top at first valve plug 9, the one end of first piston rod 7 is passed first support 8, the other end of first piston rod 7 with first pneumatic cylinder 6 is connected, first pneumatic cylinder 6 sets firmly at the top of first cylinder body 1, and the tip that first piston rod 7 passed first support 8 is provided with second valve plug 10, be provided with first overflow mouth on the first valve plug 9, second valve plug 10 is located directly over first overflow mouth.

The second hydraulic component comprises a second hydraulic cylinder, a second piston rod and a second support, a third valve plug is arranged inside the second cylinder body 2, the third valve plug is located at the top of the second cylinder body 2, the second support is fixedly arranged above the third valve plug, one end of the second piston rod penetrates through the second support, the other end of the second piston rod is connected with the second hydraulic cylinder, the second hydraulic cylinder is fixedly arranged at the top of the second cylinder body, a fourth valve plug is arranged at the end, penetrating through the second support, of the second piston rod, a second overflow port is formed in the third valve plug, and the fourth valve plug is located right above the second overflow port.

And self-closing valves 13 are arranged at two ends of the U-shaped pipe 3, which are respectively connected with the first cylinder body 1 and the second cylinder body 2.

In the first embodiment, as shown in fig. 1, the utility model comprises a first cylinder 1 and a second cylinder 2 which are arranged in pair, the bottoms of the two cylinders are communicated through a U-shaped pipe 3, the top of the first cylinder 1 and the top of the second cylinder 2 are both provided with a water inlet 5, water to be transported enters from the water inlet 5 and flows out from a water outlet 4 at the bottom of the U-shaped pipe 3, in order to improve the water transporting efficiency of the water, a first hydraulic assembly and a second hydraulic assembly are respectively arranged on the first cylinder 1 and the second cylinder 2, hydraulic pressure is used as power to realize ultra-long distance transportation, the first hydraulic assembly comprises a first hydraulic cylinder 6, a first piston rod 7 and a first bracket 8, a first valve plug 9 is arranged on the inner side of the bottom of the first cylinder 1, the first valve plug 9 is arranged around the first cylinder 1, a first overflow port is arranged in the middle of the first cylinder, a first bracket 8 is arranged on the first valve plug 9, the first bracket 8 is used for fixing the first piston rod 7, make first piston rod 7 can keep reciprocating linear motion, make first piston rod simultaneously when reciprocating linear motion, can drive second support and first valve plug and do reciprocating linear motion together, the other end of first piston rod 7 is located first pneumatic cylinder 6, first pneumatic cylinder 6 can provide the power of first piston rod 7, the theory of operation and the structure of second hydraulic component and first hydraulic component, the difference lies in the top that second hydraulic component installed at second cylinder body 2.

As shown in fig. 1, which is a schematic view of the working state of the present invention, this figure is a schematic view of the second cylinder 2 starting to deliver water when water in the first cylinder is just delivered (or begins to fill water), when the present invention is in water feeding and delivering operation, the second cylinder 1 starts to feed water (at this time, the first cylinder 1 is performing a return action, i.e., the first piston rod 7 is lifted up), at this time, the self-closing valve 13 of the second cylinder 2 is closed, water flows into the second cylinder 2 from the second overflow port of the fourth valve plug and the third valve plug, after the second cylinder 2 is full of water, the second hydraulic cylinder is started, the second piston rod is pressed down, so that the fourth valve plug is at the position of the second overflow port to drive the third valve plug to press down water, the water impacts on the self-closing valve 13, the self-closing valve 13 is opened by the water pressure, the water delivery is completed, the second hydraulic cylinder is started to drive the second piston rod to lift up, in the process that the second piston rod moves upwards, the top of the fourth valve plug can drive the second support and the third valve plug to move upwards, meanwhile, the first cylinder body 1 performs opposite actions with the second cylinder body 2, namely, the first cylinder body 1 and the second cylinder body 2 act alternately, water is conveyed in turn, and the water conveying efficiency is improved.

The following examples are all preferably obtained on the basis of example one.

Example two:

a fifth valve plug 11 is arranged between the first hydraulic cylinder 6 and the first piston rod 7.

The second embodiment is further improved on the basis of the first embodiment, and a fifth valve plug 11 is arranged to fix the first piston rod 7, so that the first piston rod 7 can reciprocate linearly; the second piston rod and the second hydraulic cylinder can be provided with corresponding valve plugs in the same way.

Example three:

the bottom of U type pipe 3 is provided with the outlet pipe, the one end of outlet pipe and the bottom of U type pipe 3 intercommunication, the other end of outlet pipe sets up delivery port 4, the middle part of outlet pipe is provided with pressure reducer 12.

The third embodiment is further improved on the basis of the first embodiment, the pressure reducer 12 is arranged at the water outlet 1, the pressure reducer 12 is arranged in the middle of the water outlet pipe, the flow of water flow is controlled, the pressure of the water flow is regulated and controlled, and damage to subsequent equipment due to overlarge pressure of the water flow is prevented.

Example four:

and self-closing valves 13 are arranged at two ends of the U-shaped pipe 3, which are respectively connected with the first cylinder body 1 and the second cylinder body 2.

The fourth embodiment is further improved on the basis of the first embodiment, and self-closing valves are respectively arranged at two ends of the U-shaped pipe 3, so that the conveying of water flow is automatically controlled.

The above-mentioned embodiments only express the specific embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present application. It should be noted that, for those skilled in the art, without departing from the technical idea of the present application, several changes and modifications can be made, which are all within the protection scope of the present application.

Claims (6)

1. The hydraulic water delivery machine is characterized by comprising a first cylinder body (1), a second cylinder body (2) and U-shaped pipes (3), wherein the first cylinder body (1) and the second cylinder body (2) are arranged, the bottoms of the first cylinder body (1) and the second cylinder body (2) are respectively communicated with the two ends of the U-shaped pipes (3), a water outlet (4) is formed in the bottom of the U-shaped pipes (3), a first hydraulic assembly and a second hydraulic assembly are respectively arranged at the tops of the first cylinder body (1) and the second cylinder body (2), and a water inlet (5) is formed in the top of the first cylinder body (1) and the top of the second cylinder body (2).

2. The hydraulic water delivery machine of claim 1, wherein: first hydraulic assembly includes first pneumatic cylinder (6), first piston rod (7) and first support (8), the inside of first cylinder body (1) is provided with first valve plug (9), first valve plug (9) are located the bottom of first cylinder body (1), first support (8) set firmly in the top of first valve plug (9), the one end of first piston rod (7) is passed first support (8), the other end of first piston rod (7) with first pneumatic cylinder (6) are connected, first pneumatic cylinder (6) set firmly at the top of first cylinder body (1), and the tip that first piston rod (7) passed first support (8) is provided with second valve plug (10), be provided with first overflow mouth on first valve plug (9), second valve plug (10) are located directly over first overflow mouth.

3. The hydraulic water delivery machine of claim 2, wherein: and a fifth valve plug (11) is arranged between the first hydraulic cylinder (6) and the first piston rod (7).

4. The hydraulic water delivery machine of claim 2, wherein: the second hydraulic component comprises a second hydraulic cylinder, a second piston rod and a second support, a third valve plug is arranged inside the second cylinder body (2), the third valve plug is located on the upper portion of the second cylinder body (2), the second support is fixedly arranged above the third valve plug, one end of the second piston rod penetrates through the second support, the other end of the second piston rod is connected with the second hydraulic cylinder, the second hydraulic cylinder is fixedly arranged at the top of the second cylinder body, a fourth valve plug is arranged at the end portion, penetrating through the second support, of the second piston rod, a second overflow port is formed in the third valve plug, and the fourth valve plug is located right above the second overflow port.

5. The hydraulic water delivery machine of claim 1, wherein: the bottom of U type pipe (3) is provided with the outlet pipe, the one end of outlet pipe and the bottom intercommunication of U type pipe (3), the other end of outlet pipe sets up delivery port (4), the middle part of outlet pipe is provided with pressure reducer (12).

6. The hydraulic water delivery machine of claim 1, wherein: and self-closing valves (13) are arranged at two ends of the U-shaped pipe (3) which are respectively connected with the first cylinder body (1) and the second cylinder body (2).

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