CN208651109U - A kind of multi-purpose water delivery mechanism of high pressure two-chamber - Google Patents

Abstract

The utility model discloses a kind of high pressure two-chambers to be mostly used water delivery mechanism, belongs to civilian water delivery machinery field；It includes transmission shaft II, gear frame, bearing I, transmission shaft I, intake antrum, ball head universal, piston rod, piston, water inlet, motor, flange-face coupling, cabinet, water outlet, water transport channel, water chamber；The principle that utility model device has used reciprocating motion of the pistons to form pressure difference realizes water suction and pressure water, while check valve control controlling flow direction being cooperated to realize that high-pressure water delivery works under various circumstances, meets the needs of real life production；Utility model device is easy to operate, suitable for the water delivery operation under various environment.

Description

A kind of multi-purpose water delivery mechanism of high pressure two-chamber

Technical field

The utility model relates to a kind of high pressure two-chambers to be mostly used water delivery mechanism, belong to civilian water delivery machinery field.

Background technique

In the Northwest in China, since rainfall is few, geographical environment arid, most parts of the north all suffer from dampening money The sternness of source scarcity is lived bad border, is all lived using well and agricultural irrigation in the most of areas in the north, however in recent years by In the felling of forest and the destruction of Ecological environment so that water resource utility model is serious, initial detention reduced capability, the depth of well is not Disconnected increase extracts domestic water to residents and brings great difficulty, secondly in the southern area in China, due to precipitation Greatly, lake is numerous, so often can be more than that warning line even breaches a dyke there is a situation where water level when rainy season set, to the people that promptly speedily carries out rescue work Member brings very big difficulty.

Present existing water pump mechanism is revolved come work by impeller high speed using centrifugal principle and atmospheric pressure difference Turn, drives liquid to rotate together, under the influence of centrifugal force, fly away from impeller and project outward.After liquid discharge, at blade center Vacuum low-pressure area is formed, the liquid in liquid pool flows into pump under the action of the atmospheric pressure of pond face, and through suction line, and water pump is all It is that an external water pipe draws water to realize, the working efficiency for so allowing for water pump is greatly reduced, and well depth is continuous Increase, this makes original old-fashioned water pump be no longer able to meet the requirement of working environment, moreover existing water pump can not go deep into To underwater operation, work can only be maintained by way of external power supply on the ground, therefore a kind of high pressure two-chamber is mostly used water conveying machine The utility model of structure just seems extremely urgent.

Summary of the invention

To overcome the shortcomings of that pump head is small in the prior art, low efficiency and cannot be deep into underwater operation, this is practical new Type provides a kind of multi-purpose water delivery mechanism of the high pressure two-chamber different from raw water pump technical principle, and the water delivery mechanism lift is bigger, efficiency It is higher, it can work under complex environment.

Utility model device includes transmission shaft II, gear frame, bearing I, transmission shaft I, intake antrum, ball head universal, work Stopper rod, piston, water inlet, motor, flange-face coupling, cabinet, water outlet, water transport channel, water chamber；Cabinet is hollow sealing Case, lower box are provided with intake antrum and water chamber, and motor is fixed on cabinet internal upper part, and motor output shaft passes through flange-face coupling It is connect with the short axle of I upper end of transmission shaft, the long axis of I lower end of transmission shaft is arranged in gear frame by two bearings II, transmission shaft II is arranged in gear frame bottom, and the long axis of itself and transmission shaft I is connected by key, and the axis and bearing I of II bottom of transmission shaft are connected, Bearing I is fixed in cabinet by bearing block, and between intake antrum and water chamber；Gear frame both ends are respectively fixed with one Ball head universal, piston rod one end are connect with ball head universal, and the other end is connect by revolute pair with piston, 2 piston difference It is arranged in intake antrum and water chamber and is fitted close with it, water inlet is provided on intake antrum, water outlet is provided on water chamber, it is single It is arranged on water outlet to valve II, is connected between intake antrum and water chamber by water transport channel, is provided in water transport channel unidirectional Valve I is provided with check valve III on water inlet, and motor connects to power supply.

It is provided with sealing rubber ring, sealing rubber ring and intake antrum on the piston or water outlet cavity wall is fitted close.

The gear frame, ball head universal are connected through a screw thread between piston rod.

In the hollow tube, hollow tube is fixed on cabinet by rope lid sealing for the electric wire setting that the motor connects to power supply On, hollow tube can be soft pipe, be used for waterproof.

Handle is provided on the cabinet.

I permission water of the check valve flows into water chamber from intake antrum, and II permission water of check valve is flowed to out of water chamber Outside cabinet, III permission water of check valve is to flow into intake antrum from cabinet.

The course of work of the utility model is:

After electric motor starting, transmission shaft I is driven to rotate by flange-face coupling, the rotary motion of transmission shaft I and transmission shaft II Two expenditure framves of gear frame are made to swing up and down (therefore gear frame and piston rod ball head universal within the scope of certain space Connection), the expenditure frame of the gear frame swung up and down can be pumped by piston rod band piston；When in intake antrum Piston upwards when (while the piston in water chamber is moving downward), intracavitary and external formation pressure difference, thus outer In water inlet inspiration intake antrum of the water in portion by being equipped with check valve III (while the water in water chamber is by being equipped with check valve II Water outlet is forced out), when piston moves downward in intake antrum (while the piston in water chamber is moving upwards), water inlet The water of chamber is pressed into (sucking) water chamber by the water transport channel equipped with check valve I, and so on can be by outside water outlet The water pipe connect it is lasting deliver water to ground.

The utility model, which has the advantages that, is:

(1) water delivery work can be completed in complex environment and deep-well, it is low in cost, it is suitable for home use；

(2) high pressure two-chamber water delivery device has used reciprocating motion of the pistons to form the principle of pressure difference, and securely and reliably, structure is simple Single, practicability is good；

(3) lift is big, high-efficient, saves working time.

Utility model device realizes that the piston of two chambers makees reciprocal up and down motion, to realize water suction and pressure water, matches simultaneously It closes check valve control controlling flow direction and realizes that high-pressure water delivery works under varying environment (such as deep-well, shoal, reservoir), meet practical The needs of life production.

Detailed description of the invention

Fig. 1 is utility model device schematic diagram of internal structure；

Fig. 2 is utility model device structural schematic diagram；

Fig. 3 is the utility model gear frame structural schematic diagram；

Fig. 4 is I structural schematic diagram of the utility model transmission shaft；

Fig. 5 is II structural schematic diagram of the utility model transmission shaft；

Fig. 6 is II structural schematic diagram of the utility model transmission shaft；

Fig. 7 is gear frame and transmission shaft I, II schematic diagram of transmission shaft；

Fig. 8 is the structural schematic diagram of the utility model piston rod and piston；

Fig. 9 is the utility model ball head universal structural schematic diagram；

Figure 10 is rope lid and hollow tubular structure schematic diagram；

Figure 11 is utility model device use state diagram；

Figure 12 is utility model device use state diagram；

In figure: 1- transmission shaft II, 2- gear frame, 3- bearing I, 4- transmission shaft I, 5- intake antrum, 6- ball head universal, 7- are living Stopper rod, 8- check valve I, 9- piston, 10- water inlet, 11- motor, 12- flange-face coupling, 13- cabinet, 14- screw, 15- are unidirectional Valve II, 16- check valve III, 17- water outlet, 18- water transport channel, 19- sealing rubber ring, 20- water chamber, 21- bearing block, 22- are short Axis, 23- long axis, 24- expenditure frame, 25- pedestal, 26- bearing II, 27- through-hole, the axis of 28- transmission shaft II, the hole 29-, 30- are hollow Pipe, 31- rope lid, 32- electric wire.

Specific embodiment

The utility model is described in further detail below by drawings and examples, but scope of protection of the utility model It is not limited to the content.

Embodiment 1: as shown in figs 1-9, this high pressure two-chamber water delivery device includes transmission shaft II 1, gear frame 2, bearing I 3, passes Moving axis I 4, intake antrum 5, ball head universal 6, piston rod 7, piston 9, water inlet 10, motor 11, flange-face coupling 12, cabinet 13, Water outlet 17, water transport channel 18, water chamber 20；Cabinet 13 is hollow sealing case, and 13 lower part of cabinet is provided with intake antrum 5 and water outlet Chamber 20, motor 11 are fixed on 13 internal upper part of cabinet by screw 14, and 11 output shaft of motor passes through flange-face coupling 12 and transmission shaft I The short axle 22 of 4 upper ends connects, and gear frame 2 includes that 25,2 expenditure framves of 2 expenditure framves 24 and pedestal are symmetrically fixed on pedestal top, Through-hole 27 is provided at base central, the through-hole 27 of pedestal 25 is arranged in by two bearings II 26 for the long axis 23 of I 4 lower end of transmission shaft Interior (long axis 23 and II 26 inner ring of bearing are connected, and the outer ring of bearing II 26 is fixed in the through-hole 27 of pedestal 25), transmission shaft II 1 is set It sets in 2 bottom of gear frame, and the long axis 23 of itself and transmission shaft I 4 is connected by key, i.e., 23 bottom end of long axis is arranged in transmission shaft II 1 On hole 29 in and be keyed, the axis 28 of transmission shaft II 1 and bearing I 3 are connected, and bearing I 3 is fixed on cabinet 13 by bearing block 21 It is interior, and between intake antrum 5 and water chamber 20；A ball head universal is respectively fixed on 2 expenditure framves 24 of gear frame 2 6,7 one end of piston rod is connect with ball head universal 6, and the other end is connect by revolute pair with piston 9, and 2 pistons 9 are separately positioned on It is fitted close in intake antrum 5 and water chamber 20 and with it, water inlet 10 is provided on intake antrum 5, is provided with water outlet on water chamber 20 17, check valve II 15 is arranged on water outlet 17, is connected between intake antrum 5 and water chamber 20 by water transport channel 18, and water delivery is logical It is provided with check valve I 8 in road 18, check valve III 16 is provided on water inlet 10, motor is connected to power supply by electric wire 32.

Embodiment 2: as shown in Fig. 1,8,9,10, with embodiment 1, difference is to be provided on piston 9 the present embodiment structure Sealing rubber ring 19, sealing rubber ring 19 and intake antrum 5 or 20 inner wall of water chamber are fitted close, gear frame 2, ball head universal 6, piston It is connected through a screw thread between bar 7, handle is provided on cabinet 13, the hollow of softness is arranged in the electric wire 32 that motor connects to power supply In pipe 30, hollow tube 30 is fixed on cabinet 13 by the rope sealing of lid 31.

As shown in Figure 11,12, in the present apparatus being placed under the water level of deep-well or reservoir, after motor 11 starts, lead to Crossing flange-face coupling 12 drives transmission shaft I 4 to rotate, and the rotary motion of transmission shaft I 4 and transmission shaft II 1 makes two branch of gear frame 2 Frame 24 swings up and down (therefore gear frame and piston rod 7 are connected with ball head universal 6), the upper bottom within the scope of certain space out The expenditure frame of dynamic gear frame can be pumped by piston rod band piston 9；When the piston in intake antrum 5 is upward When movement (while the piston in water chamber 20 is moving downward), intracavitary and external formation pressure difference, so that external water is led to Cross in the 10 inspiration intake antrum of water inlet equipped with check valve III 16 (while the water in water chamber passes through going out equipped with check valve II 15 The mouth of a river 17 is forced out), when piston moves downward in intake antrum (while the piston in water chamber is moving upwards), water inlet The water of chamber is pressed into (sucking) water chamber 20 by the water transport channel 18 equipped with check valve I 8, can and so on pass through water outlet Mouthfuls 17 external water-supply-pipes it is lasting deliver water to ground.

Claims (6)

1. a kind of high pressure two-chamber is mostly used water delivery mechanism, it is characterised in that: including transmission shaft II (1), gear frame (2), bearing I (3), Transmission shaft I (4), intake antrum (5), ball head universal (6), piston rod (7), piston (9), water inlet (10), motor (11), flange Shaft coupling (12), cabinet (13), water outlet (17), water transport channel (18), water chamber (20)；Cabinet (13) is hollow sealing case, Cabinet (13) lower part is provided with intake antrum (5) and water chamber (20), and motor (11) is fixed on cabinet (13) internal upper part, motor (11) Output shaft is connect by flange-face coupling (12) with the short axle of transmission shaft I (4) upper end, and the long axis of transmission shaft I (4) lower end passes through two A bearing II (26) setting is in gear frame (2), and transmission shaft II (1) is arranged in gear frame (2) bottom, and itself and transmission shaft I (4) Long axis be connected by key, the axis of transmission shaft II (1) bottom and bearing I (3) are connected, and bearing I (3) passes through bearing block (21) fixation In cabinet (13), and between intake antrum (5) and water chamber (20)；Gear frame (2) both ends are respectively fixed with a bulb Universal joint (6), piston rod (7) one end are connect with ball head universal (6), and the other end is connect by revolute pair with piston (9), and 2 Piston (9) is separately positioned in intake antrum (5) and water chamber (20) and is fitted close with it, and intake antrum is provided with water inlet on (5) (10), be provided with water outlet (17) on water chamber (20), check valve II (15) be arranged on water outlet (17), intake antrum (5) and out It is connected between water cavity (20) by water transport channel (18), is provided with check valve I (8) in water transport channel (18), on water inlet (10) It is provided with check valve III (16), motor connects to power supply.

2. high pressure two-chamber according to claim 1 is mostly used water delivery mechanism, it is characterised in that: piston is provided with sealing on (9) Cushion rubber (19), sealing rubber ring (19) and intake antrum (5) or water chamber (20) inner wall are fitted close.

3. high pressure two-chamber according to claim 1 is mostly used water delivery mechanism, it is characterised in that: gear frame (2), ball head universal (6), it is connected through a screw thread between piston rod (7).

4. high pressure two-chamber according to claim 1 is mostly used water delivery mechanism, it is characterised in that: gear frame (2) includes 2 expenditures Frame (24) and pedestal (25), 2 expenditure framves are symmetrically fixed on pedestal top, through-hole (27) are provided at base central, bulb is universal Section is fixed on expenditure frame, and the long axis of transmission shaft I (4) lower end is arranged in the through-hole of pedestal by bearing II.

5. high pressure two-chamber according to claim 1 is mostly used water delivery mechanism, it is characterised in that: be provided with and mention on cabinet (13) Hand.

6. high pressure two-chamber according to claim 1 is mostly used water delivery mechanism, it is characterised in that: the electric wire that motor connects to power supply In the hollow tube, hollow tube is fixed on cabinet (13) by rope lid (31) sealing for setting.