CN202250815U - Screw pump - Google Patents

Abstract

The utility model discloses a screw pump, which comprises a pump shell, end covers packaged on two sides of the pump shell, a bearing block disposed in the pump shell, a bearing fixedly connected on the bearing block, a driving spiral gear and a driven spiral gear, wherein the driving spiral gear and the driven spiral gear are located in the bearing. The screw pump is characterized in that the driving spiral gear and the driven spiral gear both adopt a spiral gear mechanism of spiral shape. A small section of arc which is tangential to the side of each spiral gear is reserved at the tooth crest of the gear, both the tooth crest and the tooth root of each spiral gear are arc-shaped, the arc of the tooth crest is matched with that of the tooth root, no clearance exists, bottom clearance is zero, and entrap phenomenon does not occur. An oil storage tank is arranged on the side face of the driving spiral gear and the side face of the driven spiral gear. The screw pump has low noise, low vibration and low energy consumption, completely avoids the entrap phenomenon of a traditional gear pump, reduces friction of the gears and the bearing, and prolongs service life of the gear pump.

Description

Screw pump

Technical field

The utility model relates to the hydraulic system dynamical element, particularly a kind of screw pump.

Background technique

The shortcoming that the gear pump of using in the hydraulic system in the industrial machinery at present exists is that flow output ripple property is big, noise is big, and working life is short.

The problem that present gear pump exists is a pocketed oil, and entrap phenomenon is meant between the gear teeth of two pairs of engagements and produces a choke-out ground volume, is called the pocketed oil district, and the fluid of staying between these two pairs of gear teeth is trapped in the volume of this sealing.

Because the fluid compressibility is very little, and the pocketed oil district is again a sealed volume, so after trapped fluid is squeezed; Just from the slit of part matching surface, extrude by force; Make gear and bearing receive very big additional load, reduced the life-span of bearing, produce power loss simultaneously; Also can make oily temperature rise, influence the normal working temperature of system.When pocketed oil district volume became big, the pocketed oil district formed parital vacuum, and the gas in the fluid is separated out, and fluid gasification generation bubble, got into hydraulic system, because of its vibration and noise.

The method that tradition solves the gear pump pocketed oil is to utilize the structural measure of compensating groove to weaken its adverse effect.Forward and backward covering as at pump all is provided with two compensating grooves, and one of them communicates with the oil-discharging cavity of pump, and another communicates with the oil sucting cavity of pump.When protected oil volume diminishes, protected oil volume is communicated with the compensating groove that leads to oil-discharging cavity, the fluid in the pocketed oil district is discharged; When protected oil volume becomes big, then through another compensating groove, protected oil volume is communicated with oil sucting cavity, realize repairing, it is suitable that want the position of compensating groove, makes the fluid in the pocketed oil district can either oil extraction, again can repairing.But the distance between two compensating grooves can not be too little, in case oil sucting cavity and oil-discharging cavity are ganged up through protected oil volume, influences the volumetric efficiency of pump.Pressure compensating groove positional accuracy is higher, not only increases manufacture difficulty, and can not eliminate the harm that pocketed oil brings fully, can only weaken its harm.

The model utility content

In order to overcome the defective that above-mentioned existing technology exists, the utility model provides a kind of screw pump, and low noise, low vibration, low energy consumption have been avoided the entrap phenomenon of conventional tooth wheel pump fully, thereby avoided a series of problems that pocketed oil brought; And make gear side and bearing reduce friction, thereby reduced the frictional heat of pump, effectively prolonged the working life of pump.

To achieve these goals, the technological scheme of the utility model is following:

Screw pump comprises pump case, is packaged in the pump case end covers at two sides; Be located at the bearing support in the said pump case, be fixedly connected on the bearing on the said bearing support, be positioned at the active spiral gear and the driven helical gear of bearing; Be characterized in; Said active spiral gear and driven helical gear all adopt spiral helicine gear mechanism, and the tooth top of this Screwed gear leaves the segment circular arc tangent with gear side, and the end face of said active spiral gear is provided with initiatively helical gear shaft ejector pin; The end face of driven helical gear is provided with driven helical gear axle ejector pin, and knock hole communicates with high pressure oil.

The tooth top of said spiral gear and tooth root are circular-arc, and said tooth top circular arc and tooth root circular arc match, seamless, and the side of said active spiral gear and driven helical gear is provided with oil storage tank.

Preferably; Said active helical gear shaft ejector pin and driven helical gear axle ejector pin are cylindrical shape; The one of which side communicates with the pressure hydraulic fluid port of screw pump, therefore can offset initiatively spiral gear and driven helical gear axial thrust load to the right, has reduced the friction between gear.

Further, have the oil guide slot that communicates with high pressure oil on the end cap of said both sides end cap, said oil guide slot one end communicates with active helical gear shaft ejector pin bottom, and the other end communicates with said driven helical gear axle ejector pin bottom.

Said active helical gear shaft ejector pin communicates with high pressure oil with driven helical gear axle ejector pin, along with its top power up of increased pressure is just big more, plays the effect of the axial force of cancelling out each other, and also has the gap that compensates automatically between gear and the bearing support.

Further, the spiral gear helix angle of Screwed gear mechanism is the 0-45 degree, and the spiral gear in this helix angle scope cooperates tightr, makes tooth top circular arc and tooth root circular arc realize that bottom clearance is zero, does not produce entrap phenomenon.

Be provided with seal ring between said end cap and the pump case, it is tightr through seal ring pump case and end covers at two sides to be encapsulated, and structure is firm.

Between the top of said active spiral gear and the contacted end cap oil sealing and back-up ring are set, said back-up ring is installed in the sidepiece of oil sealing, makes pump not produce leakage of oil through oil sealing and back-up ring.

Further, the end cap of the above-mentioned left and right sides adopts a plurality of bolts to be fixedly connected on four jiaos of pump case up and down.

The beneficial effect of the utility model is; Avoided the entrap phenomenon of conventional tooth wheel pump fully; Realized changing when pressure raises that mild, low noise, low vibration, low energy consumption, flowed fluctuation are little, effective has prolonged advantage such as hydraulic system working life, and gear can not bring back to the fluid of zone of high pressure low pressure area, avoided because of gear structure bring in let out; Improve efficient, practiced thrift the energy.This pump also can be used as hydraulic pressure installation uses such as oil hydraulic motor, is widely used.

This screw pump adopts axle ejector pin structure at the gear shaft end face, makes between gear side and the bearing and has reduced friction, thereby reduced the frictional heat of pump.Compare with the conventional tooth wheel pump, under the identical situation of condition, can obtain higher rated pressure, be used, can also change pressure and flow with the different needs of hydraulic system with actuating motor.

Description of drawings

Fig. 1 is the structure sectional view of the utility model.

Fig. 2 be among Fig. 1 A-A to sectional view.

Fig. 3 be among Fig. 1 B-B to sectional view.

Fig. 4 be among Fig. 3 C-C to sectional view.

Fig. 5 is the enlarged diagram of the utility model middle gear.

The plan view that Fig. 6 is meshed with driven helical gear for active spiral gear among Fig. 1.

Fig. 7 is the plan view corresponding with Fig. 6.

The three-dimensional structure diagram that Fig. 8 is meshed with driven helical gear for the active spiral gear.

Among the figure, 1, end cap, 2, bolt, 3, seal ring, 4, oil sealing, 5, spiral gear initiatively; 6, back-up ring, 7, driven helical gear, 8, bearing, 9, bearing support, 10, pump case, 11, end cap; 111, oil guide slot, 12, bolt, 13, bearing support, 14, seal ring, 15, driven helical gear axle ejector pin, 16, helical gear shaft ejector pin initiatively; 17, bearing support, 18, bearing support, 19, inlet port, 20, press hydraulic fluid port, 21, bolt, 22, bolt; 23, seal ring, 24, seal ring, 51, spiral gear, 52, oil storage tank, 71, spiral gear, 72, oil storage tank.

Embodiment:

For the creation characteristic, the technological means that make the utility model and reach purpose and be easy to understand and understand, further set forth the utility model below in conjunction with specific embodiment.

Embodiment:

Referring to Fig. 1, Fig. 2 and Fig. 3; Screw pump; Comprise pump case 10, be packaged in pump case 10 end covers at two sides 1 and end cap 11; Be fixedly connected on the bearing 8 on said bearing support 9, bearing support 13, bearing support 17 and the bearing support 18, be positioned at active spiral gear 5 and driven helical gear 7 that bearing 8 can be meshed, be arranged at the active helical gear shaft ejector pin 16 of spiral gear 5 its right end face initiatively and be arranged at the driven helical gear axle ejector pin 15 of driven helical gear 7 its right end face.

As shown in Figure 2, initiatively spiral gear 5 is an inlet port 19 with the left side of driven helical gear 7, and its right side is for pressing hydraulic fluid port 20; Inlet port 19 is a low pressure area; Pressing hydraulic fluid port 20 is the zone of high pressure, and low pressure oil is from inlet port 19 entering, through initiatively spiral gear 5 and driven helical gear 7 flow into pressure hydraulic fluid port 20 and discharge.

Bolt 21 and the bolt 2 that pass on left of pump case 10 is fixedly connected end caps 1, and its right side is fixedly connected end caps 11 through bolt 12 and bolt 22.

End cap 1 is provided with seal ring 23 and seal ring 3 with contacting point, pump case 10 left side, and end cap 11 is provided with seal ring 14 and seal ring 24 with contacting point, pump case 10 right side, makes pump case 10 and end covers at two sides 1 tightr with end cap 11 encapsulation through seal ring, and structure is more firm.

Wherein, initiatively between the top of spiral gear 5 and the contacted end cap 1 oil sealing 4 and back-up ring 6 are set, said back-up ring 6 is installed in the sidepiece of oil sealing 4, through oil sealing 4 and back-up ring 6 low pressure oil of inlet port 19 can not permeated outside screw pump, causes leakage of oil.

As shown in Figure 4, end cap 11 has the oil guide slot 111 that high pressure oil communicates, and oil guide slot 111 can compensate the gap between gear and the bearing support automatically and play the effect of internal force balance under the effect of this oil pressure.

Oil guide slot 111 1 ends communicate with active helical gear shaft ejector pin 16 bottoms; The other end communicates with said driven helical gear axle ejector pin 15 bottoms; Said active helical gear shaft ejector pin 16 communicates with high pressure oil through knock hole with driven helical gear axle ejector pin 15; Along with its top power up of increased pressure is just big more, play the effect of cancelling out each other, also have compensation internal force balance effect automatically.

Under above-mentioned parts effect, the gap compensation adjustment automatically of bearing support side and spiral gear side, thus improve rated working pressure and increase the service life.

As shown in Figure 1; Initiatively helical gear shaft ejector pin 16 is cylindrical shape with driven helical gear axle ejector pin 15; The one of which side connects its right end face of active spiral gear 5 and driven helical gear 7 respectively; Opposite side communicates with the pressure hydraulic fluid port 20 of gear pump, therefore can offset initiatively spiral gear 5 and driven helical gear 7 axial thrust load to the right, has reduced between spiral gear and the friction between bearing support.

Referring to Fig. 5, the monodentate structure for amplifying of spiral gear 5 or driven helical gear 7 initiatively, its tooth top circular arc R1 and tooth root circular arc R2 match, seamless, realized that bottom clearance is zero, also just do not produce entrap phenomenon.

Place, summit at tooth top circular arc R1 leaves 3 transition of segment circular arc R; Its arc length is generally 0-1mm; It is tightr that tooth top and tooth root are fitted; Play buffer action, can prevent effectively that high pressure oil from leaking into the oil suction district along housing inner chamber hole wall and letting out in promptly reducing, thereby help improving working pressure and volumetric efficiency.

And this tooth top segment circular arc R 3 can also make top circle and root circle under the effect of external force, keep size for a long time and not wear and tear, and is more durable in use.

Referring to Fig. 6 and Fig. 7; Initiatively spiral gear 5 is provided with spiral helicine spiral gear 51 and spiral gear 71 structures respectively with driven helical gear 7; Spiral gear 51 is identical with spiral gear 71 structures, and its inclination is generally the 0-45 degree, and the spiral gear 51,71 in this inclination range cooperates tightr; Make tooth top circular arc and tooth root circular arc realize that bottom clearance is zero, does not produce entrap phenomenon.

Referring to Fig. 8; Initiatively spiral gear 5 has oil storage tank 52 and oil storage tank 72 with the side of driven helical gear 7; Oil storage tank 52 designs with the shape of oil storage tank 72 and the gear pump of the concrete model of size basis, and oil storage tank 52 can store a spot of hydraulic oil with oil storage tank 72.

Because gear pump is when work; Initiatively spiral gear 5 is very violent with the left and right side of driven helical gear 7 and the friction of bearing 8; This not only makes the life-span of pump shorten greatly; It is too fast too high and reduce viscosity that hydraulic fluid temperature is raise, thus the generation that causes hydraulic system pressure to reduce and leak.If adopting cooling system lowers the temperature to hydraulic oil; Also certainly will increase the consumption of the energy; For a large amount of heats that reduce gear left and right side and bearing 8 frictions and produce; Above-mentioned oil storage tank 52 can reduce the friction of gear side and bearing 8 effectively with oil storage tank 72, thereby has reduced the rising of oily temperature to greatest extent and prolonged working life of gear pump.

More than show and described the advantage of basic principle, major character and the utility model of the utility model.The technician of the industry should understand; The utility model is not restricted to the described embodiments; The principle of describing in the foregoing description and the specification that the utility model just is described; The utility model also has various changes and modifications under the prerequisite that does not break away from the utility model spirit and scope, and these variations and improvement all fall in the utility model scope that requires protection.The utility model requires protection domain to be defined by appending claims and equivalent thereof.

Claims (5)

1. screw pump comprises pump case, is packaged in the pump case end covers at two sides; Be located at the bearing support in the said pump case, be fixedly connected on the bearing on the said bearing support, be positioned at the active spiral gear and the driven helical gear of bearing; It is characterized in that; Said active spiral gear and driven helical gear all adopt spiral helicine gear mechanism, and the tooth top of this Screwed gear leaves the segment circular arc tangent with gear side, and the end face of said active spiral gear is provided with initiatively helical gear shaft ejector pin; The end face of driven helical gear is provided with driven helical gear axle ejector pin, and knock hole communicates with high pressure oil.

2. screw pump according to claim 1 is characterized in that the tooth top of said spiral gear and tooth root are circular-arc, and said tooth top circular arc and tooth root circular arc match, seamless, and the side of said active spiral gear and driven helical gear is provided with oil storage tank.

3. screw pump according to claim 1 is characterized in that, said active helical gear shaft ejector pin and driven helical gear axle ejector pin are cylindrical shape.

4. screw pump according to claim 1; It is characterized in that; Have the oil guide slot that communicates with high pressure oil on the end cap of said both sides end cap, said oil guide slot one end communicates with active helical gear shaft ejector pin bottom, and the other end communicates with said driven helical gear axle ejector pin bottom.

5. screw pump according to claim 1 is characterized in that, the spiral gear helix angle of said Screwed gear mechanism is the 0-45 degree.

Images