CN204419559U - Electric linear reciprocating double-action quantitative plunger pump - Google Patents

Abstract

The utility model relates to an electric linear reciprocating double-acting quantitative plunger pump. The purpose is to provide a pump that can absorb and discharge the working medium in real time, has a relatively stable flow output, and has a compact and simple structure and a high space utilization rate. The technical solution is: an electric linear reciprocating double-acting quantitative plunger pump, including a cylinder body, a plunger and a motor; the plunger pump is also equipped with a reciprocating screw driven by the motor, and the reciprocating screw is rotatable Positioned in the inner chamber of the cylinder and parallel to the axis of the cylinder; the plunger is slidably set on the reciprocating screw rod, and the reciprocating screw rod is also engaged with a sliding tongue fixed on the plunger to drive the plunger to reciprocate movement; both ends of the cylinder are equipped with the inlet and outlet, and the inlet and outlet are respectively connected to the outside world through a one-way valve; the cylinder is also equipped with a cylinder parallel to the axis of the cylinder The guide rod is used, and the plunger is slidably matched with the guide rod through a sliding bearing to realize the linear motion of the plunger.

Description

Electric linear reciprocating double-action quantitative plunger pump

Technical field

The utility model relates to a kind of plunger pump, especially has linear reciprocating double-action quantitative plunger pump that is lasting, constant flow rate output.

Background technique

Plunger pump has very important application in hydraulic system.The advantage such as have that rated pressure is high, compact structure, efficiency are high due to plunger pump and Flow-rate adjustment is convenient, is widely used in the occasion that high pressure, large discharge and flow need to regulate, in such as hydraulic press, engineering machinery and boats and ships.Conventional pump can be divided into positive displacement pump, driving type pump and other types pump three class by working principle; Plunger pump belongs to positive displacement pump, and the volume that the to-and-fro motion of cylinder body inner plunger makes cylinder body compression repeatedly and expansion, the cyclically-varying of the cylinder body internal volume of this plunger pump impels cylinder body suck constantly and discharge working medium.It is pulsatile change that common plunger pump exists flow, from the shortcoming of absorption difference.

Model utility content

The purpose of this utility model is the deficiency overcoming above-mentioned background technology, a kind of electric linear reciprocating double-action quantitative plunger pump is proposed, this pump should have and the working medium of suction in real time, flow can export metastable feature, and compact structure is succinct, and space availability ratio is also high.

For achieving the above object, the technical solution adopted in the utility model is as follows:

Electric linear reciprocating double-action quantitative plunger pump, comprises and is furnished with import and outlet with the cylinder body of Circulation medium, the plunger that can reciprocatingly slide along cylinder body axis in cylinder body and provide the motor of power for plunger slides; It is characterized in that this plunger pump also configures one by described motor-driven reciprocating screw rod, this reciprocating screw rod be rotatably positioned inner chamber at cylinder body and with the axis being parallel of this cylinder body; Described plunger is sleeved on reciprocating screw rod slidably, and also the sliding-tongue be fixed on plunger engages to order about plunger reciprocates reciprocating screw rod with one; The two ends of described cylinder body are all configured with described import and outlet, and described import and outlet are also respectively by one-way valve and extraneous conducting;

Also configure a guide rod arranged with Boring mill line parallel in described cylinder body, described plunger is slidably matched by sliding bearing and guide rod the straight line motion realizing plunger.

The two ends of described reciprocating screw rod are rotatably positioned on cylinder body respectively by tapered roller bearing.

Helical on the outer peripheral surface of described reciprocating screw rod and bidirectional arrangements teeth groove, described sliding-tongue and this teeth groove slidably mate.

The end of engagement of described sliding-tongue is hemisphere.

Described motor by coupling for reciprocating screw rod provides power.

Working principle of the present utility model is: driven by motor reciprocating screw rod rotates, the standard that the rotary motion (R) of reciprocating screw rod is converted to plunger by sliding-tongue and guide rod again by reciprocating screw rod is linear reciprocating motion (L) (outside breeze way S1, S3, S4 and the S6 at reciprocating screw rod two ends position at the uniform velocity, plunger is uniform motion), the standard of plunger at the uniform velocity linear reciprocating motion causes the cyclically-varying replaced of plunger both sides cylinder body volume, makes cylinder body can suck in real time and equably, discharge working medium; Export because two of cylinder body outlets have an outlet to there is flow at any time, after therefore two outlets merge, reciprocating double-action quantitative plunger pump of the present utility model just achieves and continues and output flow consistently.

Useful effect of the present utility model is as follows:

The standard that the rotary motion of motor is directly converted to plunger by reciprocating double-action quantitative plunger pump of the present utility model at the uniform velocity linear reciprocating motion can realize continuing, output services medium consistently, the pressure stability of output pipe can be ensured.

Cylinder body-piston structure of the present utility model is compact, and plunger both sides cylinder body volume all can realize sucking, discharging working medium, and space availability ratio is high.

The cylinder body volume of plunger both sides of the present utility model all can realize sucking, discharging working medium, and the leakage of plunger side cylinder body can be transferred in opposite side cylinder body, and can not lose.

Accompanying drawing explanation

Fig. 1 is main TV structure schematic diagram of the present utility model.

Fig. 2 is plan structure schematic diagram of the present utility model.

Fig. 3 is the sectional structure schematic diagram of cylinder body in Fig. 2.

Fig. 4 is the structure for amplifying schematic diagram in C portion in Fig. 3.

Fig. 5 is the structure for amplifying schematic diagram in D portion in Fig. 3.

Fig. 6 is that in the utility model, the master of sliding-tongue looks structure for amplifying schematic diagram.

Fig. 7 be in the utility model sliding-tongue overlook structure for amplifying schematic diagram.

Fig. 8 is that in the utility model, the master of plunger looks structure for amplifying schematic diagram.

Fig. 9 is the unfolded drawing of the teeth groove center line of reciprocating screw rod in the utility model.

Figure 10 is the flow diagram of cylinder body volume on the right side of plunger in the utility model.

Figure 11 is the flow diagram of cylinder body volume on the left of plunger in the utility model.

Figure 12 is the total discharge figure (merged by the flow of plunger both sides cylinder body volume and draw) of reciprocating plunger pump in the utility model.

In figure: 1, motor, 2, coupling, 3, left side bearing (ball) cover, 4, left circles taper roller bearing, 5, left side capping, 6, plunger, 7, sliding-tongue, 8, reciprocating screw rod, 9, cylinder body, 10, right side capping, 11, right circles taper roller bearing, 12, right side bearing (ball) cover, 13, left side inlet connector tube, 14, right side inlet connector tube, 15, left side outlet pipe joint, 16, right-side outlet pipe joint, 17, guide rod, 18, sliding bearing, 19, ball, 20, spring, 21, Cock screw, 22, seal ring, A, section A, A-A, A cross section half sectional view, B, cross section B, B-B, B cross-sectional view, h, the pitch of reciprocating screw rod isometric helix section, L, piston reciprocation straight line motion, Q, flow, Q0, the rated flow (wherein "-" represents input, represents export without "-") of plunger side cylinder body volume, R, the rotary motion of motor or reciprocating screw rod, r1, reciprocating screw rod radius, piston reciprocation straight line motion cycle, t1, journey is gone to accelerate buffer time, t2, go the journey isometric helix time, u, piston reciprocation point-to-point speed, π, the helix angle of isometric helix section.

Embodiment

Below in conjunction with accompanying drawing, the utility model is described in further detail.

As shown in Figure 1, cylinder body is made up of left side capping 5, cylinder body 9 and right side capping 10; The two ends of cylinder body are furnished with import respectively and outlet is circulated for working medium, and described import and outlet are also respectively by one-way valve and extraneous conducting.The external frame of plunger 6 and inner chamber of cylinder block fit and can reciprocatingly slide in cylinder body along axis (cylinder body axis), 1, motor provides slip required drive for plunger.

The utility model configuration one is driven the reciprocating screw rod 8 of (being driven by coupling 2) by described motor, this reciprocating screw rod intert rotationally the inner chamber that is positioned at described cylinder body and with the axis being parallel of this cylinder body, helical on the outer peripheral surface of reciprocating screw rod and bidirectional arrangements (the positive and negative both direction of the axis around reciprocating screw rod is arranged) teeth groove 30; Concrete, this reciprocating screw rod is supported by tapered roller bearing 4 and 11, and tapered roller bearing bears axial force and the radial force of reciprocating screw rod applying simultaneously, and bearing (ball) cover 3 and 12 plays sealing and supports the effect of tapered roller bearing.

The described reciprocating screw rod also sliding-tongue 7 be fixed on on plunger engages to realize the to-and-fro motion of plunger; As shown in fig. 6-7, this sliding-tongue is hemisphere as the head of end of engagement, can match with the screw thread of reciprocating screw rod; The afterbody of sliding-tongue also arranges a ball spring structure (being furnished with the spring 20 of a ball that can roll along sliding-tongue axis 19 and a top nip drum pearl in the groove of sliding-tongue afterbody), closely engages with the teeth groove of reciprocating screw rod to make sliding-tongue.

Also configure a guide rod 17 be arranged in parallel with reciprocating screw rod in described cylinder body, described plunger 6 carries out by sliding bearing 18 and guide rod the straight line motion being slidably matched to realize plunger.Plunger shown in Fig. 8 is cylindrical, plunger is manufactured with two through holes parallel with plunger axis, is respectively used to be slidably matched with reciprocating screw rod and guide rod; The wall portion of one of them larger through hole (screw hole) also makes a stair-stepping sliding-tongue hole (the through screw hole in this hole and plunger outer peripheral surface), is positioned in sliding-tongue hole by Cock screw 21 by sliding-tongue; Another less through hole (guide rod hole), realizes being slidably matched by sliding bearing 18 and guide rod.

As shown in Figure 2, the utility model is also by the hydraulic plumbing system that pipe joint, pipeline and one-way valve and extraneous medium source (being generally hydraulic oil container) form, and these systems are organically combined into the utility model.

After motor 1 of the present utility model is energized and starts, the rotary motion R of motor is converted to the rotary motion of reciprocating screw rod 8 by coupling 2, and the rotary motion of reciprocating screw rod is led to and crossed the standard at the uniform velocity linear reciprocating motion L that sliding-tongue 7 is converted to plunger 6; Because cylinder body 9 inner plunger both sides volume is certain, the linear reciprocating motion of plunger will the cylinder body volume of Repeated Compression and expansion plunger both sides, thus makes plunger pump continuously output services medium.

It is exactly in plunger motion process that the utility model is different from one of emphasis of other double-acting pump model utilitys, the cylinder body volume that not only always simultaneously there is plunger side is compressed and is expanded, and the breeze way at removing reciprocating screw rod two ends, the linear reciprocating motion of plunger is uniform motion in a straight line substantially, therefore, the output flow of the utility model plunger pump is lasting and constant.

Cylinder body of the present utility model is communicated with pipeline (as shown in Figure 2) by pipe joint 13,14,15 and 16, pipeline and one-way valve (omit one-way valve in figure, only with explanatory note) communicate, import I1 with I2 is communicated with import one-way valve, import one-way valve only allows working medium to flow into cylinder body, and does not allow working medium to flow out, and outlet O1 and O2 communicates with Outlet check valves, Outlet check valves only allows working medium to flow out cylinder body, and does not allow working medium to flow into cylinder body.So when piston moves to the right, on the right side of plunger, cylinder body volume is owing to being discharged the working medium in it (now due to the effect of import one-way valve from outlet O1 by compressing, import I1 is closed), simultaneously on the left of plunger volume owing to being sucked working medium (now due to the effect of Outlet check valves, outlet O2 is closed) by expanding from I2 mouth; When plunger moves to the left, the working medium on the left of plunger in cylinder body volume is discharged (outlet O1 is closed) from outlet O2, and on the right side of plunger, cylinder body sucks working medium (import I2 is closed) from import I1.Therefore, the standard of plunger at the uniform velocity linear reciprocating motion can make cylinder body suck in real time and discharge working medium, and realize constant flow and export, make full use of cylinder space, the structure comparison of whole model utility is compact.In addition, because the volume of plunger both sides all can be used as active chamber, so working medium also there will not be larger leakage problem from cylinder body side to the leakage of other side (certain needs avoid reveal) as far as possible, its finally can utilize by the cylinder body volume of plunger side.

Crossing in the sectional drawing of axis of reciprocating screw rod of the present utility model (as shown in Figure 3), the sectional shape of teeth groove is semicircle; Whole teeth groove on reciprocating screw rod are made up of four parts, and the breeze way at two ends and middle left-handed, dextrorotation section, four sections are connected smoothly.

Fig. 9 and Figure 10 is the center line unfolded drawing of the whole teeth groove of this reciprocating screw rod; After teeth groove center line launches, be divided into S1, S2, S3, S4, S5 and S6 six sections, they represent that plunger removes journey acceleration breeze way, plunger goes journey isometric helix section, plunger goes journey deceleration buffer section, breeze way, plunger backhaul isometric helix section and plunger backhaul deceleration buffer section are accelerated in plunger backhaul respectively; The pitch of uniform pitch spiral section is h, the pitch of breeze way depends on the line style of this section, line style is chosen as required, as waiting of applicable middling speed operating mode is accelerated or uniform retarded motion line style, be applicable to the simple harmonic motion of high-speed working condition, cycloid motion and high-order moment motion line style, to realize the buffer function at two ends, reduce and impact.The utility model illustrates as follows for simple harmonic motion line style:

If the helix angle of isometric helix section is α=0.2 π, reciprocating screw rod radius is r1=25mm, piston radius r2=50mm, the radius of guide rod is r3, Ratio of the circumference of a circle to its diameter is π, and reciprocating screw rod rotating speed is n=600r/min, and the number of total coils of reciprocating screw rod teeth groove center line is N=4.25, the movement velocity of plunger is u, then

The pitch of isometric helix section is

h＝2πr1tanα

(1)

Piston cross-section area is

S＝π(r2 ²-r1 ²-r3 ²)

(2)

On the right side of plunger, the flow of cylinder body volume is

Q＝S×u

(3)

Go journey accelerate buffer time be

$t1=\frac{\mathrm{\α}}{2\mathrm{\πn}}---\left(4\right)$

The journey isometric helix time is gone to be

$t2=\frac{2\mathrm{\πN}-\mathrm{\α}}{2\mathrm{\πn}}---\left(5\right)$

Journey snubbing time is gone to be

$T=\frac{2N}{n}---\left(6\right)$

When the line style of breeze way elects simple harmonic motion as, the representation of the movement velocity u of an oscillation cycle T inner plunger is as follows

$u=\left\{\begin{array}{c}\mathrm{nh},[1-\cos \left(\frac{{2\mathrm{\π}}^{2}n}{\mathrm{\α}}t\right)],0\≤t\≤t1\\ \mathrm{nh},t1\≤t\≤t2\\ \mathrm{nh}\{1-\cos [\frac{{2\mathrm{\π}}^2}{\mathrm{\α}}(N-\mathrm{nt})\left]\right\},t2\≤t\≤\frac{T}{2}\\ -\mathrm{nh}[1-\cos \left(\frac{{2\mathrm{\π}}^{2}n}{\mathrm{\α}}t\right)],\frac{T}{2}\≤t\frac{T}{2}+t1\\ -\mathrm{nh},\frac{T}{2}+t1\≤t\≤\frac{T}{2}+t2\\ -\mathrm{nh}\{1-\cos [\frac{{2\mathrm{\π}}^2}{\mathrm{\α}}(N-\mathrm{nt})\left]\right\},\frac{T}{2}+t2\≤t\≤T\end{array}\right.$

(7) then the representation of Q is as follows:

$Q=\left\{\begin{array}{c}\mathrm{Snh}[1-\cos \left(\frac{{2\mathrm{\π}}^{2}n}{\mathrm{\α}}t\right)],0\≤t\≤t1\\ \mathrm{Snh},t1\≤t\≤t2\\ \mathrm{Snh}\{1-\cos [\frac{{2\mathrm{\π}}^2}{\mathrm{\α}}(N-\mathrm{nt})\left]\right\},t2\≤t\≤\frac{T}{2}\\ -\mathrm{Snh}[1-\cos \left(\frac{{2\mathrm{\π}}^{2}n}{\mathrm{\α}}t\right)],\frac{T}{2}\≤t\≤\frac{T}{2}+t1\\ -\mathrm{Snh},\frac{T}{2}+t1\≤t\≤\frac{T}{2}+t2\\ -\mathrm{Snh}\{1-\cos [\frac{{2\mathrm{\π}}^2}{\mathrm{\α}}(N-\mathrm{nt})\left]\right\},\frac{T}{2}+t2\≤t\≤T\end{array}\right.---\left(8\right)$

Flow diagram of the present utility model can be drawn out according to formula (8), as Figure 11, 12, shown in 13, be respectively the flow diagram (single cycle T) of plunger both sides of the present utility model cylinder body volume and merged the total discharge figure (three cycle T) got by plunger both sides cylinder body volume flow spirogram, solid line is cylinder body volume flow spirogram on the right side of plunger, dotted line is cylinder body volume flow spirogram on the left of plunger, wherein flow is for just to represent output, flow is negative indication input, can find, the flow of the plunger pump after merging is more stable, removing breeze way part, the flow input of isometric helix section, export linearly, in addition, the small flow of breeze way is also conducive to the closedown of valve.

Claims (5)

1. electric linear reciprocating double-action quantitative plunger pump, comprises and is furnished with import and outlet with the cylinder body of Circulation medium (9), the plunger (6) that can reciprocatingly slide along cylinder body axis in cylinder body and provide the motor (1) of power for plunger slides; It is characterized in that this plunger pump also configures one by described motor-driven reciprocating screw rod (8), this reciprocating screw rod be rotatably positioned inner chamber at cylinder body and with the axis being parallel of this cylinder body; Described plunger is sleeved on reciprocating screw rod slidably, and the sliding-tongue (7) that reciprocating screw rod is also fixed on on plunger engages to order about plunger reciprocates; The two ends of described cylinder body are all configured with described import and outlet, and described import and outlet are also respectively by one-way valve and extraneous conducting;

Also configure a guide rod (17) arranged with Boring mill line parallel in described cylinder body, described plunger is slidably matched by sliding bearing (18) and guide rod the straight line motion realizing plunger.

2. electric linear reciprocating double-action quantitative plunger pump according to claim 1, is characterized in that: the two ends of described reciprocating screw rod are rotatably positioned on cylinder body respectively by tapered roller bearing.

3. electric linear reciprocating double-action quantitative plunger pump according to claim 2, is characterized in that: helical on the outer peripheral surface of described reciprocating screw rod and bidirectional arrangements teeth groove (30), and described sliding-tongue and this teeth groove slidably mate.

4. electric linear reciprocating double-action quantitative plunger pump according to claim 3, is characterized in that: the end of engagement of described sliding-tongue is hemisphere.

5. electric linear reciprocating double-action quantitative plunger pump according to claim 4, is characterized in that: described motor by coupling (2) for reciprocating screw rod provides power.