CN204346691U - Spraying nonuniformity coefficient measurement mechanism - Google Patents

Abstract

The utility model provides a kind of spraying nonuniformity coefficient measurement mechanism, can carry out measures of quantization, pick out the nozzle that atomizing effect is qualified to spray effect, with this nozzle assembling engine, thus improves the medium atomization effect of engine.Device of the present utility model comprises spraying collection assembly, water receiving assembly and mass measurement assembly, and spraying collection assembly comprises the catch tray just right with atomising device, and catch tray is arranged multiple water receiving tank, each water receiving tank correspondence is provided with the mouth that catchments; Drip tray is arranged on and is threaded with catch tray immediately below catch tray and can rotates a specified angle relative to catch tray of spraying, and this specified angle and zero degree represent drip tray two kinds of positions, and one is water receiving position, and another kind is drainage position; When water receiving position, the mouth centering of catchmenting of water collecting nozzle and catch tray, when drainage position, the mouth that catchments of catch tray is in the position between adjacent two water collecting nozzles, and water is flowed out by water draining beak.

Description

Spraying nonuniformity coefficient measurement mechanism

Technical field

The nonuniformity coefficient that the utility model is applied in low discharge thrust device is measured in test, and the spraying nonuniformity coefficient being applicable to each model engine nozzle is measured, and the spraying nonuniformity coefficient that also can be used for miscellaneous equipment is measured.

Background technology

For improving engine combustion efficiency and temperature rise homogeneity, preventing engine local overheating, needing the atomization uniformity improving each nozzle, in the prior art, the detection of atomization uniformity is normally undertaken by visual, is difficult to quantize.

Summary of the invention

In order to solve the technical matters that existing spray atomization effect is difficult to quantize, the utility model provides a kind of spraying nonuniformity coefficient measurement mechanism.

Technical solution of the present utility model is as follows:

A kind of spraying nonuniformity coefficient measurement mechanism, its special character is: comprise spraying collection assembly, water receiving assembly and mass measurement assembly,

It is the conical surface 31 that described spraying collection assembly comprises the just right face of the catch tray just right with atomising device, described catch tray and atomizing component, goes back circumference and be provided with an anchor ring 32 bottom the conical surface,

Catch tray is also evenly provided with multiple spacer, the conical surface and anchor ring are divided equally by described multiple spacer, make catch tray to define multiple water receiving tank, each water receiving tank correspondence is provided with the mouth that catchments, the described mouth that catchments is arranged on anchor ring, the upper surface of the described mouth that catchments is lower than bottom the conical surface, and the periphery of described anchor ring is vertically installed with one towards the baffle ring 33 of atomizing component, described baffle ring and catchment between mouth baffle ring circumference is provided with tapering transition face 34;

Described water receiving assembly is the drip tray identical with circle diameter, described drip tray is also provided with multiple water collecting nozzle and at least one water draining beak, described water collecting nozzle is identical with the quantity of the mouth that catchments and arrange according to the angle intervals circumference identical with the mouth that catchments, and described water draining beak is near drip tray central authorities

Described drip tray is arranged on and is threaded with catch tray immediately below catch tray and can rotates a specified angle relative to catch tray, and this specified angle and zero degree represent drip tray two kinds of positions, and one is water receiving position, and another kind is drainage position; When water receiving position, the mouth centering of catchmenting of water collecting nozzle and catch tray, when drainage position, the mouth that catchments of catch tray is in the position between adjacent two water collecting nozzles, and water is flowed out by water draining beak,

Described water receiving assembly also comprises and carries out spacing limiting component to the drip tray anglec of rotation,

Described mass measurement assembly comprises the test tube rack be arranged on below drip tray, and described test tube rack is provided with multiple test tube, described test tube and the mouth one_to_one corresponding that catchments, and test tube is positioned at immediately below the mouth that catchments for measuring the water flowed down from the mouth that catchments.

Above-mentioned catch tray has a newel 36, and the described conical surface is centered by newel 36, and the conical surface is stretched out in the upper end of described newel,

The center of described drip tray is provided with center pit, the bottom of described newel is provided with the threaded hole that aperture is less than center pit, described center pit is used for mounting disc post, the upper end of described dish post is provided with the screw thread matched with the threaded hole on newel, and described drip tray is threaded with catch tray by dish post.

Above-mentioned spraying collection assembly also comprises many grooves be uniformly distributed along the circumference, every bar groove successively centrally the internal face of the conical surface of the sidewall of post, catch tray, tapering transition face, baffle ring offer;

Described multiple spacer correspondence is inserted in many grooves, and the internal face glued seals of the conical surface of the sidewall of spacer and newel, catch tray, tapering transition face, baffle ring.

Above-mentioned limiting component comprise that an excircle along drip tray arranges vertical with drip tray and reference column, the U-shaped limited block vertical with baffle ring that arrange towards the baffle ring 51, of catch tray along baffle ring excircle,

Described U-shaped limited block is arranged on the below of upper strata angle steel 14, and described reference column stretches in this U-shaped limited block, and the width of U-shaped limited block defines the rotational angle of this reference column, i.e. the anglec of rotation of drip tray, and the excircle of described baffle ring is also provided with one handle 54.

Above-mentioned measurement mechanism also comprises stand, and described stand is rectangular frame structure, comprises left frame, right frame 18, upper ledge, lower frame 12, and the inside parallel of described left frame and right frame is provided with two-layer angle steel, upper strata for supporting catch tray, lower floor for supporting test tube rack,

Described test tube rack comprises upper plate 21, lower plate 22 and biside plate 23, described upper plate and lower plate are connected by the pillar 24 of both end thread, described biside plate is between upper plate and lower plate, described upper plate offers quantity and that according to catchment mouth identical angle intervals circumference arrange test tube mounting hole identical with the mouth that catchments, described lower plate is provided with and multiplely matches to test tube bottom shape and the corresponding pit in position

Described test tube rack also comprises rolling bearing 27, axle 26, described rolling bearing is arranged on one end of axle, the other end of described axle is arranged in the axis hole vertical with side plate that be arranged in side plate, described test tube rack is movable on lower floor's angle steel 15 of stand by being arranged on the rolling bearing outside biside plate

The rear end of described lower floor angle steel is also provided with limited post 16, and the front end of described lower floor angle steel is provided with boss, and the inner side of described lower floor angle steel is also provided with the positive stop strip 17 limiting bearing and move left and right.

Above-mentioned measurement mechanism also comprises two strip frame plates for installing test product, and described strip frame plate is bolted in the horizontal amount of the upper ledge of stand, and is positioned at the top of the newel of catch tray and vertical with newel, its height adjustable; Two strip frame plates are provided with multiple circular hole for regulating test product coaxial with catch tray newel or mounting hole.

Above-mentioned test tube is glass test tube, and described test tube rack is organic glass test tube rack.

The centre position of above-mentioned upper plate and lower plate is provided with lightening hole 28, and this lightening hole has the effect of draining concurrently.

The top of above-mentioned newel is conical.

The internal diameter of the above-mentioned mouth that catchments is consistent, and the endoporus of described water collecting nozzle is up big and down small bellmouth and the internal diameter of inlet end is greater than the internal diameter of the mouth that catchments, and the internal diameter of described test tube is greater than the internal diameter of water collecting nozzle endpiece.

Compared with prior art, advantage is the utility model:

1, the utility model provides spraying nonuniformity coefficient measurement mechanism, can carry out measures of quantization, pick out the nozzle that atomizing effect is qualified to spray effect, with this nozzle assembling engine, thus improves medium atomization effect, the combustion stability of engine.

2, the utility model measurement mechanism through for many years, the checking of polytypic product testing, illustrates that project organization is reasonable, versatility is good, and measuring accuracy is high, reproducible, and meet various product and to spray the measurement requirement of heterogeneous system numerical value, result of use is good.

Accompanying drawing explanation

Figure 1A is measurement mechanism structural drawing;

Figure 1B is the partial enlarged drawing of Figure 1A;

Fig. 2 A is collection disk figure;

Fig. 2 B is the A direction view of Fig. 2 A;

Fig. 2 C is 1 enlarged drawing of Fig. 2 A;

Fig. 2 D is 2 enlarged drawings of Fig. 2 A;

Fig. 3 A is drip tray structure figure;

Fig. 3 B is the A direction view of Fig. 3 A;

Fig. 4 A is test tube rack structural drawing;

Fig. 4 B is the A direction view of Fig. 4 A;

Fig. 5 A is horse structure figure;

Fig. 5 B is the A direction view of Fig. 5 A;

Wherein Reference numeral is: the left frame of 1-stand, 11-, 12-lower frame, 13-upper ledge, the right frame of 18-, 14-upper strata angle steel, 15-lower floor angle steel, 16-limited post, 17-positive stop strip; 2-test tube rack, 21-upper plate, 22-lower plate, 23-side plate, 24-pillar, 25-test tube, 26-axle, 27-rolling bearing, 28-lightening hole; 3-catch tray, the 31-conical surface, 32-anchor ring, 33-baffle ring, 34-tapering transition face, 35-catchment mouth, 36-newel, 37-locating bar, 38-spacer, 4-drip tray, 41-water collecting nozzle, 42-water draining beak, 43-dish axle; 51-baffle ring, 52-spill limited block, 53-reference column, 54-handle, 6-strip frame plate, 61-bolt, 7-return flume.

Embodiment

Below in conjunction with drawings and the specific embodiments, the utility model is described in further detail.

From the angle of design, the utility model is described below.

The utility model is easy to process feasible for ensureing catch tray 3 water receiving tank, has selected the single scheme of putting of test tube circumference; Consider that water collects convenient and measuring accuracy, select atomizer cone decile; Consider the versatility of measurement mechanism for small-large flow, according to designing the maximum flow provided, minimum collection water Time Calculation, select suitable test tube, design the critical size of drip tray 4, catch tray, stand 1 successively, install in the following order: the spacer 38 that a sticks with glue knot reception catch basin forms multiple water receiving tank with catch tray, sticks with glue the mouth 35 that catchments that knot receives catch basin, catch tray and drip tray is connected, spot welding catch tray and stand 1 with dish axle 43.Test tube rack 2 is placed on stand by b, is welded on stand, the left and right directions positive stop strip of spot welding test tube rack, the limited post of fore-and-aft direction under the state that ensure to catchment mouth, water collecting nozzle 41 center line overlap with test tube center line by spill limited block 52.C locating bar 37 regulates by trial product and catch tray right alignment, by bolt adjustable spraying cone size, thus ensures measurement mechanism measuring accuracy.

Collection disk figure is shown in accompanying drawing 2, according to the flow range that design exports, when ensureing large discharge, water is sprayed onto not outer in catch tray spattering, catch tray 3 is sufficiently large, and water receiving tank is enough dark, can process inclined-plane between disk center to gully-hole, water is sprayed onto in catch tray water receiving tank and all can quickly flows into the mouth that catchments along inclined-plane, so that drip tray receives or draining.Catch tray is divided into multiple water receiving tank equably, if directly poor in catch tray working groove manufacturability, cost is high, and first catch tray is processed into the taper surface of middle its central band cylinder in the design, its centered cylinder is little as far as possible, and during such Small flowrate measurement, precision is high for this reason.Adopt and output many slots be uniformly distributed along the circumference on the face of cylinder of catch tray inwall disk center and the circular cone bottom surface between them, again by stainless steel spacer insertion groove, spacer upper end is polished into wedge angle, upper end level is in same plane and highly consistent with baffle ring 33, water is evenly separated, adopt between spacer and groove and be glued, ensure between water receiving tank non-leakage.

Accompanying drawing 3 is shown in by drip tray 4 structural drawing, and catch tray is connected by coiling axle with drip tray, can circumferentially rotate, and adopts U-shaped limited block 5 and the reference column 53 be welded in outside drip tray to cooperatively interact to carry out spacing.Not being position of catchmenting to ensure that drip tray turning stopping bit is put, is exactly drainage position.When adjusting flow, drip tray is in drainage position, and water is drained by the water draining beak 42 of drip tray; When flow regulation is to design discharge, drip tray is in assembling position, and now drip tray water collecting nozzle, test tube central alignment, collect water on request, weigh.The internal diameter of water collecting nozzle is greater than the internal diameter of the mouth endpiece that catchments, and guarantees that the water that catch tray water receiving tank is discharged all is received, and water collecting nozzle water side internal diameter is less than the internal diameter of water intake end, guarantees that the water that drip tray is collected all is received by test tube.

Accompanying drawing 4 is shown in by test tube rack structural drawing, test tube rack circumferentially evenly places many glass test tubees, for alleviating the weight of test tube rack, pmma material is selected to process test tube rack, upper and lower for test tube rack plate is designed to corner and leads square in the arc-shaped, convenient operation, with the pillar of both end thread and 2 side panels, upper and lower plate is firmly fixed, design side plate is to install rolling bearing to test tube rack side, test tube rack can be moved forward and backward along the angle steel track on stand, track rear end limited location post, ensures that test tube rack is accurately advanced to collection water level and puts; Front end limited location post, avoids test tube rack to skid off track; Hollow out in the middle of test tube rack, one is draining, and two is that test tube rack is lighter; Be convenient to find out maximum flow fast with glass test tube, the position of minimum flow place circle distribution, improve experiment work efficiency, calculate spraying nonuniformity coefficient fast.

Horse structure figure is shown in accompanying drawing 5, and stand adopts channel-section steel to be welded.There is two-layer angle steel inner side, and upper strata is for supporting catch tray, and lower floor is for supporting test tube rack.Devise two strip frame plates 6, be fixed on stand upper surface with thru-bolt 61; Respectively have multiple hole in the middle of two frame plates, the shape in hole can be circular hole can be also mounting hole, for fixed product clamping tooling or product, selects the convenient product center that regulates of mounting hole consistent with drip tray center.By lifting frame plate to regulate the distance between tested products export and catch tray, reach the size regulating the atomizer cone collected.Move left and right frame plate position, to make multiple product clamping tooling can be fixed on stand, carry out spraying nonuniformity coefficient testing experiment.Improve the versatility of this frock.

Product clamping tooling requires design according to product design document and pressure drop and flow test parameters, before product clamping tooling is fixed on stand, with its position of frock lid adjustment of locating bar 37, band through hole, make by trial product and catch tray coaxial, to ensure spraying nonuniformity coefficient measuring accuracy.

Claims (10)

1. a spraying nonuniformity coefficient measurement mechanism, is characterized in that: comprise spraying collection assembly, water receiving assembly and mass measurement assembly,

It is the conical surface that described spraying collection assembly comprises the just right face of the catch tray just right with atomising device, described catch tray and atomizing component, goes back circumference and be provided with an anchor ring bottom the conical surface,

Catch tray is also evenly provided with multiple spacer, the conical surface and anchor ring are divided equally by described multiple spacer, make catch tray to define multiple water receiving tank, each water receiving tank correspondence is provided with the mouth that catchments, the described mouth that catchments is arranged on anchor ring, the upper surface of the described mouth that catchments is lower than bottom the conical surface, and the periphery of described anchor ring is vertically installed with one towards the baffle ring of atomizing component, described baffle ring and catchment between mouth baffle ring circumference is provided with tapering transition face;

Described water receiving assembly is the drip tray identical with circle diameter, described drip tray is also provided with multiple water collecting nozzle and at least one water draining beak, described water collecting nozzle is identical with the quantity of the mouth that catchments and arrange according to the angle intervals circumference identical with the mouth that catchments, and described water draining beak is near drip tray central authorities

Described drip tray is arranged on and is threaded with catch tray immediately below catch tray and can rotates a specified angle relative to catch tray of spraying, and this specified angle and zero degree represent drip tray two kinds of positions, and one is water receiving position, and another kind is drainage position; When water receiving position, the mouth centering of catchmenting of water collecting nozzle and catch tray, when drainage position, the mouth that catchments of catch tray is in the position between adjacent two water collecting nozzles, and water is flowed out by water draining beak,

Described water receiving assembly also comprises and carries out spacing limiting component to the drip tray anglec of rotation,

Described mass measurement assembly comprises the test tube rack be arranged on below drip tray, and described test tube rack is provided with multiple test tube, described test tube and the mouth one_to_one corresponding that catchments, and test tube is positioned at immediately below the mouth that catchments for measuring the water flowed down from the mouth that catchments.

2. spraying nonuniformity coefficient measurement mechanism according to claim 1, is characterized in that:

Described catch tray has a newel, and the described conical surface is centered by newel, and the conical surface is stretched out in the upper end of described newel,

The center of described drip tray is provided with center pit, the bottom of described newel is provided with the threaded hole that aperture is less than center pit, described center pit is used for mounting disc post, the upper end of described dish post is provided with the screw thread matched with the threaded hole on newel, and described drip tray is threaded with catch tray by dish post.

3. spraying nonuniformity coefficient measurement mechanism according to claim 2, is characterized in that:

Described spraying collection assembly also comprises many grooves be uniformly distributed along the circumference, every bar groove successively centrally the internal face of the conical surface of the sidewall of post, catch tray, tapering transition face, baffle ring offer;

Described multiple spacer correspondence is inserted in many grooves, and the internal face glued seals of the conical surface of the sidewall of spacer and newel, catch tray, tapering transition face, baffle ring.

4. the spraying nonuniformity coefficient measurement mechanism according to claim 1 or 2 or 3, is characterized in that:

Described limiting component comprise that an excircle along drip tray arranges vertical with drip tray and towards the baffle ring of catch tray, reference column, a U-shaped limited block vertical with baffle ring arranged along baffle ring excircle,

Described U-shaped limited block is arranged on the below of upper strata angle steel, and described reference column stretches in this U-shaped limited block, and the width of U-shaped limited block defines the rotational angle of this reference column, i.e. the anglec of rotation of drip tray, and the excircle of described baffle ring is also provided with one handle.

5. spraying nonuniformity coefficient measurement mechanism according to claim 4, is characterized in that:

Described measurement mechanism also comprises stand, and described stand is rectangular frame structure, comprises left frame 11, right frame, upper ledge, lower frame, and the inside parallel of described left frame and right frame is provided with two-layer angle steel, upper strata for supporting catch tray, lower floor for supporting test tube rack,

Described test tube rack comprises upper plate, lower plate and biside plate, described upper plate and lower plate are connected by the pillar of both end thread, described biside plate is between upper plate and lower plate, described upper plate offers quantity and that according to catchment mouth identical angle intervals circumference arrange test tube mounting hole identical with the mouth that catchments, described lower plate is provided with and multiplely matches to test tube bottom shape and the corresponding pit in position

Described test tube rack also comprises rolling bearing, axle, described rolling bearing is arranged on one end of axle, the other end of described axle is arranged in the axis hole vertical with side plate that be arranged in side plate, and described test tube rack is movable on lower floor's angle steel of stand by being arranged on the rolling bearing outside biside plate

The rear end of described lower floor angle steel is also provided with limited post, and the front end of described lower floor angle steel is provided with boss, and the inner side of described lower floor angle steel is also provided with the positive stop strip limiting bearing and move left and right.

6. spraying nonuniformity coefficient measurement mechanism according to claim 5, is characterized in that:

Described measurement mechanism also comprises two strip frame plates for installing test product, and described strip frame plate is bolted in the horizontal amount of the upper ledge of stand, and is positioned at the top of the newel of catch tray and vertical with newel, its height adjustable; Two strip frame plates are provided with multiple circular hole for regulating test product coaxial with catch tray newel or mounting hole.

7. spraying nonuniformity coefficient measurement mechanism according to claim 6, it is characterized in that: described test tube is glass test tube, described test tube rack is organic glass test tube rack.

8. spraying nonuniformity coefficient measurement mechanism according to claim 7, it is characterized in that: the centre position of described upper plate and lower plate is provided with lightening hole, this lightening hole has the effect of draining concurrently.

9. spraying nonuniformity coefficient measurement mechanism according to claim 8, is characterized in that: the top of described newel is for conical.

10. spraying nonuniformity coefficient measurement mechanism according to claim 1, it is characterized in that: described in the catchment internal diameter of mouth consistent, the endoporus of described water collecting nozzle is up big and down small bellmouth and the internal diameter of inlet end is greater than the internal diameter of the mouth that catchments, and the internal diameter of described test tube is greater than the internal diameter of water collecting nozzle endpiece.