CN1336539A - Measurer for mass center, figure center and mass center deviation of object - Google Patents

Abstract

The invention discloses measuring equipment used to measure center of mass, center of figure, and deviator. The equipment is composed of dish bearing matter, rotating vertical shaft, bearing seat, cross-joint supporting arm, base, swing-supporting arm, sensor-supporting arm. Using the cross-joint supporting arm that it rigid coupled with the bearing seat places the rotating vertical shaft on the base. The cross-joint supporting arm consists of two swing-supporting arms setup symmetrically and two sensor-supporting arms setup symmetrically. The swing-supporting arm is placed on the base through knife-edge set. The sensor-supporting arm is connected to the base through sensor coponent. The lifting arm with sensor is installed on the base. An angle measuring component is connected to the rotating vertical shaft.

Description

The measurement mechanism that is used for Measuring Object barycenter, the centre of form and barycenter bias

The present invention relates to a kind of measuring equipment, relate to a kind of measurement mechanism that is used for Measuring Object barycenter, the centre of form and barycenter bias specifically.

The measurement of rotary body quality characteristic value is very important for the object of remote high-speed motion, because its application is narrower, its pertinent literature is also rare.Domestic present employed rotary body quality characteristic value measuring equipment is an import equipment, and the measurement of its barycenter, the centre of form is carried out on two equipment respectively.When measuring barycenter, the said equipment adopts the dual edge of a knife (being equivalent to two vertical balances of placing), and the barycenter bias of measuring two vertical direction respectively obtains the position of barycenter with respect to dual edge of a knife point of crossing.The measurement of the centre of form then is the change in radius amount when adopting displacement transducer to rotate by measured body, draws the position of its centre of form with respect to axis of rotation after mathematical computations, and then by calculating the bias of barycenter with respect to the centre of form.Though said method is reliable to the measurement of the barycenter and the centre of form, but because above-mentioned measuring method is to finish by two different measuring basiss to the measurement of the barycenter and the centre of form, the measuring basis that is barycenter is the gravity axis by dual edge of a knife point of crossing, and the measuring basis of the centre of form is an axis of rotation, so the barycenter bias of calculating with this equipment is insecure.And the said equipment measures the purpose of the barycenter and the centre of form mainly is in order to measure barycenter bias, so the defective of class measuring equipment is tangible.

Be to solve the deficiencies in the prior art, once designed according to the needs of some units of China and finished a centroid feature parameter measurement equipment inventor early stage of present patent application.Its basic ideas are to finish the measurement of the barycenter and the centre of form on same equipment, calculate barycenter bias then.Concrete scheme is that three uniform LOAD CELLS are installed on a rotary axis, at first measured body is placed on the top place of three uniform LOAD CELLS, calculate the position of its barycenter according to three component that sensor bore, rotate measured body (three sensors also rotate simultaneously thereupon) then, measure the change in radius amount that it rotates a circle with the grating chi, draw position of form center by mathematical computations, calculate barycenter bias afterwards again.This device has been obtained effect preferably by practical application, and measuring accuracy is better than inlet device, but also comes with some shortcomings.As its barycenter measuring basis is gravity axis by three sensor geometric centroids, and centre of form measuring basis is an axis of rotation, that is to say that both benchmark are still inequality.But why this device can obtain measurement effect preferably, its main cause is that this device is by accurate processing, the geometric centroid of three sensors is overlapped with axis of rotation as far as possible, and, reduced the error that causes because of the benchmark difference to greatest extent owing to be on same table apparatus, to make turning axle overlap with gravity axis as far as possible by adjustment.But because its deficiency that exists in essence, turning axle overlaps the complexity adjusted and loaded down with trivial details with gravity axis in addition, makes the precision of surveying be difficult to obtain the continuation raising.

Purpose of the present invention provide with regard to being to overcome above-mentioned the deficiencies in the prior art part a kind of can be on same measurement mechanism, adopt same measuring basis, finish the measurement mechanism that is used for Measuring Object barycenter, the centre of form and barycenter bias that the rotary body quality characteristic value is measured accurately.

Purpose of the present invention can realize by following measure:

The measurement mechanism that is used for Measuring Object barycenter, the centre of form and barycenter bias of the present invention comprises dish bearing matter and the vertical rotation shaft that combines by connected mode concentric, rigidity, be installed in the actuating unit of vertical rotation shaft lower end, described vertical rotation shaft is placed on the support by the cross hang jib that is fixed on the supporting base; Described cross hang arm is made up of two that are positioned at same horizontal axis direction symmetrically arranged swing sway braces and two symmetrically arranged sensing sway braces that are positioned at same horizontal axis direction; Described swing sway brace is placed on the support by edge of a knife subframe, and described sensing sway brace links to each other with support by sensing element; The lifting arm that is positioned at support one side is provided with the sensor that is used for Displacement Measurement; Be connected with a measurement of angle element on the described vertical rotation shaft.

The axis of the axis of the swing sway brace of cross hang arm and sensing sway brace described in composition the present invention is positioned at same surface level and intersects vertically.

Edge of a knife pair described in the present invention can adopt following multiple different structure to realize: as by the edge of a knife back-up block with wedge shape vertex of a cone that cooperatively interacts with have the arc groove supporting seat and constitute; Or by the planar support piece that cooperatively interacts with to have the wedge shape vertex of a cone and its cone top part be that the supporting seat of globoidal structure constitutes; Also can be by end face be processed with V-shaped groove supporting seat, be placed on the roller in the V-shaped groove and its end face of matching with the roller cylinder is that the back-up block of planar structure constitutes.Certainly also can adopt the structure of other any known to realize.But the secondary all up-down structures of the edge of a knife of said structure exchange and use in addition.

The actuating unit that is used for the running of driven in rotation vertical shaft among the present invention is a hollow shaft type motor, and this motor combines with the lower surface of vertical rotation shaft by pin coupler; In the inner chamber of described motor quill shaft, be coated with one with vertical rotation shaft between adopt concentric, the mode of being rigidly connected to combine coupling shaft, the lower end of this coupling shaft is connected with a measurement of angle element that is used for outer corner measurement; Described measurement of angle element can be a photoelectric coded disk, also can adopt the measurement of angle element of other any known.

Swing sway brace described in the present invention is provided with adjusting bolt and the register pin that is used to regulate the supporting base height, this register pin lower end be fixedly mounted on support on locating piece on the dowel hole that processes match, the bottom surface of described adjusting bolt contacts with the end face of above-mentioned locating piece; Being provided with one at swing sway brace end is the bearing that coupling shaft is installed on the location-plate and its axis parallels with edge of a knife bus, and the support Joint and be clamped in the side direction limited block of described bearing both sides and the position-limit mechanism of forming with the axial limiting piece that is positioned at coupling shaft tip location place of support Joint of pyramidal structure by location-plate, by its end.

Sensing sway brace described in the present invention is by being connected with locating piece on being installed in support with the register pin that is positioned at its bottom surface and the vertically disposed plate that is located by connecting, is installed on the plate that is located by connecting that it combines, and the sensing sway brace that is positioned at place, locating piece top position is provided with one and regulates bolt; The end of sensing sway brace links to each other with force cell on being installed in support by adjustable feeler lever; The end of sensing sway brace also can be by having certain rigidity elastic body link to each other with displacement transducer on being installed in support.

In order on this device, can to finish the measurement of moment of inertia simultaneously, below described dish bearing matter two respective side respectively be provided with a cover by Connection Block, place Connection Block both sides and coupled spring, rotation inerttia mechanism that the axial-adjustment unit that combines with two spring ends is formed; This rotation inerttia mechanism is installed on the support by the regulating device of being made up of axial adjustment bar and holder, and the Connection Block between two springs joins by web member and dish bearing matter.

The present invention is by finishing the enforcement of this technical scheme of object mass center, the centre of form, barycenter bias and rotation inerttia on an equipment, fundamentally solved barycenter bias and measured barycenter and the inconsistent defective of centre of form measuring basis in the calculating, the measuring accuracy of barycenter bias is improved significantly.In addition, the present invention be advantageous in that balance principle (knife-edge technique) and rotational structure are organically combined, utilize edge of a knife pair to bear most weight, small variable with the generation of a small amount of journey sensor measurement barycenter deviator, because its range is little, also just makes the measuring accuracy of barycenter itself be significantly improved.

The drawing of accompanying drawing is described as follows:

Fig. 1 is front view of the present invention (the A-A revolved sectional view of Fig. 2).

Fig. 2 is the B-B cut-open view of Fig. 1.

Fig. 3 is the C-C cut-open view of moment of inertia measuring mechanism among Fig. 2.

Fig. 4 is that figure cuts open in the D-D office of Fig. 2.

Fig. 5 is that figure cuts open in the E-E office at the position of edge of a knife pair among Fig. 1, a kind of embodiment of the present invention.

Fig. 6 is the cut-open view of second kind of embodiment of edge of a knife pair among Fig. 1.

Fig. 7 is the cut-open view of the third embodiment of edge of a knife pair among Fig. 1.

The present invention does with detailed description below with reference to embodiment (accompanying drawing), but does not limit the present invention.

As shown in Figure 1, 2, the measurement mechanism that is used for Measuring Object barycenter, the centre of form and barycenter bias of the present invention comprises by connected mode concentric, rigidity and is installed in dish bearing matter (1) on the vertical rotation shaft (5), be positioned at the hollow shaft type motor (18) of vertical rotation shaft (5) lower end, this motor (18) combines by the lower surface of pin coupler (16) with vertical rotation shaft (5); In the quill shaft inner chamber of described motor (18), be coated with one with vertical rotation shaft (5) between adopt concentric, the mode of being rigidly connected to combine coupling shaft (19), the lower end of this coupling shaft (19) is connected with a photoelectric coded disk (20) that is used for outer corner measurement, described vertical rotation shaft (5) is installed in the supporting base (4) by bearing (21), and supporting base (4) is placed on the support by the cross hang jib that is fixed on its outer wall; Described cross hang arm is made up of two that are positioned at same horizontal axis direction symmetrically arranged swing sway braces (6) and two symmetrically arranged sensing sway braces (26) of being positioned at same horizontal axis direction, and the axis of the axis of described swing sway brace (6) and sensing sway brace (26) is positioned at same surface level and intersects vertically; Described two swing sway braces all are placed on the support (22) by edge of a knife pair (as shown in Figure 5) frame that has arc groove back-up block (7) and have supporting seat (a 8) formation of the wedge shape vertex of a cone edge of a knife by cooperatively interacting that is positioned at its below, on two swing sway braces (6), also be provided with adjusting bolt (10) and the register pin (9) that is used to regulate the supporting base height, described register pin (9) lower end be fixedly mounted on support (22) on locating piece (37) on the dowel hole (36) that processes match, the bottom surface of described adjusting bolt (10) contacts with the end face of above-mentioned locating piece (37); It is that the coupling shaft (14) of pyramidal structure is installed in location-plate (11) is gone up and its axis parallels with edge of a knife bus bearing (12), and support (22) Joint and be clamped in the side direction limited block (15) of described bearing (12) both sides and the position-limit mechanism of forming with the axial limiting piece (13) that is positioned at coupling shaft (14) tip location place of support (22) Joint by location-plate (11), by its end that two swing sway brace (6) ends respectively are provided with a cover; Two sensing sway braces (26) among the present invention are all by being connected with convex shape locating piece (23) on being installed in support (22) with the register pin (24) that is positioned at its bottom surface and the vertically disposed plate that is located by connecting (25), is installed on the plate that is located by connecting (25) that it combines, the sensing sway brace (26) that is positioned at convex shape locating piece (23) top position place is provided with one and regulates bolt (27), and the end of two sensing sway braces (26) is all by adjustable feeler lever (28) link to each other with little range force detecting sensor (29) on being installed in support (22) (shown in Fig. 1,4); The lifting arm (3) that is positioned at support (22) one sides is provided with the sensor (2) that is used for Displacement Measurement.Shown in Fig. 2,3, described dish bearing matter (1) below two respective side respectively be provided with a cover by Connection Block (33), place Connection Block (33) both sides and coupled spring (31), rotation inerttia mechanism that the axial-adjustment unit that combines with two springs (31) end is formed; This rotation inerttia mechanism is installed on the support (22) by the regulating device of being made up of axial adjustment bar (34) and holder (30), and the Connection Block (33) that is positioned between two springs (31) joins by connecting pin (32) and dish bearing matter (1).

Edge of a knife pair described in the present invention also can adopt as Fig. 6, structure shown in Figure 7 and realize: promptly adopt by the back-up block with flat top surface structure (7) that cooperatively interacts and have the wedge shape vertex of a cone and its cone top part is that the supporting seat (8) of globoidal structure constitutes; Also can adopt by end face be processed with V-shaped groove supporting seat (8), be placed on the roller (35) in the V-shaped groove and its end face of matching with the roller cylinder is that the back-up block (7) of planar structure constitutes.

When carrying out the barycenter measurement with device of the present invention, earlier measured body is installed on the dish bearing matter (1), outward winding in adjusting bolt (10) and (27) that will be positioned at respectively more afterwards on two swing sway braces (6) and the two sensing sway braces (26), and the register pin on it (9) and (24) extracted, make that supporting base (4) can be neatly around the secondary bus swing of the edge of a knife, this moment starter motor (18), drive slowly rotation synchronously of measured body by vertical rotation shaft (5), variation (angle of its rotation is recorded by photoelectric coded disk (20)) along with the measured body anglec of rotation, if the barycenter of measured body is not in the axis of rotation position, its centroid position will move in a circle around axis of rotation (centroid position changes with respect to the orientation of axis of rotation), because the edge of a knife subsidiary reaction that utilizes the balance principle to be provided with is very sensitive, make that the two sensing sway braces (26) that are positioned at the perpendicular setting of edge of a knife bus will be with the variation of centroid position around edge of a knife swing (edge of a knife bus is positioned at same vertical plane with two symmetrically arranged swing sway brace axis and parallels), meanwhile, the force cell (29) that links to each other with sensing sway brace (26) end will reflect corresponding cyclic force value variable quantity.If measured body rotates a week, the reading of force cell is constant, illustrates that then barycenter just in time is positioned at axis of rotation.If measured body rotates a week, the reading of force cell is done cyclical variation, can obtain orientation and the size that barycenter departs from axis of rotation according to the reading Changing Pattern, carry out trim by the trim groove (distance of trim slot pitch axis of rotation is known fixed number) that has designed on the dish bearing matter (1), join in the opposite direction of barycenter and to put a certain amount of counterweight, repeat above-mentioned work afterwards, after rotating a circle, the little value of the reading variable quantity of force cell following (this value requires to decide according to measuring accuracy) to regulation, think that the reading of force cell is constant this moment, and promptly the comprehensive barycenter of mass and measured body is at axis of rotation.The centroid position that can calculate measured body by quality and the position angle of whole mass this moment, it calculates principle is that the moment of the two formation is equal, direction is opposite.In measuring process, if the initial reading of force cell is improper, then can make its initial reading moderate, to satisfy the requirement of measurement that rotate a circle to range by adjustment to adjustable feeler lever (28).Swing the setting of the terminal position-limit mechanism of sway brace (6) in addition, can play preventing that effectively supporting base (4) from rotating or the effect of displacement in measuring process, in case the degree of accuracy that influence is measured.

(measured body of centre of form measurement only limits to rotary body when carrying out centre of form measurement with device of the present invention, be that the cross section is circular object), respectively register pin (9) and (24) are inserted in the pin-and-hole of locating piece, and adjusting bolt (10) and (27) that will be positioned on two swing sway braces (6) and the two sensing sway braces (26) screw, make whole rotary axis location, can not swing, and will be positioned on the adjustable feeler lever (28) of sensing sway brace (26) end and revolve, make it break away from force cell (29), in case force cell damages.Be positioned at the height of support (22) one side lifting arms (3) afterwards by adjustment, sensor (2) gauge head that is used in Displacement Measurement contacts with the measured body surface or near (contact or near the measured body surface, depend on the characteristic of used sensor); This moment starter motor (18), drive slowly rotation synchronously of measured body by vertical rotation shaft (5), variation (angle of its rotation is recorded by photoelectric coded disk (20)) along with the measured body anglec of rotation, measure the change in radius of measured body by the sensor (2) of Displacement Measurement, draw the position of this cross section geometric centre of form by mathematical computations then with respect to axis of rotation.

The application that another has practical value of the present invention is to measure the bias of barycenter with respect to the centre of form, after accurately measuring centroid position and position of form center by said method, barycenter bias then is easy to calculate, because of the two measuring basis is same axis of rotation, so the barycenter bias result who obtains is reliable.The barycenter measuring basis of prior art then is the gravity axis by the geometric center of three or more LOAD CELLS, and centre of form measuring basis then is by axis of rotation, because the benchmark difference, resulting barycenter bias result also is insecure naturally.

When carrying out rotation inerttia with device of the present invention, by connecting pin (32) and with the nut of connecting pin lower end threads engaged dish bearing matter (1) is joined with rotation inerttia mechanism, again by regulating the axial-adjustment unit that combines with two springs (31) end, give two springs (31) certain prestretching amount, make between two groups of springs of two pairs of symmetrical distributions and measured body and the rotary axis to constitute an approximate simple harmonic quantity circular vibration system.Behind a given initial corner, this system will make the simple harmonic quantity circular vibration, measure the vibration period of system, can calculate its moment of inertia value according to the stiffness coefficient of this cycle and system.And stiffness coefficient can be placed on dish bearing matter with the object of existing theoretical value, waits to measure the stiffness coefficient that its all after date calculates system.

Claims (10)

1, a kind of measurement mechanism that is used for Measuring Object barycenter, the centre of form and barycenter bias, it comprises dish bearing matter (1) and the vertical rotation shaft (5) that combines by connected mode concentric, rigidity, be installed in the actuating unit of vertical rotation shaft (5) lower end, it is characterized in that: described vertical rotation shaft (5) is placed on the support (22) by the cross hang jib that is fixed on the supporting base (4); Described cross hang arm is made up of two that are positioned at same horizontal axis direction symmetrically arranged swing sway braces (6) and two symmetrically arranged sensing sway braces (26) of being positioned at same horizontal axis direction; Described swing sway brace (6) is placed on the support (22) by edge of a knife subframe, and described sensing sway brace (26) links to each other with support (22) by sensing element (29); The lifting arm (3) that is positioned at support (22) one sides is provided with the sensor (2) that is used for Displacement Measurement; Be connected with a measurement of angle element (20) on the described vertical rotation shaft (5).

2, the measurement mechanism that is used for Measuring Object barycenter, the centre of form and barycenter bias according to claim 1 is characterized in that: the axis of the swing sway brace (6) of composition cross hang arm and the axis of sensing sway brace (26) are positioned at same surface level and intersect vertically.

3, the measurement mechanism that is used for Measuring Object barycenter, the centre of form and barycenter bias according to claim 1 is characterized in that: described edge of a knife pair is to be had arc groove back-up block (7) and had supporting seat (8) formation of the wedge shape vertex of a cone edge of a knife by what cooperatively interact.

4, the measurement mechanism that is used for Measuring Object barycenter, the centre of form and barycenter bias according to claim 1 is characterized in that: described edge of a knife pair is by the planar support piece (7) that cooperatively interacts and has the wedge shape vertex of a cone and its cone top part is that the supporting seat (8) of globoidal structure constitutes.

5, the measurement mechanism that is used for Measuring Object barycenter, the centre of form and barycenter bias according to claim 1 is characterized in that: described edge of a knife pair be by end face be processed with V-shaped groove supporting seat (8), be placed on the roller in the V-shaped groove and its end face of matching with the roller cylinder is that the back-up block (7) of planar structure constitutes.

6, the measurement mechanism that is used for Measuring Object barycenter, the centre of form and barycenter bias according to claim 1, it is characterized in that: the actuating unit that is used for driven in rotation vertical shaft (5) running is a hollow shaft type motor (18), in the inner chamber of described motor (18) quill shaft, be coated with one with vertical rotation shaft (5) between adopt concentric, the mode of being rigidly connected to combine coupling shaft (19), the lower end of this coupling shaft (19) is connected with a photoelectric coded disk (20) that is used for outer corner measurement.

7, the measurement mechanism that is used for Measuring Object barycenter, the centre of form and barycenter bias according to claim 1 is characterized in that: described swing sway brace (6) is provided with adjusting bolt (10) and the register pin (9) that is used to regulate supporting base (4) height; This register pin (9) be fixedly mounted on support (22) on locating piece (37) on the dowel hole (36) that processes match, the bottom surface of described adjusting bolt (10) contacts with the end face of above-mentioned locating piece (37); Being provided with one at swing sway brace (6) end is that the coupling shaft (14) of pyramidal structure is installed in location-plate (11) is gone up and its axis parallels with edge of a knife bus bearing (12), and support (22) Joint and be clamped in the side direction limited block (15) of described bearing (12) both sides and the position-limit mechanism of forming with the axial limiting piece (13) that is positioned at coupling shaft (14) tip location place of support (22) Joint by location-plate (11), by its end.

8, the measurement mechanism that is used for Measuring Object barycenter, the centre of form and barycenter bias according to claim 1, it is characterized in that: described sensing sway brace (26) is by being connected with locating piece (23) on being installed in support (22) with the register pin (24) that is positioned at its bottom surface and the vertically disposed plate that is located by connecting (25), is installed on the plate that is located by connecting (25) that it combines, and the sensing sway brace (26) that is positioned at place, locating piece (23) top position is provided with one and regulates bolt (27); The end of sensing sway brace (26) contacts with sensing element (29) by adjustable feeler lever (28).

9, the measurement mechanism that is used for Measuring Object barycenter, the centre of form and barycenter bias according to claim 1 is characterized in that: respectively be provided with the rotation inerttia mechanism that a cover is made up of Connection Block (33), the spring (31) that places Connection Block (33) both sides, the axial-adjustment unit that combines with two springs (31) end in described dish bearing matter (1) below two respective side; This rotation inerttia mechanism is installed on the support (22) by the regulating device of being made up of axial adjustment bar (34) and holder (30), and the Connection Block (33) that is positioned between two springs (31) joins by web member (32) and dish bearing matter (1).

10, according to claim 1 or the 8 described measurement mechanisms that are used for Measuring Object barycenter, the centre of form and barycenter bias, it is characterized in that: described sensing element (29) is force cell or displacement transducer.

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