CN108775840A - A kind of cubing with large-scale testing agency - Google Patents

Abstract

The invention discloses a kind of cubings with large-scale testing agency, including pedestal, cubing ontology and large-scale testing agency, the cubing ontology is set on the pedestal, the cubing ontology is equipped with support member compatible with part to be measured and positioning element, the width of the large size testing agency is more than the width of the part to be measured, the large size testing agency is removably equipped with reference component compatible with the part to be measured, when the cubing is in running order, the reference component is located relatively at the both sides of the part to be measured with the support member；The cubing with large-scale testing agency of the present invention, by the way that large-scale testing agency is arranged, it may be implemented to be detected the large area region of certain products or intermediate region, compared with prior art, the large area region or intermediate region that can not only solve the problems, such as certain products can not be detected, and structure is relatively simple, and cost is relatively low.

Description

A kind of cubing with large-scale testing agency

Technical field

The present invention relates to vehicle manufacturing technology field, especially a kind of cubing with large-scale testing agency.

Background technology

During the welding manufacture of body of a motor car, the precision of white body is the leading indicator of welding and assembling technics level, high-precision The white body of degree can not only improve the assembly of total component, while can also promote the quality in vehicle body appearance gap.

At present during automobile research, stamping parts of automobile single-piece and welding assembly, which mostly use greatly cubing and be detected, to be tested It receives, it is whether qualified with precision and profile tolerance of a surface for confirming stamping parts hole etc., to meet entrucking requirement.In the prior art, by Limitation in the commonly size of rotation snap-gauge testing agency and spatial position, there are the large area region of certain products or in Between region the more difficult situation of detection, be unfavorable for the management and control of Product Precision.

Therefore, it is necessary to provide a kind of cubing with large-scale testing agency, to overcome the above shortcomings.

Invention content

The object of the present invention is to provide a kind of cubings with large-scale testing agency, to solve common rotation in the prior art Snap-gauge testing agency can not detect the large area region of certain products or the deficiency of intermediate region, it can solve certain products Large area region or the problem that can not be detected of intermediate region, and cost is relatively low.

To achieve the goals above, the present invention provides the following technical solutions：

A kind of cubing with large-scale testing agency, including pedestal, cubing ontology and large-scale testing agency, the cubing sheet Body is set on the pedestal, and the cubing ontology is equipped with support member compatible with part to be measured and positioning element, described big The width of type testing agency is more than the width of the part to be measured, and the large size testing agency is removably equipped with and the part to be measured When compatible reference component, the cubing are in running order, the reference component is located relatively at institute with the support member State the both sides of part to be measured.

Preferably, including it is symmetrically set in the support bases of cubing ontology both sides, the large size testing agency is door shape Structure includes the first mounting plate set on the reference component at middle part and set on the reference component both sides, the support Seat is equipped with the second mounting plate, and when the cubing is in running order, the large size testing agency is set to the upper of the cubing ontology Side, first mounting plate are connect with second mounting plate.

Preferably, including rack, the rack are set on the outside of the both ends of the cubing ontology, are set on the rack Be equipped with mounting groove compatible with first mounting plate, when the cubing is in off working state, first mounting plate with The mounting groove cooperation.

Preferably, the support base is slidably connected with the pedestal, the glide direction of the support base and the part to be measured Length direction it is parallel.

Preferably, intermediate plate is equipped between first mounting plate, the reference component detachably connects with the intermediate plate It connects.

Preferably, the bottom of the intermediate plate is equipped with the first reference plane, and the reference component includes flat with the intermediate plate The bottom of the datum plate of row connection, the datum plate is equipped with the second reference plane.

Preferably, first mounting plate is equipped with open slot, and limiting plate and lock are vertically equipped on second mounting plate Tight part, the locking member are set to the top of the limiting plate, and the locking member includes column spinner and latch segment, and the cubing is in When working condition, the side of first mounting plate is bonded with second mounting plate, and the other side is bonded with the latch segment, institute The end face for stating the first mounting plate is abutted with the limiting plate, and the column spinner is abutted with the bottom surface of the open slot.

Preferably, the both sides of the open slot are equipped with first positioning hole, and second mounting plate is the two of the locking member Side is equipped with second location hole compatible with the first positioning hole, when the cubing is in running order, first positioning Hole is connect with the second location hole by fastener.

Preferably, the lower section of the pedestal is equipped with idler wheel and lifting gear, and the lifting gear includes from top to bottom sequentially The first support plate, cylinder and the second support plate of connection, first support plate are connected with the cubing ontology, described second The telescopic rod vertical connection of fagging and the cylinder, the maximum distance of the bottom surface of second support plate apart from the cubing ontology The distance of cubing ontology described in distance from bottom not less than the idler wheel.

Preferably, further include reference block, the reference block includes reference seat and protection cap, and the protection cap is set to the base On quasi- seat, the reference seat is equipped with datum hole, and the protection cap is equipped with and the matched guiding of the datum hole in corresponding position Column is equipped with protection chains between the reference seat and the protection cap.

The beneficial effects of the present invention are：

The present invention provides a kind of cubings with large-scale testing agency, including pedestal, cubing ontology and large-scale detection machine Structure, the cubing ontology are set on the pedestal, and the cubing ontology is equipped with support member compatible with part to be measured and determines The width of position component, the large size testing agency is more than the width of the part to be measured, and the large size testing agency removably sets There is a reference component compatible with the part to be measured, when the cubing is in running order, the reference component and the support Component is located relatively at the both sides of the part to be measured；The cubing with large-scale testing agency of the present invention, by the way that large-scale detection is arranged Mechanism may be implemented to be detected the large area region of certain products or intermediate region, compared with prior art, can not only The large area region or intermediate region for enough solving the problems, such as certain products can not be detected, and structure is relatively simple, at This is relatively low.

Description of the drawings

Fig. 1 is the axonometric drawing of the cubing with large-scale testing agency of the embodiment of the present invention；

Fig. 2 is the using renderings of the cubing with large-scale testing agency of the embodiment of the present invention；

Fig. 3 is the axonometric drawing of the large-scale testing agency of the embodiment of the present invention；

Fig. 4 is large-scale testing agency and the installation diagram of rack of the embodiment of the present invention；

Fig. 5 is the axonometric drawing of the lifting gear of the embodiment of the present invention；

Fig. 6 is the axonometric drawing of the reference block of the embodiment of the present invention.

Reference sign：

1- pedestals, 2- cubing ontologies, 3- large sizes testing agency, 4- parts to be measured, 5- support members, 6- positioning elements, 7- bases Quasi-component, 8- support bases, the first mounting plates of 9-, the second mounting plates of 10-, 11- racks, 12- intermediate plates, 13- datum plates, 14- Open slot, 15- limiting plates, 16- locking members, 17- fasteners, 18- idler wheels, 19- lifting gears, the first support plates of 20-, 21- gas Cylinder, the second support plates of 22-, 23- reference blocks, 24- datum holes, 25- guide posts, 26- protection chains.

Specific implementation mode

The embodiments described below with reference to the accompanying drawings are exemplary, is only used for explaining the present invention, and cannot be construed to Limitation of the present invention.

As depicted in figs. 1 and 2, the embodiment of the present invention provides a kind of cubing with large-scale testing agency, including pedestal 1, cubing ontology 2 and large-scale testing agency 3, the cubing ontology 2 are set on the pedestal 1, the cubing ontology 2 be equipped with The width of 4 compatible support member 5 of part to be measured and positioning element 6, the large size testing agency 3 is more than the part 4 to be measured Width, the large size testing agency 3 are removably equipped with reference component 7 compatible with the part 4 to be measured, and the cubing is in When working condition, the reference component 7 is located relatively at the both sides of the part to be measured 4 with the support member 5.Wherein, described fixed Position component 6 includes the set pin sleeve being set on cubing ontology 2 and the matched positioning pin of the set pin sleeve and clamp assemblies. The invention also includes the detection instruments of such as clearance gauge and logical shotpin etc..Pedestal 1 is preferably rectangular-shape structure.By reference component 7 are set as being detachably connected with part 4 to be measured, are conducive to the difference according to part 4 to be measured, substitute different reference components 7 to meet More diversified part to be measured 4.In addition, the present invention further preferably includes common detection snap-gauge, examined with the edge to part 4 to be measured It surveys.The support member 5 preferably includes riser disposed in parallel, and the riser is equipped with and the 4 matched supporting surface of part to be measured.

The present invention application method be：In use, part 4 to be measured is placed in the support member 5 of cubing ontology 2 first, And part 4 to be measured is positioned and fixed using positioning element 6, then by large-scale testing agency 3 across being placed on part 4 to be measured On, and reference component 7 and support member 5 are oppositely arranged, then large-scale testing agency 3 are positioned, using clearance gauge or The detection instruments such as logical shotpin are detected part 4 to be measured；By aforesaid operations step it is found that the present invention uses large-scale testing agency 3, It may be implemented to be detected the large area region of certain products or intermediate region, compared with prior art, can not only solve The problem that the large area region of certainly certain products or intermediate region can not be detected, and structure is relatively simple, cost compared with It is low.

In order to ensure that the accuracy of detection of cubing, the present invention include being symmetrically set in the support base 8 of 2 both sides of cubing ontology, The support base 8 is preferably provided on pedestal 1, and the large size testing agency 3 is character "door" form structure, includes set on described in middle part Reference component 7 and the first mounting plate 9 set on 7 both sides of the reference component, the support base 8 are equipped with the second mounting plate 10, When the cubing is in running order, the large size testing agency 3 is set to the top of the cubing ontology 2, first installation Plate 9 is connect with second mounting plate 10.When large-scale testing agency 3 is detected part 4 to be measured, support base 8 is played to big The structure that type testing agency 3 is supported and positions.First mounting plate 9 and the second mounting plate 10 can be connected by fastener It connects, connecting hole arranged in parallel can be equipped with along height on the first mounting plate 9 and the second mounting plate 10, according to different measurements Height selects different connecting holes.Quantity setting of the quantity of support base 8 according to large-scale testing agency 3, the quantity of support base 8 are excellent Choosing is 2 times of large-scale testing agency 3.As shown in Fig. 2, the quantity of large-scale testing agency 3 is 3, then support base 8 is correspondingly arranged on 6.

As shown in Figure 2 and Figure 4, the present invention further preferably includes rack 11, and the rack 11 is set to the cubing ontology 2 Both ends on the outside of, mounting groove compatible with first mounting plate 9 is provided on the rack 11, the cubing is in non- When working condition, first mounting plate 9 coordinates with the mounting groove.Rack 11 is also to be arranged in pairs, preferably with pedestal 1 Center line is arranged for axisymmetrical, to carry out preferably support to large-scale testing agency 3.Rack 11 includes bottom connected vertically Seat and vertical plate, support block is vertically installed on vertical plate, the mounting groove is offered in support block, in each support block Multiple mounting grooves are preferably arranged in parallel with, multiple first mounting plates 9 is accommodated to simultaneously support, makes full use of space.Such as Fig. 2 institutes Show, 2 mounting grooves are just provided in each support block.Certainly, the large-scale testing agency 3 can also be hung on institute as needed The side for stating cubing ontology 2, more fully to utilize space.

In order to keep overall structure more flexible, the position that especially makes large-scale testing agency 3 that can be fixed and stop More various, the support base 8 is preferably slidably connected with the pedestal 1, the glide direction of the support base 8 and the part to be measured 4 length direction is parallel.It is preferably provided with sliding rail on pedestal 1, corresponding sliding slot is preferably provided in the bottom of support base 8, Support base 8 is slidably connected with pedestal 1 by sliding slot and sliding rail.When the different location to part 4 to be measured is detected, so that it may to move Dynamic large size testing agency 3, and it is determined with following large-scale testing agency 3 in the position that can adjust support base 8 simultaneously Position.

Further, intermediate plate 12, the reference component 7 and the intermediate plate 12 are equipped between first mounting plate 9 It is detachably connected.Intermediate plate 12 preferably with 9 vertical connection of the first mounting plate.And it is gone back on intermediate plate 12 in the first mounting plate 9 It is transversely provided with reinforcing plate, the length direction of reinforcing plate is preferably identical as the length direction of reinforcing plate 12.Due to large-scale testing agency 3 Span it is larger, on the one hand the setting of reinforcing plate is conducive to the bonding strength for making intermediate plate 12 and the first mounting plate 9 and whole Body structure it is more rigid, so that intermediate plate 12 is more effectively kept its straightness, on the other hand can also improve large-scale testing agency 3 Stability, accuracy and service life.

Preferably, the bottom of the intermediate plate 12 is equipped with the first reference plane, and the reference component 7 includes and the intermediate plate The bottom of 12 parallel connected datum plates 13, the datum plate 13 is equipped with the second reference plane.The setting the simultaneously on reference component 7 One reference plane and the second reference plane not only can simultaneously be detected two positions of part 4 to be measured, moreover it is possible to further enhance whole The rigidity of body structure.The length of datum plate 13 is less than the length of intermediate plate 12.In order to mitigate whole weight, in above-mentioned intermediate plate 12, it is evenly arranged with lightening hole on the first mounting plate 9, the second mounting plate 10 and datum plate 13.In addition, the intermediate plate 12 is preferred Including the first intermediate plate and the second intermediate plate, first intermediate plate is slidably connected with second intermediate plate, the first intermediate plate It is both provided with the first reference plane with the bottom of the second intermediate plate, the first base may be implemented by the first intermediate plate and the second intermediate plate Movement of the quasi- face in the width direction for being parallel to part 4 to be measured.In addition, the lower section of the large size testing agency 3 can also include Sliding rail, the reference component 7 are slided along the sliding rail, and such structure can also be adjusted the position of reference component 7.

Specifically, first mounting plate 9 is equipped with open slot 14, and limiting plate is vertically equipped on second mounting plate 10 15 and locking member 16, the locking member 16 is set to the top of the limiting plate 15, and the locking member 16 includes column spinner and locking When block, the cubing are in running order, the side of first mounting plate 9 is bonded with second mounting plate 10, the other side It is bonded with the latch segment, the end face of first mounting plate 9 is abutted with the limiting plate 15, the column spinner and the opening The bottom surface of slot 14 abuts.The open slot 14 is preferably inverted U-channel, includes the bar shaped of superposed arc groove and lower part Slot, the radius of arc groove is more than the width of bar-shaped trough, and the width of bar-shaped trough is less than the outer diameter of column spinner, to prevent spin-ended rotary column from It is slid in open slot 14.The cross section of latch segment is preferably hexagon, and the distance at its center of the Edge Distance of latch segment is more than The radius of arc groove, to play pressuring action to the first mounting plate 9.Wherein, limiting plate 15 to the first mounting plate 9 in vertical direction On limited, locking member 16 limits the first mounting plate 9 in the horizontal direction, to large-scale testing agency 3 carry out More stringent positioning ensures the precision of detection.

In order to further increase the first mounting plate 9 and the second mounting plate 10, the both sides of the open slot 14 are equipped with first and determine Position hole, the second mounting plate 10 are equipped with second location hole compatible with the first positioning hole in the both sides of the locking member 16, When the cubing is in running order, the first positioning hole is connect with the second location hole by fastener 17.Such as Fig. 3 institutes Show, fastener 17 can be L-shaped locking positioning pin, it may be screw or bolt certainly.

In addition, the lower section of the pedestal 1 is equipped with idler wheel 18 and lifting gear 19, as shown in figure 5, the lifting gear 19 wraps Include the first support plate 20, cylinder 21 and the second support plate 22 connected in sequence, first support plate 20 and the cubing ontology 2 It is connected, the telescopic rod vertical connection of second support plate 22 and the cylinder 21, the bottom surface distance of second support plate 22 The distance of cubing ontology 2 described in distance from bottom of the maximum distance of the cubing ontology 2 not less than the idler wheel 18.Such as Fig. 1 and Shown in Fig. 2, idler wheel 18 is preferably provided with 4, is preferably provided with below the quadrangle of pedestal 1, and lifting gear 19 is preferably provided with 6 A, wherein 4 are arranged in the outside for being correspondingly arranged at 4 idler wheels 18 respectively, in addition 2 are arranged in the middle part of 1 length direction of pedestal, Support to be more uniformly distributed is carried out to the parts of pedestal 1 and upper part.

As shown in fig. 6, further including reference block 23, the reference block 23 includes reference seat and protection cap, and the protection cap is set In in the reference seat, the reference seat is equipped with datum hole 24, and the protection cap is equipped with and the datum hole in corresponding position 24 matched guide posts 25 are equipped with protection chains 26 between the reference seat and the protection cap.Reference seat preferably passes through fastening Part is fixedly connected with pedestal 1.Reference seat and protection cap are both preferably column structure, and right on the outer wall of reference seat and protection cap Linking screw should be provided with and lower linking screw, the both ends of protection chains 26 are connected screw and lower linking screw on respectively It is fixedly connected.Protection chains 26 can play the role of preventing protection losing of cover.Guide post 25 is preferably made of polyurethane, and It is interference fit with datum hole 24, further increases the connection reliability of protection cap and reference seat.

The structure, feature and effect of the present invention, the above institute are described in detail based on the embodiments shown in the drawings Only presently preferred embodiments of the present invention is stated, but the present invention is not to limit practical range, every structure according to the present invention shown in drawing Change made by thinking, or is revised as the equivalent embodiment of equivalent variations, when not going beyond the spirit of the description and the drawings, It should all be within the scope of the present invention.

Claims (10)

1. a kind of cubing with large-scale testing agency, which is characterized in that including pedestal (1), cubing ontology (2) and large-scale detection Mechanism (3), the cubing ontology (2) are set on the pedestal (1), and the cubing ontology (2) is equipped with and is mutually fitted with part to be measured (4) The width of the support member (5) and positioning element (6) matched, the large size testing agency (3) is more than the width of the part (4) to be measured Degree, the large size testing agency (3) are removably equipped with the part (4) to be measured compatible reference component (7), the cubing When in running order, the reference component (7) is located relatively at the both sides of the part to be measured (4) with the support member (5).

2. the cubing according to claim 1 with large-scale testing agency, which is characterized in that including being symmetrically set in the inspection Has the support base (8) of ontology (2) both sides, the large size testing agency (3) is character "door" form structure, includes the base set on middle part Quasi-component (7) and the first mounting plate (9) for being set to the reference component (7) both sides, the support base (8) are equipped with the second installation When plate (10), the cubing are in running order, the large size testing agency (3) is set to the top of the cubing ontology (2), institute The first mounting plate (9) is stated to connect with second mounting plate (10).

3. the cubing according to claim 2 with large-scale testing agency, which is characterized in that including rack (11), institute Rack (11) is stated on the outside of the both ends of the cubing ontology (2), is provided on the rack (11) and first peace The compatible mounting groove of loading board (9), when the cubing is in off working state, first mounting plate (9) and the mounting groove Cooperation.

4. the cubing according to claim 2 with large-scale testing agency, which is characterized in that the support base (8) and institute It states pedestal (1) to be slidably connected, the glide direction of the support base (8) is parallel with the length direction of part (4) to be measured.

5. the cubing according to claim 2 with large-scale testing agency, which is characterized in that first mounting plate (9) Between be equipped with intermediate plate (12), the reference component (7) is detachably connected with the intermediate plate (12).

6. the cubing according to claim 5 with large-scale testing agency, which is characterized in that the bottom of the intermediate plate (12) Portion be equipped with the first reference plane, the reference component (7) include with the intermediate plate (12) parallel connected datum plate (13), it is described The bottom of datum plate (13) is equipped with the second reference plane.

7. the cubing according to claim 2 with large-scale testing agency, which is characterized in that first mounting plate (9) It is equipped with open slot (14), limiting plate (15) and locking member (16), the locking are vertically equipped on second mounting plate (10) Part (16) is set to the top of the limiting plate (15), and the locking member (16) includes column spinner and latch segment, and the cubing is in When working condition, the side of first mounting plate (9) is bonded with second mounting plate (10), the other side and the latch segment Fitting, the end face of first mounting plate (9) are abutted with the limiting plate (15), the column spinner and the open slot (14) Bottom surface abuts.

8. the cubing according to claim 7 with large-scale testing agency, which is characterized in that the two of the open slot (14) Side is equipped with first positioning hole, and second mounting plate (10) is equipped with and the first positioning hole in the both sides of the locking member (16) When compatible second location hole, the cubing are in running order, the first positioning hole passes through with the second location hole Fastener (17) connects.

9. the cubing according to claim 1 with large-scale testing agency, which is characterized in that the lower section of the pedestal (1) Equipped with idler wheel (18) and lifting gear (19), the lifting gear (19) includes the first support plate connected in sequence from top to bottom (20), cylinder (21) and the second support plate (22), first support plate (20) are connected with the cubing ontology (2), and described The telescopic rod vertical connection of two support plates (22) and the cylinder (21), the bottom surface of second support plate (22) is apart from the inspection Has the distance of cubing ontology (2) described in distance from bottom of the maximum distance not less than the idler wheel (18) of ontology (2).

10. carrying the cubing of large-scale testing agency according to claim 1-9 any one of them, which is characterized in that further include base Quasi- block (23), the reference block (23) include reference seat and protection cap, and the protection cap is set in the reference seat, the benchmark Seat be equipped with datum hole (24), the protection cap corresponding position be equipped with the datum hole (24) matched guide post (25), Protection chains (26) are equipped between the reference seat and the protection cap.