CN209570165U - A kind of levelness detector of workpiece machining surface - Google Patents

Abstract

The utility model provides a kind of levelness detector of workpiece machining surface, including workbench, and the workbench is equipped with the first groove, is equipped with multiple adjustable location structures in first groove；The workbench side is equipped with lift controller, first groove side, the workbench is equipped with the first support plate, first support plate is equipped with horizontal cross structural locator, and above first groove, first support plate is equipped with lifting and allocates structure, and the lifting allocates structure and is correspondingly connected with multiple adjustable location structures.The utility model carries out the positioning of material side by horizontal cross structural locator, then structure is allocated by lifting to allocate material progress contraction type, i.e. multiple induction points and material, then determine by the contraction situation of induction point the levelness of material.

Description

A kind of levelness detector of workpiece machining surface

Technical field

The utility model relates to workpiece sensing equipment technical fields, relate generally to a kind of levelness inspection of workpiece machining surface Survey instrument.

Background technique

At present for the test of the demanding part depth of parallelism, three-coordinates measuring machine or high-precision altitude meter is mostly used to exist The methods of the several points of random inspection is determined by the spatial position of side on tested surface.

Existing levelness detector passes through the position of multiple induction point inductive materials, then sentences when certain point does not issue signal This workpiece levelness of breaking is uneven.

But workpiece is horizontal to being to have certain range, goes and material transmission signal when using multiple points When, it may occur that in error range the case where and cause workpiece to be judged to levelness is inadequate, in turn result in the waste of material.

Utility model content

The utility model provides the levelness detector of workpiece machining surface a kind of to solve to propose in background technique Level due to workpiece, may when going to send signal with material using multiple points to being to have certain range There is a situation where causing workpiece to be judged in error range, levelness is inadequate, and the technology in turn resulting in the waste of material is asked Topic.

To achieve the above object, the utility model provides the following technical solutions: a kind of levelness inspection of workpiece machining surface Instrument, including workbench are surveyed, the workbench is equipped with the first groove, and multiple adjustable positioning knots are equipped in first groove Structure；The workbench side is equipped with lift controller, first groove side, and the workbench is equipped with the first support Plate, first support plate are equipped with horizontal cross structural locator, and above first groove, in first support plate Structure is allocated equipped with lifting, the lifting allocates structure and is correspondingly connected with multiple adjustable location structures.

Further, the adjustable location structure includes four first connecting plates, two sides on the inside of first groove It has been symmetrically arranged with eight first sliding grooves, corresponding eight first sliding grooves that are slidably connected of four first connecting plates, and unilateral side four Two the first screw rods and two the first slide bars, difference in the first sliding groove of the other side four are respectively equipped in the first sliding groove Corresponding two first screw rods and two first slide bars, and corresponding four first screw rods is arranged in rotational symmetry One end is equipped with the first driving motor, and four first screw rods and four first slide bars respectively correspond rotation connection four First connection board ends described in root, and be all provided on four first connecting plates there are two location structure.

Further, the location structure includes the first link block, and first connecting plate side is symmetrically arranged with two Second sliding slot, the second driving motor is equipped in two second sliding slots, and second driving motor drives axis connection second Screw rod, second screw rod are rotatablely connected the first link block, are equipped with the second groove above first link block, described second is recessed Slot lower end is equipped with the first electric telescopic rod, and first electric telescopic rod upper end is detachably connected limited post.

Further, it is symmetrically arranged with two third sliding slots on the inside of second groove, is bolted below the limited post Second connecting plate, second connecting plate is detachably connected the first electric telescopic rod, and the second connection board ends sliding connects Connect two third sliding slots.

Further, the horizontal cross structural locator includes the first horizontal stripe, and first horizontal stripe side is equipped with second Link block, first support plate are equipped with the 4th sliding slot, third driving motor are equipped in the 4th sliding slot, and the third is driven Dynamic motor driven axis connection third screw rod, the third screw rod are rotatablely connected second link block, and on first horizontal stripe Equipped with the 5th sliding slot, the 4th driving motor is equipped in the 5th sliding slot, the 4th driving motor driving shaft connects the 4th Bar, the 4th screw rod are rotatablely connected third connecting plate, and the third connecting plate is equipped with multiple scanners.

Further, it includes the first cylinder that the lifting, which allocates structure, is equipped with the 4th connecting plate below first cylinder, First cylinder one week described in ring is symmetrically arranged with four first telescopic rods, four first telescopic rods on the 4th connecting plate It is correspondingly connected with first support plate, and is equipped with multiple second electric telescopic rods below the 4th connecting plate, multiple described the It is equipped with induction structure below two electric telescopic rods, the induction structure includes the first connecting tube, in first connecting tube Side bottom is equipped with distance-sensor, and two sides are symmetrically arranged with the 6th sliding slot on the inside of first connecting tube, in the 6th sliding slot Equipped with the 5th connecting plate, induction pen is equipped with below the 5th connecting plate, and spring is equipped with above the 5th connecting plate, it is described Spring is correspondingly connected with first connecting tube, and distance-sensor induction connects the 5th connecting plate.

Compared with prior art, the utility model has the beneficial effects that

The utility model is equipped with adjustable positioning in the first groove and ties by being provided with the first groove on the table Structure, so that the positioning reached to the material of various structures be adjusted.

Then the figure for being scanned by structure of the horizontal cross structural locator to the horizontal cross of material, and then obtaining It is compared with the drawing that should be in lift controller, carries out the levelness detection of the first step.

It is allocated finally, allocating multiple induction pens in structure by lifting and carrying out induction to material, i.e., each anchor point is equal Then the condition of production of anchor point is sent in lift controller and carries out data processing by contact material, to obtain material The detection of the levelness of material, while the uneven point of corresponding position can be oriented when injustice.

Detailed description of the invention

Fig. 1 is the utility model structure diagram；

Fig. 2 is the adjustable location structure schematic diagram of the utility model；

Fig. 3 is the utility model horizontal cross structural locator structural schematic diagram；

Fig. 4 is that the utility model lifting allocates structural schematic diagram；

Fig. 5 is the utility model induction structure schematic diagram.

In figure: 1- workbench, the first groove of 11-, 111- first sliding groove, the first support plate of 12-, the 4th sliding slot of 121-, 2- Adjustable location structure, the first connecting plate of 21-, 211- second sliding slot, the first screw rod of 22-, the first slide bar of 23-, 24- first Driving motor, 25- location structure, the first link block of 251-, the second driving motor of 252-, the second screw rod of 253-, 254- second are recessed Slot, the first electric telescopic rod of 255-, 256- limited post, 3- lift controller, 4- horizontal cross structural locator, 41- first Horizontal stripe, the second link block of 42-, 43- third driving motor, 44- third screw rod, the 4th driving motor of 45-, the 4th screw rod of 46-, 47- third connecting plate, 48- scanner, 5-, which is gone up and down, allocates structure, the first cylinder of 51-, the 4th connecting plate of 52-, and 53- second is flexible Bar, the second electric telescopic rod of 54-, 55- induction structure, the first connecting tube of 551-, 552- distance-sensor, 553- the 6th are sliding Slot, the 5th connecting plate of 554-, 555- induction pen, 556- spring.

Specific embodiment

The utility model is more comprehensively retouched below with reference to relevant drawings for the ease of understanding the utility model, It states, several embodiments of the utility model is given in attached drawing, but the utility model can be realized by different forms, It is not limited to text described embodiment, opposite, it theses embodiments are provided so as to disclosed by the utility model interior Hold more thorough and comprehensive.

Embodiment please refers to Fig. 1-5, a kind of levelness detector of workpiece machining surface, including workbench 1, the work Make platform 1 equipped with the first groove 11, first groove 11 is interior to be equipped with multiple adjustable location structures 2；The workbench 1 one Side is equipped with lift controller 3,11 side of the first groove, and the workbench 1 is equipped with the first support plate 12, and described the One support plate 12 is equipped with horizontal cross structural locator 4, and above first groove 11, in first support plate 12 Structure 5 is allocated equipped with lifting, the lifting allocates structure 5 and is correspondingly connected with multiple adjustable location structures 2.

Embodiment, please refers to Fig. 1-2, and the adjustable location structure 2 includes four first connecting plates 21, and described first 11 inside two sides of groove have been symmetrically arranged with eight first sliding grooves 111, and four correspondences of first connecting plate 21 are slidably connected eight First sliding groove 111, and two the first screw rods 22 and two the first slide bars are respectively equipped in unilateral four first sliding grooves 111 23, corresponding two first screw rods 22 and two are symmetrically set respectively in the first sliding groove 111 of the other side four First slide bar 23, and corresponding four described first screw rod, 22 one end are equipped with the first driving motor 24, and described in four First screw rod 22 and four first slide bars 23 respectively correspond four first connecting plate, 21 both ends of rotation connection, and four Location structure 25 there are two being all provided on first connecting plate 21.

Embodiment, please refers to Fig. 1-2, and the location structure 25 includes the first link block 251, first connecting plate 21 Side is symmetrically arranged with two second sliding slots 211, is equipped with the second driving motor 252 in two second sliding slots 211, and described Two driving motors 252 drive the second screw rod of axis connection 253, and second screw rod 253 is rotatablely connected the first link block 251, described The second groove 254 is equipped with above first link block 251,254 lower end of the second groove is equipped with the first electric telescopic rod 255, institute It states 255 upper end of the first electric telescopic rod and is detachably connected limited post 256.

Embodiment please refers to Fig. 1-2, two third sliding slots 257, the limit is symmetrically arranged on the inside of second groove 254 It is bolted the second connecting plate 258 below the column 256 of position, second connecting plate 258 is detachably connected the first electric telescopic rod 255, and 258 both ends of the second connecting plate are slidably connected two third sliding slots 257.

Embodiment, referring to figure 3., the horizontal cross structural locator 4 include the first horizontal stripe 41, first horizontal stripe 41 sides are equipped with the second link block 42, and first support plate 12 is equipped with the 4th sliding slot 121, sets in the 4th sliding slot 121 There is third driving motor 43, the third driving motor 43 drives axis connection third screw rod 44, and the rotation of third screw rod 44 connects It connects second link block 42, and first horizontal stripe 41 is equipped with the 5th sliding slot 411, the is equipped in the 5th sliding slot 411 Four driving motors 45, the 4th driving motor 45 drive the 4th screw rod 46 of axis connection, the 4th screw rod 46 rotation connection the Three connecting plates 47, the third connecting plate 47 are equipped with multiple scanners 48.

Embodiment, referring to figure 4. -5, it includes the first cylinder 51 that the lifting, which allocates structure 5,51 lower section of the first cylinder Equipped with the 4th connecting plate 52, the first cylinder 51 1 weeks described in ring, be symmetrically arranged on the 4th connecting plate 52 four first it is flexible Bar 53, four first telescopic rods 53 are correspondingly connected with first support plate 12, and are equipped with below the 4th connecting plate 52 Multiple second electric telescopic rods 54 are equipped with induction structure 55, the induced junction below multiple second electric telescopic rods 54 Structure 55 includes the first connecting tube 551, and 551 inside bottom of the first connecting tube is equipped with distance-sensor 552, and described first 551 inside two sides of connecting tube are symmetrically arranged with the 6th sliding slot 553, and the 5th connecting plate 554 is equipped in the 6th sliding slot 553, described It is equipped with induction pen 555 below 5th connecting plate 554, and is equipped with spring 556, the spring above the 5th connecting plate 554 556 are correspondingly connected with first connecting tube 551, and the induction of the distance-sensor 552 connects the 5th connecting plate 554.

Operating principle: the utility model is first by being symmetrically arranged with eight first sliding grooves in the first groove two sides, and eight First screw rod and four the first slide bars there are four being symmetrically arranged respectively in first sliding groove, and four first screw rod one end It is equipped with the first driving motor, to drive four the first connecting plates to be moved by four the first driving motor rotations, i.e., Reach specified horizontal cross anchor point.

Then the rotation of the second screw rod is driven by the rotation of the second driving motor, to adjust horizontal longitudinal register point, then It is extended by the first electric telescopic rod on location structure, so that limited post carries out corresponding elongation, and then reaches fixed The effect of position, the locating rod without positioning is respectively positioned in the second groove, to not influence to position.

The rotation of third screw rod is driven by the rotation of third driving motor after the completion of positioning, so that it is determined that horizontal cross structure Longitudinal height of locator, then the 4th driving motor drives the rotation of the 4th screw rod, to carry out to third connecting plate horizontal horizontal To movement, and multiple scanners thereon are scanned material, to obtain the side structure schematic diagram of material, play certain The effect allocated.

Certain elongation is carried out finally by cylinder, then lift controller controls the second electric telescopic rod and extended So that induction structure reaches designated position, then shunk after induction pen contact material, then distance-sensor induction connection The distance of 4th connecting plate, then lift controller carries out statistics to the structure of multiple distance-sensors and obtains last level Spend test result.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof, therefore the reality of the utility model Example is applied just for the utility model one illustrates example, no matter from what point of view the embodiments of the present invention not structures At limitations of the present invention.

Claims (6)

1. a kind of levelness detector of workpiece machining surface, including workbench (1), it is characterised in that: on the workbench (1) Equipped with the first groove (11), multiple adjustable location structures (2) are equipped in first groove (11)；The workbench (1) Side is equipped with lift controller (3), the first groove (11) side, and the workbench (1) is equipped with the first support plate (12), first support plate (12) is equipped with horizontal cross structural locator (4), and above first groove (11), institute State the first support plate (12) be equipped with lifting allocate structure (5), it is described lifting allocate structure (5) be correspondingly connected with it is multiple described adjustable Section formula location structure (2).

2. a kind of levelness detector of workpiece machining surface according to claim 1, it is characterised in that: described adjustable Formula location structure (2) includes four first connecting plates (21), and two sides have been symmetrically arranged with eight the on the inside of first groove (11) One sliding slot (111), corresponding eight first sliding grooves (111) that are slidably connected of four first connecting plates (21), and unilateral four institutes It states and is respectively equipped with two the first screw rods (22) and two the first slide bars (23) in first sliding groove (111), the other side four described the Corresponding two first screw rods (22) and two first slide bars are symmetrically set respectively in one sliding slot (111) (23), and corresponding four described first screw rod (22) one end are equipped with the first driving motor (24), and four described first Bar (22) and four first slide bars (23) respectively correspond four first connecting plate (21) both ends of rotation connection, and four There are two being all provided on first connecting plate (21) location structure (25).

3. a kind of levelness detector of workpiece machining surface according to claim 2, it is characterised in that: the positioning knot Structure (25) includes the first link block (251), and the first connecting plate (21) side is symmetrically arranged with two second sliding slots (211), It is equipped with the second driving motor (252) in two second sliding slots (211), the second driving motor (252) drive shaft connects It connects the second screw rod (253), second screw rod (253) is rotatablely connected the first link block (251), first link block (251) Top is equipped with the second groove (254), and the second groove (254) lower end is equipped with the first electric telescopic rod (255), first electricity Dynamic telescopic rod (255) upper end is detachably connected limited post (256).

4. a kind of levelness detector of workpiece machining surface according to claim 3, it is characterised in that: described second is recessed It is symmetrically arranged with two third sliding slots (257) on the inside of slot (254), is bolted the second connecting plate below the limited post (256) (258), second connecting plate (258) is detachably connected the first electric telescopic rod (255), and second connecting plate (258) Both ends are slidably connected two third sliding slots (257).

5. a kind of levelness detector of workpiece machining surface according to claim 1, it is characterised in that: described horizontal horizontal It include the first horizontal stripe (41) to structural locator (4), the first horizontal stripe (41) side is equipped with the second link block (42), and described the One support plate (12) is equipped with the 4th sliding slot (121), is equipped with third driving motor (43) in the 4th sliding slot (121), described Third driving motor (43) drives axis connection third screw rod (44), and the third screw rod (44) is rotatablely connected second link block (42), and first horizontal stripe (41) is equipped with the 5th sliding slot (411), and the 4th driving electricity is equipped in the 5th sliding slot (411) Machine (45), the 4th driving motor (45) drive the 4th screw rod (46) of axis connection, the 4th screw rod (46) rotation connection the Three connecting plates (47), the third connecting plate (47) are equipped with multiple scanners (48).

6. a kind of levelness detector of workpiece machining surface according to claim 1, it is characterised in that: the lifting is fixed Flat structure (5) includes the first cylinder (51), and the 4th connecting plate (52), the first gas described in ring are equipped with below first cylinder (51) Cylinder (51) one weeks, four first telescopic rods (53), four first telescopic rods were symmetrically arranged on the 4th connecting plate (52) (53) it is correspondingly connected with first support plate (12), and is equipped with multiple second electric telescopic rods below the 4th connecting plate (52) (54), it is equipped with induction structure (55) below multiple second electric telescopic rods (54), the induction structure (55) includes First connecting tube (551), the first connecting tube (551) inside bottom are equipped with distance-sensor (552), first connection Two sides are symmetrically arranged with the 6th sliding slot (553) on the inside of pipe (551), are equipped with the 5th connecting plate (554) in the 6th sliding slot (553), Induction pen (555) are equipped with below 5th connecting plate (554), and are equipped with spring above the 5th connecting plate (554) (556), the spring (556) is correspondingly connected with first connecting tube (551), and the distance-sensor (552) induction connection 5th connecting plate (554).