CN208421202U - A kind of efficient flux measuring device - Google Patents

Abstract

The utility model discloses a kind of efficient flux measuring devices, including board, board center is rectangular hollow out, multiple fixture modules are erected above rectangular hollow out by fixture shifting apparatus, fixture module can be individually moved while product upper and lower surface thereon can be observed, board is equipped with the second mobile mould group of the mobile first movement mould group of driving detection module three-dimensional and driving laser range finder planar movement, the mobile mould group of third of driving CCD measurement module planar movement is provided with below board, laser range finder, detection module and CCD measurement module are oppositely arranged with fixture module, each module is individually moved, the CCD measurement module for determining measurement point position and the detection module of laser range finder and detection magnetic flux are worked respectively, measuring device is set to operate at full capacity, improve working efficiency.

Description

A kind of efficient flux measuring device

Technical field

The utility model relates to detection technique fields, and in particular to for efficient flux measuring device.

Background technique

Hall effect is one kind of galvanomagnetic-effect, this phenomenon be American physicist Hall in 1879 in research metal Conductive mechanism when find, it defines the relationship between magnetic field and induced voltage.It is led when electric current passes through perpendicular to external magnetic field When body, carrier deflects, and can generate an additional electric field perpendicular to the direction in electric current and magnetic field, to produce at the both ends of conductor Raw potential difference, this phenomenon is exactly Hall effect, this potential difference is also referred to as Hull voltage.But due to initial stage metal material Hall effect it is too weak without being used widely, but with the development of material science, scientist begins to use under study for action The Hall element made of semiconductor material, and significantly obtained using the Hall effect of Hall element made of semiconductor material Application and development, Hall sensor are a kind of sensors that output voltage pulse is generated when alternating magnetic field passes through, pulse Amplitude is determined by the field strength of excitation field.Therefore, Hall sensor does not need extraneous power supply power supply, hall effect sensor It can be used as ON/OFF sensor or linear transducer, be widely used in electric system.

Magnetic flux detector is mostly hand-held in the prior art, needs hand-held, and handheld operation is primarily present following Problem: measurement result repeatability is bad, and accuracy is inadequate, and the degree of automation is low, low efficiency, can not high volume applications；Although mesh Before have existed the equipment that can detect automatically magnetic flux, but measurement position and hall probe is required to be in product the same side, works as survey Amount position and hall probe can not then determine measurement position when being respectively at the position of product two sides, at the same in existing detection device when When replacement measurement product, detection part is idle, so that working efficiency is not high.

Utility model content

It is suitable for measurement position the technical problem to be solved by the present invention is to provide one kind and detection part is same not in product The magnetic flux self-operated measuring unit of side, same detection part correspond to multiple workbench, can be when a workbench replaces product Product on another workbench is detected, work efficiency is high, accurate positioning, and measurement accuracy is high.

In order to solve the above-mentioned technical problem, the utility model provides a kind of efficient flux measuring device, including board, Board center is rectangular hollow out, and multiple fixture modules are erected above rectangular hollow out by fixture shifting apparatus, fixture module energy It is enough individually moved while product upper and lower surface thereon can be observed, board is equipped with driving detection module three-dimensional movement Second mobile mould group of first movement mould group and driving laser range finder planar movement, board lower section are provided with driving CCD measurement The mobile mould group of the mobile third of module flat, laser range finder, detection module and CCD measurement module are opposite with fixture module to be set It sets, each module is individually moved, so that determining the inspection of the CCD measurement module and laser range finder and detection magnetic flux of measurement point position Surveying module can work respectively, and measuring device is enable to operate at full capacity, and improve working efficiency.

Further, fixture shifting apparatus includes transfer cylinder, air cylinder fixed plate, cylinder guide rail and Y-axis transfer guide rail, gas Cylinder fixed plate and cylinder guide rail are fixed on board, and the push rod end of transfer cylinder is fixed with link block, link block and jig plate Block side is fixed and is slidably connected with cylinder guide rail, and the fixture module other side is slidably connected with Y-axis transfer guide rail, so that transfer The push rod of cylinder can drive jig plate block to move along cylinder guide rail and Y-axis transfer guide rail when flexible, i.e., each equal energy of fixture module It is individually moved, convenient for picking and placing product.

Further, first movement mould group includes that the first Y-axis mobile module, the first X-axis mobile module and the first Z axis are mobile Module, the first X-axis mobile module are slidably connected with the first Y-axis mobile module for being fixed on board two sides, the first Z axis mobile module It is slidably connected with the first X-axis mobile module, detection module is slidably connected by the first connecting plate and the first Z axis mobile module；The Two mobile mould groups include the second Y-axis mobile module and the second X-axis mobile module, and the second X-axis mobile module is fixed on board, the Two Y-axis mobile modules are located at below the first X-axis mobile module and are arranged on the inside of the first Y mobile module, the second Y-axis mobile module It is slidably connected with the second X-axis mobile module, laser range finder is slidably connected by the second connecting plate and the second Y-axis mobile module； The mobile mould group of third includes third X-axis mobile module and third Y-axis mobile module, and third X-axis mobile module is solid by lifting plate Surely it is lifted below board, third Y-axis mobile module is slidably connected with third X-axis mobile module, and CCD measurement module passes through third Connecting plate is slidably mounted on third X-axis mobile module, and detection module is located at the same side of product with laser range finder, and CCD is surveyed Amount module is located at the other side of product, so as to realize that detection measurement point and detection module are located at the not ipsilateral magnetic flux of product Amount, while each module is individually moved, and facilitates different step while progress, improves working efficiency.

Further, detection module includes probe fixing seat, probe attachment base, hall probe and pressing plate, fixing seat of popping one's head in It is arranged on the first connecting plate, probe fixing seat is equipped with fixing groove compatible with probe attachment base shape, and hall probe is set It sets in probe attachment base, probe attachment base is fixed in fixing groove by probe fixing seat and pressing plate, and hall probe setting is stablized, Guarantee that hall probe is accurate at a distance from measurement position, improves measurement accuracy.

Further, it pops one's head in and is additionally provided with trimming assembly between fixing seat and the first connecting plate, trimming assembly is fixed on the On one connecting plate, trimming assembly includes HeiFin guide rail, and fine-tuning slide is slided along HeiFin guide rail, probe fixing seat with it is micro- It adjusts slide plate to be fixedly connected, vernier knob, the tune of vernier knob end is fixed on the first connecting plate of HeiFin guide rail side Locking nub is fixed with fine-tuning slide side, adjusting knob, adjusting block drive fine-tuning slide move up and down, to hall probe it is vertical away from From being finely adjusted, the HeiFin guide rail other side is fixed to have the fine tuning latch for adjusting waist hole, finely tunes and is connected on latch The locking nut being used cooperatively with adjusting waist hole, it is fixed that hall probe is fixed after facilitating adjustment to complete the position of hall probe Position.

Further, CCD measurement module includes camera, camera lens and light source, and camera is slidably connected with the mobile mould group of third, phase Machine, camera lens and light source are sequentially connected from bottom to top, save the occupied area of whole device.

Further, light source side is equipped with the barcode scanning gun with the equidirectional setting of light source, can carry out simultaneously to Product labelling Scanning.

Further, fixture module includes the bottom plate being slidably connected with Y-axis transfer guide rail, bottom plate center hollow out, and bottom plate is engraved Vacancy is fixedly arranged above positioning plate, and positioning PIN, one end hollow out and and bottom plate of positioning plate are equipped on the bottom plate of positioning plate surrounding On hollow out perforation, be mounted on side push cylinder on the bottom plate outside the adjacent two sides of positioning plate, connected on the push rod of side push cylinder Flexible pushing block, product orientation is accurate, facilitates the work of CCD measurement module and detection module.

Further, it is provided with vacuum chuck on positioning plate, there are six vacuum chuck is arranged along positioning plate surrounding, product is fixed It can be fixed after position is good, guarantee detection accuracy.

Further, magnet calibrating block, laser check block and camera check block are additionally provided on bottom plate, at one section of every work Between, essence is carried out to hall probe, laser range finder and CCD camera using magnet calibrating block, laser check block and camera check block Degree calibration, it is ensured that the stability of its precision.

A kind of efficient flux measuring device of the utility model, beneficial effect compared with prior art are to be suitable for surveying Position and detection part are measured not in the magnetic flux automatic measurement of product the same side, and each station carries out the operation of different step simultaneously, Each module cooperation closely makes device be in state of operating at full capacity, and work efficiency is high, save the cost.

Detailed description of the invention

Fig. 1 is the utility model embodiment measuring device part structural schematic diagram；

Fig. 2 is the utility model embodiment integral device structural representation；

Fig. 3 is the utility model embodiment fixture modular structure schematic diagram；

Fig. 4 is the utility model embodiment detection module structural schematic diagram；

Fig. 5 is the utility model embodiment CCD measurement module structural schematic diagram；

Fig. 6 is the utility model embodiment work structure diagram.

Specific embodiment

The utility model is described in further detail in the following with reference to the drawings and specific embodiments, so that those skilled in the art The utility model may be better understood and can be practiced, but illustrated embodiment is not as the restriction to the utility model.

As shown in Figure 1, a kind of efficient flux measuring device, including board 11,11 center of board is rectangular hollow out, multiple Fixture module 2 is erected above rectangular hollow out by fixture shifting apparatus 21, so that the product slave being fixed in fixture module 2 11 top of platform and 11 lower section of board can be observed, and each fixture module 2 can move alone, convenient in detection module 3 carry out other operations to other fixture modules 2 when detecting one of fixture module 2, and board 11 is equipped with driving detection mould Second mobile mould group 7 of the three-dimensional mobile first movement mould group 6 of block 3 and driving 4 planar movement of laser range finder, 11 lower section of board It is provided with the mobile mould group 8 of third of driving 5 planar movement of CCD measurement module, CCD measurement module 5 is respectively set with detection module 3 In 11 upper and lower of board, after CCD measurement module 5 and the distance between laser range finder 4 and fixture module 2 are adjusted, Ji Ketong It crosses the observation of 5 planar movement of CCD measurement module and takes measurement point on product, determined and measured by 4 planar movement of laser range finder Point specific location, accurate positioning, then by adjusting with measurement point not product the same side detection module 3 position, it is right Measurement point is detected, and the relative position of detection module 3 and measurement point is suitable for that measurement accuracy is high, laser range finder 4, detection mould Block 3 and CCD measurement module 5 are oppositely arranged with fixture module 2, so that detection module 3, laser range finder 4 and CCD measure mould Block 5 is measured and is detected to the measurement point on product towards the product in fixture module 2, and when detection module 3 is to one When product in fixture module 2 carries out magnetic flux detection, other fixture modules 2 are in product feeding state or are measured by CCD Module 5 and laser range finder 4 measure point location state, i.e., each component is in working condition, so that device is at full capacity Work reduces cost while saving the working time, and work efficiency is high for each module.

As shown in Figure 1, measuring mould for the three-dimensional movement of control detection module 3, the planar movement of laser range finder 4 and CCD The plane motion of block 5, first movement mould group 6 include that the first Y-axis mobile module 62, the first X-axis mobile module 61 and the first Z axis move Dynamic model block 63, the first X-axis mobile module 61 are slidably connected with the first Y-axis mobile module 62 for being fixed on 11 two sides of board, the first Z Axis mobile module 63 is slidably connected with the first X-axis mobile module 61, and detection module 3 and the first Z axis mobile module 63 pass through first Connecting plate 64 is slidably connected；Second mobile mould group 7 includes the second Y-axis mobile module 72 and the second X-axis mobile module 71, the 2nd X Axis mobile module 71 is fixed on board 11, and the second Y-axis mobile module 72 is located at the lower section of the first X-axis mobile module 61 and with second X-axis mobile module 71 is slidably connected, and laser range finder 4 is slidably connected by the second connecting plate 73 with the second Y-axis mobile module 72； The mobile mould group 8 of third includes third X-axis mobile module 81 and third Y-axis mobile module 82, and third X-axis mobile module 81 passes through Lifting plate 9 is fixed to be lifted on 11 lower section of board, and third Y-axis mobile module 82 is slidably connected with third X-axis mobile module 81, CCD Measurement module 5 is slidably mounted on third Y-axis mobile module 82 by third connecting plate 83, detection module 3 and laser range finder 4 are located at the same side of product, and CCD measurement module 5 is located at the other side of product, so as to realize detection measurement point and detection mould Block 3 is located at the not ipsilateral magnetic flux of product.

As shown in Fig. 2, board 11 is arranged in test cabinet 1, test cabinet 1 includes the indicator light 12 for being located at top, position In internal display 13 and positioned at the operation button 14 on surface, facilitates worker operation and check measurement result.

As shown in figure 3, fixture shifting apparatus 21 includes transfer cylinder 211, air cylinder fixed plate 212, cylinder guide rail 213 and Y Axis transfer guide rail 214, air cylinder fixed plate 212 and cylinder guide rail 213 are fixed on board 11, the push rod end of transfer cylinder 211 It is fixed with link block 215, link block 215 is fixed with 2 side of fixture module and is slidably connected with cylinder guide rail 213, fixture module 2 The other side is slidably connected with the Y axis transfer guide rail 214 being erected on board 11, when enabling the push rod of transfer cylinder 211 flexible Fixture module 2 is driven to move along cylinder guide rail 213 and Y-axis transfer guide rail 214, fixture module 2 includes and fixture shifting apparatus 21 The bottom plate 22 of connection, the center hollow out of bottom plate 22 are fixedly arranged above positioning plate 23, the surrounding of positioning plate 23 in 22 hollow part of bottom plate Bottom plate 22 on be equipped with positioning PIN25, to be positioned to product, one end hollow out of positioning plate 23 and on bottom plate 22 Hollow out perforation, makes the magnetic part at the product back side on positioning plate 23 be exposed to the working range of 11 lower section CCD measurement module 5 of board It is interior, it is mounted on side push cylinder 26 on the bottom plate 22 outside the adjacent two sides of positioning plate 23, is connected on the push rod of side push cylinder 26 Elastic pushing block 261, after product is placed on positioning plate 23, product is pushed on side corresponding thereto by two work of side push cylinder 26 Positioning PIN25 offsets, and completes the positioning to product, to further fix product, surrounding is provided with vacuum chuck on positioning plate 23 24, vacuum chuck 24 is preferably provided with 6 in the present embodiment, and after the completion of product orientation, vacuum chuck 24 sucks product, protects The stabilization for demonstrate,proving the product space in measurement process, improves the accuracy of measurement result, to guarantee hall probe 33 and laser ranging The precision of instrument 4 is additionally provided with magnet calibrating block 27, laser check block 28 and camera check block 29, every work in the side of positioning plate 23 Make a period of time, using magnet calibrating block 27, laser check block 28 and camera check block 29 to hall probe 33, laser range finder 4 and CCD measurement module 5 carries out precision calibration, it is ensured that the stability of its precision.

As shown in figure 4, detection module 3 passes through the first connecting plate 64 and the mobile mould of the first Z axis in first movement mould group 6 Block 63 is slidably connected, and detection module 3 includes that probe fixing seat 31, probe attachment base 32, hall probe 33 and pressing plate 34, probe are solid Reservation 31 is arranged on the first connecting plate 64, and probe fixing seat 31 is equipped with fixation compatible with probe 32 shape of attachment base Slot 311, the setting of hall probe 33 is in probe attachment base 32, and attachment base 32 of popping one's head in is by attachment base clamping plate 321 and attachment base template 322 enclose, and hall probe 33 is arranged between attachment base clamping plate 321 and attachment base template 322 and 321 He of attachment base clamping plate Both attachment base templates 322 are fixed by screw, are realized and are protected to the first layer of hall probe 33, and probe attachment base 32 is popped one's head in Fixing seat 31 and pressing plate 34 are fixed in fixing groove 311, are additionally provided with cushion between pressing plate 34 and probe attachment base 32, are realized Second layer protection to hall probe 33, is additionally provided with trimming assembly 36 between fixing seat 31 of popping one's head in and the first connecting plate 64, side Just minor adjustment is carried out to 33 position of hall probe manually, trimming assembly 36 is fixed on the first connecting plate, and trimming assembly 36 wraps HeiFin guide rail 361 is included, fine-tuning slide 362 is slided along HeiFin guide rail 361, probe fixing seat 31 and fine-tuning slide 362 It is fixedly connected, vernier knob 363,363 end of vernier knob is fixed on the first connecting plate 64 of 361 side of HeiFin guide rail The adjusting block 364 in portion is fixed with 362 side of fine-tuning slide, is able to drive fine-tuning slide 362 along vertical by turn-knob vernier knob 363 Straight fine tuning guide rail 361 moves up and down, to finely tune the position of hall probe 33, the fixation of 361 other side of HeiFin guide rail has The fine tuning latch 365 of waist hole is adjusted, the locking nut for being connected on latch 365 and being used cooperatively with adjusting waist hole is finely tuned, when The position of hall probe 33, which is adjusted, completes, and screws locking nut, and fine-tuning slide 362 and HeiFin guide rail 361 is fixed, i.e., into The position of the fixed hall probe 33 of one step, it is ensured that the stabilization of 33 position of hall probe in measurement process.

As shown in figure 5, third X-axis mobile module 81 is fixedly mounted on machine by being fixed on the lifting plate 9 of 11 lower section of board 11 lower section of platform, CCD measurement module 5 are slidably connected by third connecting plate 83 with third Y-axis mobile module 82, CCD measurement module 5 Including camera 51, camera lens 52 and light source 53, camera 51 is slidably connected by third connecting plate 83 and the mobile mould group 8 of third, camera 51, camera lens 52 and light source 53 are sequentially connected from bottom to top, and the vertically-mounted one side of CCD measurement module 5 makes CCD measurement module 5 Directly opposite with product surface, another aspect CCD measurement module 5 only takes up the vertical space of 11 lower section of board, makes whole device Occupied area it is small, save space, for that can be scanned simultaneously to the label of product, 53 side of light source is equipped with same with light source 53 The barcode scanning gun 54 of direction setting.

The course of work of the utility model is as shown in Figure 2 and Figure 5, and the fixture module in the present embodiment is preferably provided with 2, When start-up operation, product to be measured is placed in the first fixture module first, the first fixture module positions product, then CCD measurement module and laser range finder are moved to the first fixture module side, and collective effect determines the specific location of measurement point, the It is determined in one fixture module and places product to be measured in the second fixture module while measurement point, the second fixture module is by production to be measured Product position, and detection module is moved to above measurement point position and is detected after measurement point position determines in the first fixture module, with This simultaneously, CCD measurement module and laser range finder are moved to the second fixture module side, and collective effect determines the tool of measurement point Body position, detection module completes the detection to product in the first fixture module at this time, is moved to above the second fixture module again It is detected, the product in the first fixture module is removed, and new product to be detected is placed, in detection module to the second jig plate While product is detected on block, CCD measurement module and laser range finder click through the measurement of product in the first fixture module Row positioning, so recycles, and each component is in working condition, so that device is operated at full capacity, while saving the working time Cost is reduced, work efficiency is high for each module.

Embodiment described above is only preferred embodiments for fully illustrating the utility model, the utility model Protection scope it is without being limited thereto.Those skilled in the art made equivalent substitute or change on the basis of the utility model It changes, both is within the protection scope of the present invention.The protection scope of the utility model is subject to claims.

Claims (10)

1. a kind of efficient flux measuring device, which is characterized in that including board, the board center is rectangular hollow out, multiple Fixture module is erected above the rectangular hollow out by fixture shifting apparatus, and it is three-dimensional that the board is equipped with driving detection module Second mobile mould group of mobile first movement mould group and driving laser range finder planar movement, the board lower section are provided with drive The mobile mould group of the third of dynamic CCD measurement module planar movement, the laser range finder, detection module and CCD measurement module with The fixture module is oppositely arranged.

2. a kind of efficient flux measuring device as described in claim 1, which is characterized in that the fixture shifting apparatus includes Transfer cylinder, air cylinder fixed plate, cylinder guide rail and Y-axis transfer guide rail, the air cylinder fixed plate and cylinder guide rail are fixed on described On board, the push rod end of the transfer cylinder is fixed with link block, the link block and fixture module side fix and It is slidably connected with the cylinder guide rail, the fixture module other side is slidably connected with the Y-axis transfer guide rail.

3. a kind of efficient flux measuring device as claimed in claim 2, which is characterized in that the first movement mould group includes First Y-axis mobile module, the first X-axis mobile module and the first Z axis mobile module, the first X-axis mobile module be fixed on First Y-axis mobile module of the board two sides is slidably connected, the first Z axis mobile module and the mobile mould of first X-axis Block is slidably connected, and the detection module is slidably connected with the first Z axis mobile module；

Described second mobile mould group includes the second Y-axis mobile module and the second X-axis mobile module, the second X-axis mobile module It is fixed on the board, the second Y-axis mobile module is located at below the first X-axis mobile module and is arranged described the On the inside of one Y mobile module, the second Y-axis mobile module is slidably connected with the second X-axis mobile module, the laser ranging Instrument is slidably connected with the second Y-axis mobile module；

The mobile mould group of the third includes third X-axis mobile module and third Y-axis mobile module, the third X-axis mobile module It is lifted below the board by the way that lifting plate is fixed, the third Y-axis mobile module and the third X-axis mobile module slide Connection, the CCD measurement module are slidably mounted on the third X-axis mobile module.

4. a kind of efficient flux measuring device as described in claim 1, which is characterized in that the detection module includes probe Fixing seat, probe attachment base, hall probe and pressing plate, the probe fixing seat are arranged on the first connecting plate, and the probe is solid Reservation is equipped with fixing groove compatible with the probe attachment base shape, and the hall probe is arranged in the probe attachment base Interior, the probe attachment base is fixed in the fixing groove by the probe fixing seat and pressing plate.

5. a kind of efficient flux measuring device as claimed in claim 4, which is characterized in that the probe fixing seat with it is described Trimming assembly is additionally provided between first connecting plate, the trimming assembly is fixed on first connecting plate, the fine tuning group Part includes HeiFin guide rail, and fine-tuning slide is slided along the HeiFin guide rail, and the probe fixing seat and the fine tuning are slided Plate is fixedly connected, and vernier knob, the vernier knob end are fixed on the first connecting plate of HeiFin guide rail side Adjusting block fixed with the fine-tuning slide side, the HeiFin guide rail other side is fixed to have the fine tuning lock for adjusting waist hole Tight plate is connected on the fine tuning latch and described adjusts the locking nut that is used cooperatively of waist hole.

6. a kind of efficient flux measuring device as described in claim 1, which is characterized in that the CCD measurement module includes Camera, camera lens and light source, the mobile mould group of the camera and the third are slidably connected, the camera, camera lens and light source from it is lower to On be sequentially connected.

7. a kind of efficient flux measuring device as claimed in claim 6, which is characterized in that the light source side is equipped with and institute State the barcode scanning gun of the equidirectional setting of light source.

8. a kind of efficient flux measuring device as described in claim 1, which is characterized in that the fixture module includes and institute The bottom plate that board is slidably connected, bottom plate center hollow out are stated, the bottom plate hollow part is fixedly arranged above positioning plate, the positioning Be equipped on the bottom plate of plate surrounding positioning PIN, one end hollow out of the positioning plate and on the bottom plate hollow out penetrate through, it is described It is mounted on side push cylinder on bottom plate outside the adjacent two sides of positioning plate, connects flexible push away on the push rod of the side push cylinder Block.

9. a kind of efficient flux measuring device as claimed in claim 8, which is characterized in that be provided on the positioning plate true Suction disk, the vacuum chuck along the positioning plate surrounding be arranged there are six.

10. a kind of efficient flux measuring device as claimed in claim 8, which is characterized in that be additionally provided with magnetic on the bottom plate Iron calibrating block, laser check block and camera check block.