CN218546574U - Silicon nitride ceramic ball detection device - Google Patents

Abstract

The utility model discloses a silicon nitride ceramic ball detection device uses at silicon nitride ceramic ball and detects technical field, the utility model discloses a set up operation case, feedstock channel, assist rotatory detection mechanism and buffering branch thing mechanism, the feedstock channel at operation roof portion is placed to the silicon nitride ceramic ball that will detect, then silicon nitride ceramic ball can get into respectively in proper order and assist rotatory detection mechanism's top, the buffering divides thing mechanism can cushion silicon nitride ceramic ball simultaneously, rotatory detection mechanism makes silicon nitride ceramic ball rotate after whole completions for the result that detects out is enough rigorous.

Description

Silicon nitride ceramic ball detection device

Technical Field

The utility model belongs to the technical field of the silicon nitride ceramic ball detects, in particular to silicon nitride ceramic ball detection device.

Background

The silicon nitride ceramic ball is a precise ceramic sintered at high temperature in a non-oxidizing atmosphere, has high strength, high wear resistance, high temperature resistance, corrosion resistance, acid and alkali resistance, can be used in seawater for a long time, and has good performances of electricity insulation and magnetism insulation.

At present, the chinese utility model that the notice number is CN211623967U discloses a silicon nitride ceramic ball, and this utility model relates to a silicon nitride ceramic ball, its bracing piece that includes interior spheroid, one end and interior spheroid surface fixed connection, with bracing piece other end fixed connection's outer spheroid, a plurality of the focus of bracing piece is located spheroidal centre of sphere department in, and this utility model has the effect that can effectively reduce the wearing and tearing of ceramic ball to the channel, extension bearing life.

The existing silicon nitride ceramic ball detection device has the following defects when detecting the silicon nitride ceramic ball:

1. when the silicon nitride ceramic ball is detected, the silicon nitride ceramic ball cannot rotate, and the detected result is not strict enough;

2. when the silicon nitride ceramic ball is detected, the detector cannot realize height adjustment, and the silicon nitride ceramic ball cannot be finely detected through fine adjustment.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a to current silicon nitride ceramic ball detection device, its advantage:

1. when the silicon nitride ceramic ball is detected, the silicon nitride ceramic ball can rotate, and the detected result is more rigorous;

2. when detecting the silicon nitride ceramic ball, the detector can realize height adjustment, and the silicon nitride ceramic ball is detected more carefully through fine adjustment.

The above technical purpose of the present invention can be achieved by the following technical solutions: the utility model provides a silicon nitride ceramic ball detection device, includes the operation case, the front side bolt of operation roof portion has feedstock channel, the top of operation case is provided with assists rotatory detection mechanism, the top bolt of operation roof portion has the buffering to divide the thing mechanism, the rear side of operation roof portion is provided with lift detection mechanism, lift detection mechanism includes lift adjustment subassembly and encircles the detection subassembly, lift adjustment subassembly sets up the rear side at the operation roof portion, encircle the detection subassembly welding and in the front side of lift adjustment subassembly, the left side bolt of feedstock channel and buffering branch thing mechanism has connect intact collection mechanism, the right side bolt of feedstock channel and buffering branch thing mechanism has connect the wastrel collection mechanism.

Adopt above-mentioned technical scheme, through setting up the operation case, feedstock channel, assist rotatory detection mechanism, the buffering divides the thing mechanism, the lift adjustment subassembly, encircle the detection subassembly, intact collection mechanism and wastrel collection mechanism, place the silicon nitride ceramic ball that will detect at the feedstock channel at operation roof portion, then the silicon nitride ceramic ball can get into the top of assisting rotatory detection mechanism respectively in proper order, the buffering divides the thing mechanism to cushion the silicon nitride ceramic ball simultaneously, the lift adjustment subassembly drives and encircles the detection subassembly and carry out the adjustment of position, rotatory detection mechanism makes the silicon nitride ceramic ball rotate after all accomplishing, encircle the detection subassembly and carry out apparent detection to the silicon nitride ceramic ball at rotatory in-process, carry out more careful detection, and carry the image that reachs to external display device, through judging bring intact and the inferior branch thing mechanism rotation to the inside of intact collection mechanism or wastrel collection mechanism once more again through the buffering respectively, carry out categorised collection.

The utility model discloses further set up to: the auxiliary rotation detection mechanism comprises a plane limiting hole, a slow rotation motor and an auxiliary rotating ball, the plane limiting hole is formed in the top of the operation box, the slow rotation motor is bolted in the operation box, the auxiliary rotating ball is arranged in the plane limiting hole, and the output end of the slow rotation motor is in bolted connection with the left side of the auxiliary rotating ball.

Adopt above-mentioned technical scheme, through setting up to assist rotatory detection mechanism, realize can making it rotate when detecting silicon nitride ceramic ball, fall into the top in the spacing hole in plane through silicon nitride ceramic ball, supplementary rolling ball contacts silicon nitride ceramic ball to it is rotatory to drive supplementary rolling ball through slow-rotating motor again, also realizes simultaneously that the drive to silicon nitride ceramic ball is rotatory, does benefit to follow-up detection to silicon nitride ceramic ball surface.

The utility model discloses further set up to: the buffering divides thing mechanism to include fixed plate, buffering motor, spread groove, connecting plate, telescopic link, rotatory rubber slab of buffering and spring, the fixed plate bolt is at the top of operation case, the inside at the fixed plate of buffering motor bolt, the front side at the fixed plate is seted up to the spread groove, the connecting plate sets up the rear side inside the spread groove, the output of buffering motor and the rear side bolt of connecting plate, the rear side of telescopic link and the front side welding of connecting plate, the rear side of the rotatory rubber slab of buffering and the front side welding of telescopic link, the outside at the telescopic link is established to the spring housing.

Adopt above-mentioned technical scheme, divide thing mechanism through setting up the buffering, realize the buffering when the silicon nitride ceramic ball carries out the landing, and realize the follow-up good transfer to the silicon nitride ceramic ball, through inside motor and the spread groove of fixed plate, the realization is to the connecting plate, the telescopic link, the connection between rotatory rubber slab of buffering and the spring, when the silicon nitride ceramic ball landing, through the telescopic link, the impact of silicon nitride ceramic ball is absorbed in the cooperation between rotatory rubber slab of buffering and the spring, follow-up when the silicon nitride ceramic ball is transferred to needs drives each structure through the buffering motor and rotates, make and transfer the region of difference good silicon nitride ceramic ball to the difference.

The utility model discloses further set up to: the lift adjustment subassembly includes threaded rod, two auxiliary rods, fixed block, flight and rotatory handle, the threaded rod rotates the rear side of connection at the operation roof portion, and the bottom of two auxiliary rods welds the rear side at the operation roof portion respectively, the fixed block welding is at the top of two auxiliary rods, the fixed block is run through at the top of threaded rod, flight threaded connection is in the outside of threaded rod, and two auxiliary rods all run through the flight, rotatory handle welding is at the top of threaded rod.

Adopt above-mentioned technical scheme, through setting up lift adjustment subassembly, realize when examining silicon nitride ceramic ball, the supplementary adjustment that carries on the height, make the threaded rod rotatory through rotatory handle to realize the lift of thread plate, two auxiliary rods and fixed block carry on spacingly to the threaded rod simultaneously, prevent the phenomenon that the skew appears when rotating.

The utility model discloses further set up to: the surrounding detection assembly comprises a connecting circular frame, a detector and a surrounding detection head, the rear side of the connecting circular frame is bolted with the front side of the threaded plate, the detector is clamped at the bottom of the connecting circular frame, and the surrounding detection head is bolted at the bottom of the detector.

Adopt above-mentioned technical scheme, encircle the detection subassembly through setting up, carry out the detection of surrounding type to silicon nitride ceramic ball, promote the effect that detects, detect silicon nitride ceramic ball through connecting the inside detector of circle frame and encircleing the detection head to carry the image that detects to external imaging device, realize the detection to silicon nitride ceramic ball through observing.

The utility model discloses further set up to: intact mechanism of collecting includes left slide, first electronic spacing lifter plate and finished product collecting vat, left side slide bolt is in the left side of fixed plate and feedstock channel, first electronic spacing lifter plate bolt is at the top of left slide, the left side at the operation case top is seted up to the finished product collecting vat.

By adopting the technical scheme, the complete collection of the silicon nitride ceramic balls is completed by arranging the complete collection mechanism, and the silicon nitride ceramic balls are controlled to enter the finished product collecting tank or not by the lifting of the first electric limiting lifting plate at the top of the left sliding plate, so that the finished products are collected.

The utility model discloses further set up to: the defective product collecting mechanism comprises a right sliding plate, a second electric limiting lifting plate and a defective product collecting tank, the right sliding plate is bolted on the right sides of the fixing plate and the feeding channel, the second electric limiting lifting plate is bolted on the top of the right sliding plate, and the defective product collecting tank is arranged on the right side of the top of the operation box.

By adopting the technical scheme, the mechanism is collected through setting up the defective products, the silicon nitride ceramic balls of the defective products are collected, whether the silicon nitride ceramic balls can enter the defective product collecting tank or not is controlled through the lifting of the second electric limiting lifting plate at the top of the right sliding plate, and the collection of the defective products is completed.

The utility model discloses further set up to: the bottom welding of operation case has the landing leg, the quantity of landing leg is four, the bottom of landing leg has cup jointed stably adsorbs the packing ring.

Adopt above-mentioned technical scheme, through setting up the landing leg and deciding the absorption packing ring, realize the support to the operation case to further increase adsorption efficiency through stabilizing the absorption packing ring, for the operation case provides more stable effect, promote the practicality.

To sum up, the utility model discloses following beneficial effect has:

1. through the arrangement of the operation box, the feeding channel, the auxiliary rotation detection mechanism and the buffering material distribution mechanism, the silicon nitride ceramic balls to be detected are placed in the feeding channel at the top of the operation box, then the silicon nitride ceramic balls sequentially and respectively enter the top of the auxiliary rotation detection mechanism, meanwhile, the buffering material distribution mechanism buffers the silicon nitride ceramic balls, and after all the silicon nitride ceramic balls are detected, the detection mechanism is rotated to enable the silicon nitride ceramic balls to rotate, so that the detected result is precise;

2. through setting up the lift adjustment subassembly, encircle the detection subassembly, intact mechanism and the wastrel collection mechanism of collecting, the lift adjustment subassembly drives and encircles the detection subassembly and carry out the adjustment of high position, encircle the detection subassembly and carry out apparent detection to silicon nitride ceramic ball at rotatory in-process, carry out more careful detection, and carry the image that reachs to external display device, divide the inside of thing mechanism rotation area to intact collection mechanism or wastrel collection mechanism once more through buffering respectively through the buffering with incomplete once more through judging, carry out categorised collection.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the auxiliary rotation detecting mechanism of the present invention;

FIG. 3 is a schematic structural view of the buffering and separating mechanism of the present invention;

fig. 4 is a schematic structural view of the lift detection mechanism of the present invention;

fig. 5 is a schematic structural view of the intact collecting mechanism and the defective product collecting mechanism of the present invention.

Reference numerals: 1. an operation box; 2. a feed channel; 3. an auxiliary rotation detection mechanism; 301. a planar limiting hole; 302. slowly rotating the motor; 303. an auxiliary turning ball; 4. a buffering and material separating mechanism; 401. a fixing plate; 402. a buffer motor; 403. connecting grooves; 404. a connecting plate; 405. a telescopic rod; 406. buffering the rotating rubber plate; 407. a spring; 5. a lift detection mechanism; 501. a lift adjustment assembly; 5011. a threaded rod; 5012. an auxiliary lever; 5013. a fixed block; 5014. a thread plate; 5015. rotating the handle; 502. a surround detection assembly; 5021. connecting the round frames; 5022. A detector; 5023. encircling the detection head; 6. a sound collecting mechanism; 601. a left slide plate; 602. A first electric limit lifting plate; 603. a finished product collecting tank; 7. a defective product collecting mechanism; 701. A right slide plate; 702. a second electric limit lifting plate; 703. a defective collecting tank; 8. a support leg; 9. stabilize the adsorption washer.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Example 1:

referring to fig. 1-3, a silicon nitride ceramic ball detection device, including operation case 1, the front side bolt at operation case 1 top has feedstock channel 2, the top of operation case 1 is provided with assists rotatory detection mechanism 3, the top bolt of operation case 1 has the buffering to divide thing mechanism 4, through setting up operation case 1, feedstock channel 2, assist rotatory detection mechanism 3 and buffering to divide thing mechanism 4, the feedstock channel 2 at operation case 1 top is placed to the silicon nitride ceramic ball that will detect, then the silicon nitride ceramic ball can get into respectively in proper order assists the top of rotatory detection mechanism 3, the buffering divides thing mechanism 4 to cushion the silicon nitride ceramic ball simultaneously.

As shown in fig. 2, the auxiliary rotation detection mechanism 3 includes a planar limiting hole 301, a slow-turning motor 302 and an auxiliary rotating ball 303, the planar limiting hole 301 is opened at the top of the operation box 1, the slow-turning motor 302 is bolted in the operation box 1, the auxiliary rotating ball 303 is arranged in the planar limiting hole 301, the output end of the slow-turning motor 302 is bolted on the left side of the auxiliary rotating ball 303, the auxiliary rotation detection mechanism 3 is arranged, the silicon nitride ceramic ball can be rotated when being detected, the silicon nitride ceramic ball falls into the top of the planar limiting hole 301 through the silicon nitride ceramic ball, the auxiliary rotating ball 303 contacts the silicon nitride ceramic ball, and the auxiliary rotating ball 303 is driven by the slow-turning motor 302 to rotate, meanwhile, the silicon nitride ceramic ball is driven to rotate, and the subsequent detection of the surface of the silicon nitride ceramic ball is facilitated.

As shown in fig. 3, the buffer material separating mechanism 4 includes a fixing plate 401, a buffer motor 402, a connecting groove 403, a connecting plate 404, an expansion link 405, a buffer rotating rubber plate 406 and a spring 407, the fixing plate 401 is bolted to the top of the operation box 1, the buffer motor 402 is bolted to the inside of the fixing plate 401, the connecting groove 403 is opened at the front side of the fixing plate 401, the connecting plate 404 is disposed at the rear side of the inside of the connecting groove 403, the output end of the buffer motor 402 is bolted to the rear side of the connecting plate 404, the rear side of the expansion link 405 is welded to the front side of the connecting plate 404, the rear side of the buffer rotating rubber plate 406 is welded to the front side of the expansion link 405, the spring 407 is sleeved outside of the expansion link 405, by providing the buffer material separating mechanism 4, buffering when the silicon nitride ceramic ball slides down and subsequent good and bad transfer of the silicon nitride ceramic ball is realized, the connection between the connecting plate 404, the expansion link 405, the buffer rotating rubber plate 406 and the connecting groove 403 in the inside of the fixing plate 401 is realized to absorb the good and transfer of the silicon nitride ceramic ball in the subsequent impact of the ceramic ball, and the silicon nitride ceramic ball is transferred to the different regions, thereby driving the silicon nitride ceramic ball to transfer the different buffer ceramic ball transfer structures.

The using process is briefly described as follows: can make it rotatory when examining silicon nitride ceramic ball, fall into the top at the spacing hole in plane 301 through silicon nitride ceramic ball, supplementary rolling ball 303 contacts silicon nitride ceramic ball, and it is rotatory to drive supplementary rolling ball 303 through slow-turning motor 302 again, it is rotatory to also realize simultaneously to the drive of silicon nitride ceramic ball, do benefit to follow-up detection to silicon nitride ceramic ball surface, simultaneously when silicon nitride ceramic ball landing, through telescopic link 405, the impact of silicon nitride ceramic ball is absorbed in the cooperation between rotatory rubber slab 406 of buffering and the spring 407, follow-up drives each structure through buffering motor 402 when needing to transfer silicon nitride ceramic ball and rotates, make the silicon nitride ceramic ball of different qualities transfer to different regions.

Example 2:

referring to fig. 4, a silicon nitride ceramic ball detection device, a lifting detection mechanism 5 is arranged on the rear side of the top of an operation box 1, the lifting detection mechanism 5 includes a lifting adjustment component 501 and a surrounding detection component 502, the lifting adjustment component 501 is arranged on the rear side of the top of the operation box 1, the surrounding detection component 502 is welded on the front side of the lifting adjustment component 501, a perfect collection mechanism 6 is bolted on the left side of a feed channel 2 and a buffering material separation mechanism 4, a defective product collection mechanism 7 is bolted on the right side of the feed channel 2 and the buffering material separation mechanism 4, the lifting adjustment component 501 drives the surrounding detection component 502 to adjust the height position, the surrounding detection component 502 performs appearance detection on silicon nitride ceramic balls in the rotating process, more detailed detection is performed, the obtained images are transmitted to an external display device, and the finished and defective products are respectively rotated to the perfect collection mechanism 6 or the defective product collection mechanism 7 through the buffering material separation mechanism 4 again after judgment, and classified collection is performed.

As shown in fig. 4, the lifting adjustment assembly 501 comprises a threaded rod 5011, two auxiliary rods 5012, a fixed block 5013, a threaded plate 5014 and a rotating handle 5015, wherein the threaded rod 5011 is rotatably connected to the rear side of the top of the operating box 1, the bottoms of the two auxiliary rods 5012 are respectively welded to the rear side of the top of the operating box 1, the fixed block 5013 is welded to the tops of the two auxiliary rods 5012, the top of the threaded rod 5011 penetrates through the fixed block 5013, the threaded plate 5014 is in threaded connection with the outer side of the threaded rod 5011, both the two auxiliary rods 5012 penetrate through the threaded plate 5014, the rotating handle 5015 is welded to the top of the threaded rod 5011, and by arranging the lifting adjustment assembly 501, the height adjustment is assisted when silicon nitride ceramic balls are detected, the threaded rod 5011 is rotated by the rotating handle 5015, the lifting of the threaded plate 5014 is realized, and at the same time, the two auxiliary rods 5012 and the fixed block 5013 limit the threaded rod 5011, and the deviation phenomenon generated during the rotation is prevented.

As shown in fig. 4, the encircling detection component 502 comprises a connection circular frame 5021, a detector 5022 and an encircling detection head 5023, the rear side of the connection circular frame 5021 is bolted to the front side of a thread plate 5014, the detector 5022 is connected to the bottom of the connection circular frame 5021 in a clamping manner, the encircling detection head 5023 is bolted to the bottom of the detector 5022, the encircling detection component 502 is arranged to encircle a silicon nitride ceramic ball, the detection effect is improved, the silicon nitride ceramic ball is detected by the detector 5022 connected to the inside of the circular frame 5021 and the encircling detection head 5023, a detected image is transmitted to an external imaging device, and the detection of the silicon nitride ceramic ball is realized by observation.

As shown in fig. 5, the intact collecting mechanism 6 includes a left sliding plate 601, a first electric limiting lifting plate 602 and a finished product collecting tank 603, the left sliding plate 601 is bolted on the left side of the fixing plate 401 and the feeding channel 2, the first electric limiting lifting plate 602 is bolted on the top of the left sliding plate 601, the finished product collecting tank 603 is arranged on the left side of the top of the operation box 1, the intact collecting mechanism 6 is arranged to complete the collection of the silicon nitride ceramic balls, and the lifting of the first electric limiting lifting plate 602 on the top of the left sliding plate 601 controls whether the silicon nitride ceramic balls can enter the finished product collecting tank 603 or not, so as to collect the finished products.

As shown in fig. 5, the defective product collecting mechanism 7 includes a right sliding plate 701, a second electric limiting lifting plate 702 and a defective product collecting tank 703, the right sliding plate 701 is bolted on the right side of the fixing plate 401 and the feeding channel 2, the second electric limiting lifting plate 702 is bolted on the top of the right sliding plate 701, the finished product collecting tank 603 is arranged on the right side of the top of the work box 1, by arranging the defective product collecting mechanism 7, the collection of the silicon nitride ceramic balls of the defective products is completed, and the lifting of the second electric limiting lifting plate 702 on the top of the right sliding plate 701 controls whether the silicon nitride ceramic balls can enter the inside of the defective product collecting tank 703, so as to complete the collection of the defective products.

As shown in fig. 1, the bottom welding of operation case 1 has landing leg 8, and landing leg 8's quantity is four, and the bottom of landing leg 8 has cup jointed and has stabilized the absorption packing ring 9, through setting up landing leg 8 and deciding the absorption packing ring, realizes the support to operation case 1 to further increase adsorption efficiency through stabilizing absorption packing ring 9, provide more stable effect for operation case 1, promote the practicality.

The using process is briefly described as follows: when silicon nitride ceramic balls are detected, height adjustment is assisted, the threaded rod 5011 is rotated by rotating the rotating handle 5015, the threaded plate 5014 is lifted, meanwhile, the threaded rod 5011 is limited by the two auxiliary rods 5012 and the fixing block 5013, the phenomenon of deviation during rotation is prevented, the silicon nitride ceramic balls are detected by the detector 5022 inside the connecting round frame 5021 and the surrounding detection head 5023, detected images are transmitted to external imaging equipment, surrounding detection of the silicon nitride ceramic balls is achieved by observation, the detection effect is improved, whether the silicon nitride ceramic balls can enter the finished product collecting tank 603 or not is controlled by lifting of the first electric limiting lifting plate 602 at the top of the left sliding plate 601, finished product collection is carried out, or whether the silicon nitride ceramic balls can enter the collecting tank 703 or not is controlled by lifting of the second electric limiting lifting plate 702 at the top of the right sliding plate 701, and collection of defective products is finished.

The specific embodiments are only for explaining the present invention, and it is not a limitation to the present invention, and those skilled in the art can make modifications to the embodiments without inventive contribution as required after reading the present specification, but all the embodiments are protected by patent law within the scope of the claims of the present invention.

Claims (8)

1. The utility model provides a silicon nitride ceramic ball detection device, includes operation case (1), its characterized in that: the front side of the top of the operation box (1) is bolted with a feeding channel (2), the top of the operation box (1) is provided with an auxiliary rotation detection mechanism (3), the top of the operation box (1) is bolted with a buffering object separating mechanism (4), the rear side of the top of the operation box (1) is provided with a lifting detection mechanism (5), the lifting detection mechanism (5) comprises a lifting adjusting component (501) and a surrounding detection component (502), the lifting adjusting component (501) is arranged on the rear side of the top of the operation box (1), the surrounding detection component (502) is welded on the front side of the lifting adjusting component (501), the left sides of the feeding channel (2) and the buffering object separating mechanism (4) are bolted with an intact collecting mechanism (6), and the right sides of the feeding channel (2) and the buffering object separating mechanism (4) are bolted with an inferior-quality product collecting mechanism (7).

2. The apparatus for detecting silicon nitride ceramic balls according to claim 1, wherein: the auxiliary rotation detection mechanism (3) comprises a plane limiting hole (301), a slow rotation motor (302) and an auxiliary rotation ball (303), the plane limiting hole (301) is formed in the top of the operation box (1), the slow rotation motor (302) is bolted to the inside of the operation box (1), the auxiliary rotation ball (303) is arranged in the plane limiting hole (301), and the output end of the slow rotation motor (302) is bolted to the left side of the auxiliary rotation ball (303).

3. The silicon nitride ceramic ball detection device according to claim 1, wherein: the buffering object separating mechanism (4) comprises a fixing plate (401), a buffering motor (402), a connecting groove (403), a connecting plate (404), an expansion rod (405), a buffering rotating rubber plate (406) and a spring (407), wherein the fixing plate (401) is bolted to the top of the work box (1), the buffering motor (402) is bolted to the inside of the fixing plate (401), the connecting groove (403) is formed in the front side of the fixing plate (401), the connecting plate (404) is arranged on the rear side of the inside of the connecting groove (403), the output end of the buffering motor (402) is bolted to the rear side of the connecting plate (404), the rear side of the expansion rod (405) is welded to the front side of the connecting plate (404), the rear side of the buffering rotating rubber plate (406) is welded to the front side of the expansion rod (405), and the spring (407) is sleeved on the outer side of the expansion rod (405).

4. The apparatus for detecting silicon nitride ceramic balls according to claim 1, wherein: the lift adjustment subassembly (501) includes threaded rod (5011), two auxiliary rod (5012), fixed block (5013), thread plate (5014) and rotatory handle (5015), threaded rod (5011) rotates to be connected at the rear side at operation case (1) top, and the bottom of two auxiliary rod (5012) is welded respectively at the rear side at operation case (1) top, fixed block (5013) is welded at the top of two auxiliary rod (5012), fixed block (5013) is run through at the top of threaded rod (5011), thread plate (5014) threaded connection is in the outside of threaded rod (5011), and thread plate (5014) are all run through in two auxiliary rod (5012), rotatory handle (5015) is welded at the top of threaded rod (5011).

5. The silicon nitride ceramic ball detection device according to claim 1, wherein: encircle and survey subassembly (502) including connecting circle frame (5021), detector (5022) and encircle and detect head (5023), connect the rear side of circle frame (5021) and the front side bolt of thread plate (5014), detector (5022) joint is in the bottom of connecting circle frame (5021), encircle and detect head (5023) bolt in the bottom of detector (5022).

6. The silicon nitride ceramic ball detection device according to claim 1, wherein: intact mechanism (6) of collecting includes left slide (601), electronic spacing lifter plate (602) of first and finished product collecting vat (603), left side slide (601) bolt is in the left side of fixed plate (401) and feedstock channel (2), electronic spacing lifter plate (602) bolt of first is in the top of left slide (601), finished product collecting vat (603) are seted up on the left side at operation case (1) top.

7. The silicon nitride ceramic ball detection device according to claim 1, wherein: the defective product collecting mechanism (7) comprises a right sliding plate (701), a second electric limiting lifting plate (702) and a defective product collecting tank (703), the right sliding plate (701) is bolted on the right sides of the fixing plate (401) and the feeding channel (2), the second electric limiting lifting plate (702) is bolted on the top of the right sliding plate (701), and the defective product collecting tank (703) is arranged on the right side of the top of the operation box (1).

8. The apparatus for detecting silicon nitride ceramic balls according to claim 1, wherein: the bottom welding of operation case (1) has landing leg (8), the quantity of landing leg (8) is four, stable absorption packing ring (9) have been cup jointed to the bottom of landing leg (8).

Images