CN114633171A - Intelligence temperature detect switch subassembly production shaping system of processing - Google Patents

Abstract

The invention relates to the technical field of production molding processing, in particular to an intelligent temperature control switch assembly production molding processing system; comprises a supporting block, a rotating unit and a grinding unit; the invention solves the problems that in the production, forming and machining process of the existing intelligent temperature control switch assembly, the cleaning of fragments adhered to the inside of a threaded groove after the turning of a threaded connection sensor is incomplete, the subsequent quality of sand blasting or oxidation coating is influenced, and after the threaded connection sensor is machined, burrs exist on the surface and thread turning, so that incomplete scrap iron is easy to occur, operators are easy to scratch in the use process, the matched use of threads is influenced by the burrs of the threaded part, and the threads are easy to be dragged to cause thread breakage and the like; the invention improves the molding quality of the intelligent temperature control switch component; the quality of the subsequent processing technology is ensured, and the use of a user is facilitated.

Description

Intelligence temperature detect switch subassembly production shaping system of processing

Technical Field

The invention relates to the technical field of production, forming and processing, in particular to an intelligent temperature control switch assembly production, forming and processing system.

Background

The intelligent temperature control switch transmits the temperature to the temperature controller through the temperature protector, and the temperature controller sends out a switch command, so that the operation of the equipment is controlled to achieve ideal temperature and energy-saving effects.

The temperature control switch comprises a temperature sensor, a temperature sensing bulb, a microswitch and the like, wherein the temperature sensor is divided into a threaded connection sensor, a contact sensor, a three-head sensor and the like, and the threaded connection sensor is usually subjected to shape turning and thread turning in a machining mode.

But the following problems mainly exist in the production, forming and processing process of the current intelligent temperature control switch component: firstly, after the threaded connection sensor is processed, debris on the threaded connection sensor is blown away through an air gun, but the debris air gun which is partially adhered in a thread groove of the threaded connection sensor is not easy to clean, so that the subsequent sand blasting or oxidation coating quality is influenced; secondly, threaded connection sensor processing accomplishes the back, and the surface has burr and screw thread turning to make the iron fillings that appear cutting incomplete easily, fish tail operating personnel easily in the use to the burr of screw thread part can influence the screw thread cooperation and use, still drags the phenomenon that the screw thread caused the screw thread to collapse easily.

Therefore, the forming quality of the intelligent temperature control switch assembly is improved; the invention ensures the quality of the subsequent processing technology, is convenient for a user to use, and provides an intelligent temperature control switch assembly production, molding and processing system.

Disclosure of Invention

In order to achieve the purpose, the invention adopts the following technical scheme: an intelligent temperature control switch assembly production molding processing system comprises a supporting block, a rotating unit and a polishing unit; the supporting block is in an Contraband structure, the upper part of the supporting block is provided with a grinding unit, the lower part of the supporting block is provided with a rotating unit, and the grinding unit is positioned right above the rotating unit.

The rotating unit comprises a cylinder, a fixing plate, a driven gear, a fixing piece, a driving mechanism, a rotating shaft, a driving gear, a servo motor and a bevel gear, the cylinder is arranged on the bottom wall in the supporting block, the cylinder column is of a stepped structure, a fixed plate is arranged in the cylinder column, driven gears are uniformly arranged on the upper end face of the fixed plate in a rotating fit mode, fixing parts are arranged on the upper end faces of the driven gears, a driving mechanism is arranged on the outer wall of the circumference of the cylinder column, a rotating shaft is arranged in the middle of the fixed plate in a rotating fit mode, a driving gear is arranged on the upper end shaft head of the rotating shaft, the driving gear is engaged with the driven gear, the lower end shaft head of the rotating shaft is arranged on the bottom wall inside the supporting block through a bearing, the servo motor is installed on the bottom wall inside the supporting block through the motor base, and the servo motor and the rotating shaft are in meshing transmission through the bevel gears.

The polishing unit comprises a telescopic cylinder, a fixed disc, a ring groove, a linkage piece, a shell, a tubular column, a polishing piece and a brush part, wherein the telescopic cylinder is installed on the upper end face of the supporting block, the telescopic end of the telescopic cylinder penetrates through the upper portion of the supporting block and is located in the supporting block, the fixed disc is installed at the telescopic end of the telescopic cylinder inside the supporting block, the ring groove is formed in the fixed disc, the linkage piece is installed in an arc-shaped groove, the shell is evenly installed below the fixed disc, the shell corresponds to the fixing piece one by one, the tubular column is installed on the upper portion of the shell, the upper end face of the tubular column is installed on the lower end face of the fixed disc, the polishing piece is installed on the upper portion inside of the shell and is connected with the linkage piece, the brush part is installed on the inner circumferential wall of the shell along the circumferential direction, and the brush part is located below the polishing piece.

Preferably, the fixing part comprises a support column, a round block, a ring block, a lifting plate, a limiting block, a first support rod and a second support rod, the support column is arranged on the upper end surface of the driving gear, the supporting column is of an inverted T-shaped structure, the upper end surface of the supporting column is provided with a round block, the lower part of the supporting column is provided with a ring block in a sliding fit manner, the lower end surfaces of the ring blocks are provided with a lifting plate together in a rotating fit manner, and the lifting plate is installed in the cylinder through a sliding fit mode, the outside of the support column is evenly provided with a limiting block along the circumferential direction of the support column, a first support rod is hinged between the upper part of the inner side end face of the limiting block and the ring block, a second support rod is hinged between the lower part of the inner side end face of the limiting block and the round block, and the middle part of the first support rod is connected with the middle part of the second support plate through a pin shaft.

Preferably, actuating mechanism include drive ring, spiral lines, arc slide, spout, arc wall, support piece and locating part, the drive ring is installed through the pivoted mode on the circumference outer wall upper portion of the protruding section of thick bamboo post, the circumference inner wall of drive ring is provided with spiral lines, lift the lower terminal surface of board and evenly install the arc slide along its circumference direction, the spout has evenly been seted up on the circumference inner wall of thick bamboo post along its circumference direction, and the arc slide passes through sliding fit's mode and installs in the spout, a side end face that the pivot was kept away from to the arc slide is provided with the arc wall, and arc wall and spiral lines cooperation, the support piece is installed to the circumference outer wall of drive ring, and support and be provided with the locating part on the piece.

Preferably, the locating part include spacing groove, lead to groove, spacing post, compression spring, wane and connecting rod, the section of thick bamboo post is close to outside up end left side and evenly is provided with the spacing groove along pitch arc direction, support piece inside seted up logical groove, and lead to about the groove both ends link up and support the piece, support piece down the logical inslot of terminal surface install spacing post through sliding fit's mode, and spacing post is down "T" type structure, install compression spring between up end and the logical inslot wall of the horizontal segment of spacing post, support the logical inslot of the up end of piece and install the wane through the round pin axle, lead to the inslot of the inside wane tip of groove and install a connecting rod through articulated mode jointly with spacing post tip.

Preferably, the polishing part comprises a straight line waist hole, an adjusting plate, an arc waist hole, a guide rod and an arc-shaped block, the straight line waist hole is uniformly formed in the upper end face of the shell, the adjusting plate is installed on the upper end face of the shell in a rotation fit mode, the arc waist hole is uniformly formed in the adjusting plate, the arc waist hole and the straight line waist hole are in one-to-one correspondence, the guide rod is jointly installed in the arc waist hole and the straight line waist hole in a sliding fit mode, the arc-shaped block is installed on the lower end face of the guide rod, the inner end face of the arc-shaped block is an inclined arc face, and polishing materials are arranged on the inclined arc face.

Preferably, brush portion include arc magnetic sheet, buckle, through-hole, brush and No. two brushes, the circumference outer wall of casing lower part be provided with arc magnetic sheet along its circumference direction, and arc magnetic sheet passes through the buckle to be installed on the casing, evenly set up the through-hole on the arc magnetic sheet, evenly be provided with a brush in the through-hole, evenly be provided with No. two brushes in the clearance of a brush, and a brush and No. two brushes are all installed on the circumference inner wall of casing.

Preferably, the linkage piece include axostylus axostyle, planetary gear, gear ring, circular arc notch, push rod, circular slot and bullet post, the up end middle part of regulating plate is provided with the axostylus axostyle, axostylus axostyle upper end spindle nose runs through fixed disc and is located the ring channel, planetary gear is installed to the spindle nose of the axostylus axostyle in the ring channel, the gear ring is installed through sliding fit's mode to the inside circumference of ring channel, and gear ring and shape planetary gear meshing, the circular arc notch has been seted up on the right side of fixed disc, and the circular arc notch is linked together with the ring channel, the inside push rod that is provided with of circular arc notch, push rod left side end-face mounting is on the circumference outer wall of gear ring, the circular slot has evenly been seted up along pitch arc direction to the inside diapire of circular arc notch, the bullet post is installed to the lower terminal surface of push rod, and bullet post is contradicted with the circular slot.

Preferably, the lower end surface of the housing is uniformly mounted with balls in a circumferential direction thereof.

Preferably, the limiting block is of an isosceles trapezoid structure, and the slope angle of the limiting block is 60 degrees.

Preferably, the length of the first hairbrush is larger than that of the second hairbrush, and the hardness of the second hairbrush is higher than that of the first hairbrush.

The invention has the beneficial effects that:

firstly, the threaded connection sensors with different sizes are fixed and rotated through the rotating unit; the grinding unit is used for grinding the thread sensors with different sizes in the rotating process.

The rotating unit driving mechanism is arranged to control the outward expansion range of the limiting block on the fixing piece, so that the threaded connection sensors with different sizes are fixed, the limiting block is of an isosceles trapezoid structure with a slope angle of 60 degrees, and can be well tightly attached to the inner hexagonal screw hole of the threaded connection sensor, so that the stability of the threaded connection sensor is guaranteed, and the polishing quality of the threaded connection sensor is improved.

The polishing unit provided by the invention performs targeted polishing treatment through the external circle turning part and the thread turning part of the polishing piece and the brush part thread connection sensor, so that the polishing quality of each part in the polishing process is ensured, and the phenomenon of workpiece damage in the polishing process is avoided.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a perspective view of the present invention from a first perspective.

Fig. 2 is a perspective view of the present invention from a second perspective.

Fig. 3 is a structural sectional view of the rotating unit of the present invention.

Fig. 4 is a partial enlarged view of the invention at a in fig. 3.

Fig. 5 is a partial enlarged view of the invention at B in fig. 3.

Fig. 6 is a schematic structural view of the rotating unit of the present invention.

Fig. 7 is a schematic view of the driving mechanism of the present invention.

Fig. 8 is a partial enlarged view of the invention at C in fig. 3.

Figure 9 is a sectional view of the sharpening unit construction of this invention.

Fig. 10 is a schematic view of a partial structure of a sharpening unit according to the invention.

Figure 11 is a schematic view of a sanding element according to the present invention.

Fig. 12 is an enlarged view of a portion of the invention at D in fig. 9.

FIG. 13 is a schematic view of the structure of the arc-shaped magnetic plate of the present invention.

In the figure: 1. a support block; 2. a rotation unit; 3. a polishing unit; 20. a cylinder; 21. a fixing plate; 22. a driven gear; 23. a fixing member; 24. a drive mechanism; 25. a rotating shaft; 26. a driving gear; 27. a servo motor; 28. a bevel gear; 30. a telescopic cylinder; 31. fixing the disc; 32. an annular groove; 33. a linkage member; 34. a housing; 35. a pipe string; 36. polishing the workpiece; 37. a brush part; 230. a support pillar; 231. a round block; 232. a ring block; 233. lifting the plate; 234. a limiting block; 235. a first support rod; 236. a second support rod; 240. a drive ring; 241. a spiral line; 242. an arc-shaped sliding plate; 243. a chute; 244. an arc-shaped slot; 245. a support block; 4. a limiting member; 40. a limiting groove; 41. a through groove; 42. a limiting post; 43. a compression spring; 44. a seesaw; 45. a connecting rod; 360. a straight waist hole; 361. an adjusting plate; 362. an arc waist hole; 363. a guide bar; 364. an arc-shaped block; 370. an arc-shaped magnetic plate; 371. buckling; 372. a through hole; 373. a first brush; 374. a second brush; 330. a shaft lever; 331. a planetary gear; 332. a gear ring; 333. a circular arc notch; 334. a push rod; 335. a circular groove; 336. a bullet column; 5. and a ball.

Detailed Description

Embodiments of the present invention will be described below with reference to the drawings. In this process, the width of the lines or the size of the components in the drawings may be exaggerated for clarity and convenience of description.

The following terms are defined based on the functions of the present invention, and may be different depending on the intention of the user or the operator or the convention. Therefore, these terms are defined based on the entire contents of the present specification.

Referring to fig. 1, an intelligent temperature control switch assembly production molding processing system includes a supporting block 1, a rotating unit 2 and a polishing unit 3; the grinding device is characterized in that the supporting block 1 is of an Contraband structure, the grinding unit 3 is arranged on the upper portion of the supporting block 1, the rotating unit 2 is arranged on the lower portion of the supporting block 1, and the grinding unit 3 is located right above the rotating unit 2.

Referring to fig. 1, 2 and 3, the rotating unit 2 includes a column 20, a fixing plate 21, a driven gear 22, a fixing member 23, a driving mechanism 24, a rotating shaft 25, a driving gear 26, a servo motor 27 and a bevel gear 28, the column 20 is installed on the bottom wall inside the supporting block 1, the column 20 is in a ladder-shaped structure, the fixing plate 21 is installed inside the column 20, the driven gear 22 is evenly installed on the upper end surface of the fixing plate 21 in a rotation fit manner, the fixing member 23 is installed on the upper end surface of the driven gear 22, the driving mechanism 24 is arranged on the circumferential outer wall of the column 20, the rotating shaft 25 is installed in the middle of the fixing plate 21 in a rotation fit manner, the driving gear 26 is installed on the upper end shaft head of the rotating shaft 25, the driving gear 26 is engaged with the driven gear 22, the lower end shaft head of the rotating shaft 25 is installed on the bottom wall inside the supporting block 1 through a bearing, the servo motor 27 is installed on the bottom wall inside the supporting block 1 through a motor seat, and the servo motor 27 is in meshing transmission with the rotating shaft 25 through a bevel gear 28.

During specific work, the threaded connection sensor is manually placed on the fixing part 23, the fixing part 23 is used for fixing the threaded connection sensor through the driving mechanism 24, the polishing unit 3 is moved to the position of the threaded connection sensor, and then the threaded connection sensor is driven to rotate through the servo motor 27 to be polished.

Referring to fig. 1, 3, 4, 6 and 7, the fixing member 23 includes a supporting post 230, a round block 231, a ring block 232, a lifting plate 233, a limiting block 234, a first supporting rod 235 and a second supporting rod 236, the supporting post 230 is installed on the upper end surface of the driving gear 26, the supporting post 230 is in an inverted T-shaped structure, the round block 231 is installed on the upper end surface of the supporting post 230, the ring block 232 is installed on the lower portion of the supporting post 230 in a sliding fit manner, the lifting plate 233 is installed on the lower end surface of the ring block 232 in a rotating fit manner, the lifting plate 233 is installed inside the column 20 in a sliding fit manner, the limiting blocks 234 are uniformly arranged on the outer portion of the supporting post 230 along the circumferential direction thereof, the first supporting rod 235 is hinged between the upper portion of the inner side end surface of the limiting block 234 and the ring block 232, the second supporting rod 236 is hinged between the lower portion of the inner side end surface of the limiting block 234 and the round block 231, and the middle part of the first supporting rod 235 is connected with the middle part of the second supporting plate through a pin shaft.

During specific work, the threaded connection sensor is manually placed on the supporting column 230, the limiting block 234 is located in the threaded connection sensor, then the lifting plate 233 moves upwards through the rotary driving mechanism 24, the ring block 232 pushes upwards at the moment, the first supporting rod 235 and the second supporting rod 236 expand outwards to push the limiting block 234 to be tightly attached to the inner wall of the threaded connection sensor, and therefore the effect of fixing the threaded connection sensor is achieved.

Referring to fig. 1, the limiting block 234 is in an isosceles trapezoid structure, and the slope angle of the limiting block 234 is 60 degrees; during specific work, the lower end face of the threaded connection sensor is an inner hexagonal screw hole, and the inner angle of the inner hexagonal screw hole is 120 degrees, so that the limiting block 234 can be tightly attached to the threaded connection sensor, and the stability of the threaded connection sensor in the rotating process is further ensured.

Referring to fig. 3, 5, 6 and 7, the driving mechanism 24 includes a driving ring 240, a spiral line 241, an arc-shaped sliding plate 242, a sliding groove 243, an arc-shaped groove 244, a supporting block 245 and a limiting member 4, the driving ring 240 is installed on the upper portion of the outer circumferential wall of the protruding section of the cylinder 20 in a rotating manner, the spiral line 241 is installed on the inner circumferential wall of the driving ring 240, the arc-shaped sliding plate 242 is evenly installed on the lower end surface of the lifting plate 233 along the circumferential direction thereof, the sliding groove 243 is evenly installed on the inner circumferential wall of the cylinder 20 along the circumferential direction thereof, the arc-shaped sliding plate 242 is installed in the sliding groove 243 in a sliding fit manner, the arc-shaped groove 244 is installed on the end surface of the arc-shaped sliding plate 242 away from the rotating shaft 25, the arc-shaped groove 244 is matched with the spiral line 241, the supporting block 245 is installed on the outer circumferential wall of the driving ring 240, and the limiting member 4 is installed on the supporting block 245.

During specific work, after the threaded connection sensor is manually placed on the fixing piece 23, the limiting piece 4 is manually pressed and the supporting block 245 is pushed, the driving ring 240 rotates to enable the spiral line 241 to slide in the arc-shaped groove 244, the spiral line 241 slowly lifts the arc-shaped sliding plate 242, the lifting plate 233 moves the ring block 232 upwards, the limiting block 234 expands outwards, when the driving ring 240 rotates in the opposite direction, the spiral line 241 is matched with the arc-shaped groove 244, the lifting plate 233 moves downwards to enable the limiting block 234 to contract inwards, and therefore the polished threaded connection sensor can be conveniently taken down.

Referring to fig. 1, 6 and 7, the limiting member 4 includes a limiting groove 40, a through groove 41, a limiting post 42, a compression spring 43, a rocker 44 and a connecting rod 45, the limiting groove 40 is uniformly arranged on the left side of the upper end surface of the barrel pillar 20 near the outside along the arc direction, the through groove 41 is formed in the supporting block 245, the upper end and the lower end of the through groove 41 penetrate through the supporting block 245, the limiting post 42 is installed in the through groove 41 on the lower end surface of the supporting block 245 in a sliding fit manner, the limiting post 42 is of an inverted T-shaped structure, the compression spring 43 is installed between the upper end surface of the horizontal section of the limiting post 42 and the inner wall of the through groove 41, the rocker 44 is installed in the through groove 41 on the upper end surface of the supporting block 245 through a pin shaft, and the connecting rod 45 is installed on the end portion of the rocker 44 and the end portion of the limiting post 42 in the through groove 41 in a hinged manner.

When the threaded connection sensor fixing device works, one end of a warping plate 44 on the upper end face of a supporting block 245 is pressed downwards manually, the other end of the warping plate 44 is warped, a limiting column 42 is moved out of a limiting groove 40 through a connecting rod 45, at the moment, a driving ring 240 is rotated through the supporting block 245, the driving ring 240 rotates to control the distance of outward expansion of the limiting block 234, after the position of the limiting block 234 is adjusted, the warping plate 44 is loosened, the limiting column 42 resets under the action of a compression spring 43 and falls into the limiting groove 40 below the limiting column 42, and therefore the fixing state of the limiting block 234 on the threaded connection sensor is kept.

Referring to fig. 1, 2 and 9, the polishing unit 3 includes a telescopic cylinder 30, a fixed disc 31, an annular groove 32, a linkage 33, a housing 34, a tubular column 35, a polishing member 36 and a brush part 37, the upper end surface of the support block 1 is provided with the telescopic cylinder 30, the telescopic end of the telescopic cylinder 30 passes through the upper portion of the support block 1 and is located in the support block 1, the telescopic end of the telescopic cylinder 30 in the support block 1 is provided with the fixed disc 31, the annular groove 32 is formed in the fixed disc 31, the linkage 33 is arranged in the arc-shaped groove 244, the housing 34 is uniformly arranged below the fixed disc 31, the housing 34 and the fixing member 23 are in one-to-one correspondence, the tubular column 35 is arranged on the upper portion of the housing 34, the upper end surface of the tubular column 35 is arranged on the lower end surface of the fixed disc 31, the polishing member 36 is arranged on the upper portion in the housing 34, the polishing member 36 is connected with the linkage 33, the brush part 37 is arranged on the circumferential inner wall of the housing 34 along the circumferential direction thereof, and the brush part 37 is located below the sanding member 36.

During specific work, after the threaded connection sensor is manually fixed through the fixing piece 23, the telescopic end of the telescopic cylinder 30 pushes the shell 34 to move towards the threaded connection sensor, the shell 34 covers the threaded connection sensor, then the polishing piece 36 is attached to the threaded connection sensor through the linkage piece 33, then the rotating unit 2 drives the threaded connection sensor to rotate inside the shell 34, and the polishing piece 36 and the brush portion 37 polish the threaded connection sensor.

Referring to fig. 9, balls 5 are uniformly mounted on the lower end surface of the housing 34 along the circumferential direction thereof; in operation, the housing 34 is moved to the fixing member 23 by the telescopic cylinder 30, and then the ball 5 contacts the screw sensor, thereby reducing friction between the housing 34 and the screw sensor.

Referring to fig. 9 and 11, the polishing member 36 includes a straight-line waist hole 360, an adjusting plate 361, an arc-shaped waist hole 362, a guide rod 363 and an arc-shaped block 364, the straight-line waist hole 360 is uniformly formed in the upper end surface of the casing 34, the adjusting plate 361 is installed on the upper end surface of the casing 34 in a rotation fit manner, the arc-shaped waist hole 362 is uniformly formed in the adjusting plate 361, the arc-shaped waist hole 362 and the straight-line waist hole 360 correspond to each other one by one, the guide rod 363 is installed in the arc-shaped waist hole 362 and the straight-line waist hole 360 together in a sliding fit manner, the arc-shaped block 364 is installed on the lower end surface of the guide rod 363, the inner side end surface of the arc-shaped block 364 is an inclined arc surface, and polishing materials are arranged on the inclined arc surface.

During specific work, casing 34 covers on threaded connection sensor through telescopic cylinder 30 earlier, then the manual work is through link 33 rotation regulating plate 361 for guide arm 363 contradicts with the inner wall in arc waist hole 362, and guide arm 363 can be gathered together along the inside removal in sharp waist hole 360, thereby makes the inside polishing material of arc piece 364 and the contact of threaded connection sensor inner wall, and then guarantees the not effect of unidimensional threaded connection sensor processing of polishing.

Referring to fig. 9, 10 and 11, the link 33 includes a shaft 330, a planetary gear 331, a gear ring 332, an arc notch 333, a push rod 334, a circular groove 335 and an elastic column 336, the shaft 330 is disposed in the middle of the upper end surface of the adjusting plate 361, the upper end spindle head of the shaft 330 penetrates through the fixed disk 31 and is located in the annular groove 32, the planetary gear 331 is mounted on the spindle head of the shaft 330 in the annular groove 32, the gear ring 332 is mounted inside the circumference of the annular groove 32 in a sliding fit manner, the gear ring 332 is engaged with the circular planetary gear 331, the arc notch 333 is disposed on the right side of the fixed disk 31, the arc notch 333 is communicated with the annular groove 32, the push rod 334 is disposed inside the arc notch 333, the left end surface of the push rod 334 is mounted on the outer wall of the circumference of the gear ring 332, the circular groove 335 is uniformly formed on the bottom wall inside the arc notch 333, the elastic column 336 is mounted on the lower end surface of the push rod 334, and the elastic column 336 is abutted against the circular groove 335.

During specific work, artifical push rod 334 that promotes is greater than when playing post 336 elasticity when thrust, push rod 334 is promoted, and play post 336 moves out from circular slot 335, along with push rod 334's rotation, gear ring 332 can drive a plurality of planetary gear 331 and rotate, thereby make the regulating plate 361 of planetary gear 331 lower extreme rotate, regulating plate 361 rotates the laminating state of having controlled arc piece 364 and threaded connection sensor, bullet post 336 can fall into circular slot 335 of relevant position department in order to keep the laminating state of arc piece 364 and threaded connection sensor after adjusting.

Referring to fig. 10, 11, 12 and 13, the brush part 37 includes an arc-shaped magnetic plate 370, a fastener 371, a through hole 372, a first brush 373, and a second brush 374, the arc-shaped magnetic plate 370 is disposed on the circumferential outer wall of the lower portion of the housing 34 along the circumferential direction thereof, the arc-shaped magnetic plate 370 is mounted on the housing 34 through the fastener 371, the through hole 372 is uniformly formed on the arc-shaped magnetic plate 370, the first brush 373 is uniformly disposed in the through hole 372, the second brush 374 is uniformly disposed in the gap between the first brush 373, and the first brush 373 and the second brush 374 are both mounted on the circumferential inner wall of the housing 34.

During specific work, further fix arc magnetic sheet 370 inside casing 34 through buckle 371, and make a brush 373 and No. two brushes 374 all be located through-hole 372, metal debris that the in-process produced polishing threaded connection sensor can be adsorbed on arc magnetic sheet 370, and then guarantee threaded connection sensor's the quality of polishing, when needs are cleared up arc magnetic sheet 370, earlier through buckle 371 with arc magnetic sheet 370 and casing 34 quickly separating, then take out arc magnetic sheet 370, the removal in-process of arc magnetic sheet 370 can be taken out the inside piece absorption of a brush 373 and No. two brushes 374, in order to play the clearance of a brush 373 and No. two brushes 374, arc magnetic sheet 370 takes off the metal debris on its surface and clears up the back, can install inside reuse once more in casing 34.

Referring to fig. 12, the length of the first brush 373 is greater than that of the second brush 374, and the stiffness of the second brush 374 is greater than that of the first brush 373; during specific work, the first brush 373 can clean the external surface layer of the threaded connection sensor, and the second brush 374 further cleans the chips adhered to the inner side of the thread groove of the threaded connection sensor, so that the polishing cleaning effect of the threaded part of the threaded connection sensor is improved.

When the intelligent temperature control switch assembly is used for production molding processing, firstly, a threaded connection sensor is manually placed on a fixing piece 23, then the fixing piece 23 is used for fixing the threaded connection sensor through a driving mechanism 24, then a polishing unit 3 is moved to a rotating unit 2 through a telescopic cylinder 30 so that a shell 34 covers the threaded connection sensor, then a polishing piece 36 is manually adjusted through a linkage piece 33 so that the polishing piece 36 is attached to the threaded connection sensor, then the threaded connection sensor is driven to rotate in the shell 34 through a servo motor 27, the threaded connection sensor is polished through the polishing piece 36 and a brush part 37 in the shell 34, after polishing is completed, the polishing piece 36 is manually far away from the threaded connection sensor, the polishing unit 3 is reset through the telescopic cylinder 30, and then the fixing piece 23 is manually released from the threaded connection sensor through the driving mechanism 24, and then manually taking down the polished threaded connection sensor, and then putting the threaded connection sensor to be polished into the sensor to perform polishing operation.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. An intelligent temperature control switch assembly production forming processing system comprises a supporting block (1), a rotating unit (2) and a polishing unit (3); the method is characterized in that: the grinding device is characterized in that the supporting block (1) is of an Contraband structure, the upper part of the supporting block (1) is provided with a grinding unit (3), the lower part of the supporting block (1) is provided with a rotating unit (2), and the grinding unit (3) is positioned right above the rotating unit (2); wherein:

the rotary unit (2) comprises a cylinder column (20), a fixing plate (21), a driven gear (22), a fixing piece (23), a driving mechanism (24), a rotating shaft (25), a driving gear (26), a servo motor (27) and a bevel gear (28), the cylinder column (20) is installed on the bottom wall inside the supporting block (1), the cylinder column (20) is of a stepped structure, the fixing plate (21) is installed inside the cylinder column (20), the driven gear (22) is evenly installed on the upper end face of the fixing plate (21) in a rotating fit mode, the fixing piece (23) is installed on the upper end face of the driven gear (22), the driving mechanism (24) is arranged on the outer wall of the circumference of the cylinder column (20), the rotating shaft (25) is installed in the middle of the fixing plate (21) in a rotating fit mode, the driving gear (26) is installed on the upper end of the rotating shaft (25), and the driving gear shaft head (26) is meshed with the driven gear (22), the lower end shaft head of the rotating shaft (25) is arranged on the bottom wall inside the supporting block (1) through a bearing, the servo motor (27) is arranged on the bottom wall inside the supporting block (1) through a motor base, and the servo motor (27) and the rotating shaft (25) are in meshing transmission through a bevel gear (28);

the polishing unit (3) comprises a telescopic cylinder (30), a fixed disc (31), an annular groove (32), a linkage part (33), a shell (34), a pipe column (35), a polishing part (36) and a brush part (37), wherein the telescopic cylinder (30) is installed on the upper end face of the supporting block (1), the telescopic end of the telescopic cylinder (30) penetrates through the upper part of the supporting block (1) and is positioned in the supporting block (1), the fixed disc (31) is installed at the telescopic end of the telescopic cylinder (30) in the supporting block (1), the annular groove (32) is formed in the fixed disc (31), the linkage part (33) is installed in an arc-shaped groove (244), the shell (34) is uniformly installed below the fixed disc (31), the shell (34) corresponds to the fixing parts (23) one by one, the pipe column (35) is installed on the upper part of the shell (34), and the upper end face of the pipe column (35) is installed on the lower end face of the fixed disc (31), polishing parts (36) are mounted on the upper portion inside the shell (34), the polishing parts (36) are connected with the linkage parts (33), brush parts (37) are mounted on the circumferential inner wall of the shell (34) along the circumferential direction of the shell, and the brush parts (37) are located below the polishing parts (36).

2. The intelligent temperature controlled switch assembly production molding processing system according to claim 1, wherein: the fixing piece (23) comprises a supporting column (230), a round block (231), a ring block (232), a lifting plate (233), a limiting block (234), a first supporting rod (235) and a second supporting rod (236), the supporting column (230) is installed on the upper end face of the driving gear (26), the supporting column (230) is of an inverted T-shaped structure, the round block (231) is installed on the upper end face of the supporting column (230), the ring block (232) is installed on the lower portion of the supporting column (230) in a sliding fit mode, a lifting plate (233) is installed on the lower end face of the ring block (232) in a rotating fit mode, the lifting plate (233) is installed inside the barrel column (20) in a sliding fit mode, the limiting blocks (234) are evenly arranged on the outer portion of the supporting column (230) in the circumferential direction of the outer portion, the first supporting rod (235) is hinged between the upper portion of the inner side face of the limiting blocks (234) and the ring block (232), a second supporting rod (236) is hinged between the lower part of the end face of the inner side of the limiting block (234) and the round block (231), and the middle part of the first supporting rod (235) is connected with the middle part of the second supporting plate through a pin shaft.

3. The intelligent temperature controlled switch assembly production molding processing system according to claim 2, wherein: the driving mechanism (24) comprises a driving ring (240), spiral lines (241), arc sliding plates (242), sliding grooves (243), arc grooves (244), supporting blocks (245) and a limiting piece (4), the driving ring (240) is installed on the upper portion of the outer circumferential wall of the protruding section of the cylinder column (20) in a rotating mode, the spiral lines (241) are arranged on the inner circumferential wall of the driving ring (240), the arc sliding plates (242) are evenly installed on the lower end face of the lifting plate (233) along the circumferential direction of the lifting plate, the sliding grooves (243) are evenly formed in the inner circumferential wall of the cylinder column (20) along the circumferential direction of the cylinder column, the arc sliding plates (242) are installed in the sliding grooves (243) in a sliding fit mode, the arc grooves (244) are arranged on the end face, far away from the rotating shaft (25), of one side of the arc sliding plates (242), the arc grooves (244) are matched with the spiral lines (241), the supporting blocks (245) are installed on the outer circumferential wall of the driving ring (240), and the supporting block (245) is provided with a limiting piece (4).

4. The intelligent temperature controlled switch assembly production molding processing system according to claim 3, wherein: the limiting piece (4) comprises a limiting groove (40), a through groove (41), a limiting column (42), a compression spring (43), a warping plate (44) and a connecting rod (45), the left side of the upper end surface of the cylinder column (20) close to the outside is evenly provided with a limiting groove (40) along the arc direction, a through groove (41) is arranged inside the supporting block (245), the upper end and the lower end of the through groove (41) are communicated with the supporting block (245), a limiting column (42) is arranged in the through groove (41) on the lower end face of the supporting block (245) in a sliding fit mode, and spacing post (42) are "T" type structure, install compression spring (43) between the up end of the horizontal segment of spacing post (42) and logical groove (41) inner wall, install wane (44) through the round pin axle in logical groove (41) of the up end of support piece (245), link rod (45) are installed through articulated mode jointly to wane (44) tip and spacing post (42) tip of leading to groove (41) inside.

5. The intelligent temperature controlled switch assembly production molding processing system according to claim 1, wherein: polishing piece (36) including straight line waist hole (360), regulating plate (361), arc waist hole (362), guide arm (363) and arc piece (364), straight line waist hole (360) have evenly been seted up to casing (34) up end, regulating plate (361) are installed through normal running fit's mode to casing (34) up end, arc waist hole (362) have evenly been seted up on regulating plate (361), and arc waist hole (362) and straight line waist hole (360) one-to-one, arc waist hole (362) and straight line waist hole (360) are inside installs a guide arm (363) jointly through sliding fit's mode, arc piece (364) are installed to the lower terminal surface of guide arm (363), and arc piece (364) medial surface is the slope cambered surface, be provided with the material of polishing on the slope cambered surface.

6. The intelligent temperature controlled switch assembly production molding processing system according to claim 1, wherein: brush portion (37) include arc magnetic sheet (370), buckle (371), through-hole (372), a brush (373) and No. two brushes (374), the circumference outer wall of casing (34) lower part be provided with arc magnetic sheet (370) along its circumferential direction, and arc magnetic sheet (370) pass through buckle (371) and install on casing (34), evenly set up through-hole (372) on arc magnetic sheet (370), evenly be provided with a brush (373) in through-hole (372), evenly be provided with No. two brushes (374) in the clearance of a brush (373), and a brush (373) and No. two brushes (374) are all installed on the circumference inner wall of casing (34).

7. The intelligent temperature controlled switch assembly production molding processing system according to claim 1, wherein: the linkage piece (33) comprises a shaft rod (330), a planetary gear (331), a gear ring (332), an arc notch (333), a push rod (334), a circular groove (335) and a spring column (336), wherein the middle part of the upper end surface of the adjusting plate (361) is provided with the shaft rod (330), the upper end shaft head of the shaft rod (330) penetrates through the fixed disc (31) and is positioned in the circular groove (32), the shaft head of the shaft rod (330) in the circular groove (32) is provided with the planetary gear (331), the gear ring (332) is arranged in the circumference of the circular groove (32) in a sliding fit mode, the gear ring (332) is meshed with the circular planetary gear (331), the right side of the fixed disc (31) is provided with the arc notch (333), the arc notch (333) is communicated with the circular groove (32), the push rod (334) is arranged in the arc notch (333), and the left end surface of the push rod (334) is arranged on the circumferential outer wall of the gear ring (332), circular slot (335) have evenly been seted up along pitch arc direction to the diapire of circular arc notch (333) inside, and bullet post (336) are installed to the lower terminal surface of push rod (334), and bullet post (336) contradicts with circular slot (335).

8. The intelligent temperature controlled switch assembly production molding processing system according to claim 1, wherein: the lower end face of the shell (34) is uniformly provided with balls (5) along the circumferential direction.

9. The intelligent temperature controlled switch assembly production molding processing system according to claim 2, wherein: the limiting block (234) is in an isosceles trapezoid structure, and the slope angle of the limiting block (234) is 60 degrees.

10. The intelligent temperature controlled switch assembly production molding processing system of claim 6, wherein: the length of the first hairbrush (373) is larger than that of the second hairbrush (374), and the hardness of the second hairbrush (374) is higher than that of the first hairbrush (373).

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