CN115722925A - Assembly type building sleeve embedded part forming and processing device - Google Patents

Abstract

The invention relates to the field of sleeve tapping devices, in particular to an assembly type building sleeve embedded part forming and processing device which comprises a rotary table station, a rotary table platform, a drilling machine, a tapping machine, a discharging part and two jacking mechanisms, wherein four groups of clamp assemblies are arranged on the rotary table platform, each group of clamp assembly comprises two transverse clamping blocks, four inclined clamping plates, two longitudinal clamping blocks, a first jacking part, an axial ejector rod, a second jacking part and two outer end stop blocks, each jacking mechanism comprises a first top plate and a second top plate, and the discharging part comprises a special-shaped top plate capable of translating along the radial direction of the rotary table platform and jacking the two outer end stop blocks. According to the invention, the drilling and tapping steps of the threaded hole in the threaded steel sleeve are integrated together by matching the four-station type turntable station with the specially designed clamp assembly, the tapping operation is performed immediately after the threaded steel sleeve is drilled, and the threaded steel sleeve does not need to be additionally transported midway, so that the stable drilling and tapping process is ensured.

Description

Assembly type building sleeve embedded part forming and processing device

Technical Field

The invention relates to the field of sleeve tapping devices, in particular to a forming and processing device for an embedded part of an assembly type building sleeve.

Background

Threaded steel sleeves, also known as PC sleeves, pre-embedded sleeves, threaded sleeves, etc., have anti-seismic properties. The surface of the threaded steel sleeve is galvanized and rustproof, so that the threaded steel sleeve can adapt to a humid environment and cannot rust. The threaded steel sleeve is a consumable commonly used in an assembly type building and is positioned as an embedded part. The general appearance is the screw-thread steel that cuts, there is the screw hole in the middle, and there is the cross bore bottom for wear anchor horizontal muscle, and the top is erected the hole and is connected the hoist and lift the use of hoist, and the surface color is golden yellow zinc layer, and the length is inequality.

The traditional device for processing the threaded steel sleeve has the following defects: firstly, the threaded steel sleeve needs to be cut off firstly in the machining process, the integral threaded steel is cut into a plurality of small sections of the threaded steel, then the threaded steel needs to be subjected to tapping operation successively, so that the machining of the threaded steel needs to be finished in a plurality of steps, basically, the cutting is performed firstly, then, the drilling is performed, and finally, the tapping operation is performed, all the steps are performed separately, the integration of a plurality of the steps is difficult to realize, especially, the threaded steel sleeve needs to be drilled in advance before tapping, the hole diameter and the hole depth of the drilled hole have a vital role in subsequent operation, after the tapping operation and the tapping operation are performed separately, the tapping effect is not ideal due to errors in machining sizes and collision in the transferring process, the probability of defective products is increased, secondly, the threaded steel sleeve is cut from the whole threaded steel before the forming, the length of the threaded steel sleeve is uncertain, a plurality of steel sleeves can be produced by various manufacturers aiming at the threaded steel sleeves with different sizes, the machining of the threaded steel sleeves with different lengths, and the machining devices with different lengths are difficult to be classified and high.

Disclosure of Invention

In view of the above, it is necessary to provide a device for forming and processing an embedded part of a fabricated building sleeve, which aims at the problems in the prior art.

In order to solve the problems of the prior art, the invention adopts the technical scheme that:

an assembly type building sleeve embedded part forming and processing device comprises a turntable station which is fixedly arranged in a horizontal state and is in a four-station type, a turntable platform which is arranged on the turntable station in a horizontal state and can rotate ninety degrees at a time, and a drilling machine and a tapping machine which are arranged on two adjacent stations of the turntable station, wherein a sleeve is sent into and sent out of the turntable platform by the other two stations of the turntable station, four groups of clamp assemblies are uniformly arranged on the turntable platform along the circumferential direction, each group of clamp assemblies comprises two transverse clamping blocks which are symmetrically arranged and fixedly connected with the turntable platform, two longitudinal clamping blocks which are symmetrically arranged from top to bottom and mutually exclusive, a first jacking piece which is fixedly connected with the lower longitudinal clamping block and is positioned below the turntable platform, an axial mandril which is elastically and outwards jacked along the radial direction of the turntable platform, a second jacking piece which can vertically lift and is used for upwards clamping the axial mandril, and two outer end stop blocks which are close to each other and are used for preventing the sleeve from being separated, each transverse clamping block is hinged with two inclined clamping plates which are symmetrically arranged and are close to each other, the sleeve is jacked between the four inclined clamping plates and jacks the axial mandril after jacking the two outer end stop blocks along the radial direction of the turntable platform, the two longitudinal clamping blocks are respectively positioned above and below the two transverse clamping blocks, the longitudinal clamping blocks are arranged at the top of the turntable platform along the vertical direction in a sliding manner and the two longitudinal clamping blocks move synchronously, the sides of the drilling machine and the tapping machine close to the axis of the turntable platform are respectively provided with a jacking mechanism fixedly connected with the turntable station, each jacking mechanism comprises a first top plate and a second top plate which are respectively used for jacking a first jacking piece and a second jacking piece, a discharging piece fixedly connected with the turntable station is arranged on the station of the sleeve delivering out of the turntable platform, the discharge part comprises a special-shaped top plate which can move in the radial direction of the turntable platform and jacks up two outer end stop blocks.

Preferably, the length direction of slope splint and the length direction of horizontal clamp splice all are on a parallel with the radial of carousel station, and the central plane of symmetry of two horizontal clamp splices is mutually perpendicular with the central plane of two vertical clamp splices, and the both sides of two horizontal clamp splices end width direction in opposite directions all shaping have articulated lug, all are provided with the torsional spring between the two articulated lugs on the both ends of every slope splint and the corresponding horizontal clamp splice, and the torsional spring is used for keeping two slope splint to be close to each other, still link firmly the dwang of both ends and two articulated lug looks coupling in the slope splint, the both ends of dwang all link firmly the spacing shelves pole of perpendicular to slope splint length direction, and arc heavy groove has all been seted up to the opposite side of two articulated lugs on the horizontal clamp splice, and all be provided with gliding arc dog in every arc heavy groove, the shaping has the rectangle flange that is used for blockking the spacing shelves pole on the arc dog, every still the coupling has a plurality of gyro wheels along the radial equidistant range of carousel platform on the slope splint.

Preferably, the length direction of the longitudinal clamping block is parallel to the radial direction of the rotary table platform, the rotary table platform is provided with two sets of limiting parts for each clamp assembly, two sets of limiting parts are symmetrically arranged on two sides of the longitudinal clamping block in the length direction, each set of limiting parts comprises two fixed vertical shafts which are arranged at intervals and fixedly connected with the rotary table platform and four sliding blocks which are arranged on the two fixed vertical shafts in a pairwise manner, the sliding blocks are arranged on the fixed vertical shafts in an axially sliding manner along the fixed vertical shafts, the two sliding blocks are symmetrically arranged on the corresponding fixed vertical shafts from top to bottom, two sliding blocks on the upper side of each set of limiting parts are fixedly connected with a corresponding long vertical plate in the upper longitudinal clamping block, two sliding blocks on the lower side of each set of limiting parts are fixedly connected with corresponding long vertical plates on the lower side of the longitudinal clamping block in the lower side, a first spring is further sleeved on each fixed vertical shaft, the upper end and the lower end of the first spring are respectively abutted against the corresponding upper end and lower end of the upper end of the lower long vertical plate, a limiting mechanism for keeping two long vertical plates in synchronous movement is arranged between each set of the limiting part and the upper end of the lower long vertical plate and the rotary table platform.

Preferably, two outer end dog symmetries set up, and the centrosymmetry face of two outer end dogs coincides mutually with the centrosymmetry face of two horizontal clamp splice, every group the anchor clamps subassembly still includes two fixed block groups that correspond two outer end dogs respectively and link firmly mutually with the carousel platform, two the back of the body end of outer end dog all links firmly two spacing cross axles that parallel interval set up from top to bottom, and the one end that corresponds the outer end dog is kept away from to every spacing cross axle all slides and sets up in corresponding fixed block group, and still overlaps on the spacing cross axle to be equipped with and to be used for forcing two outer end dogs second spring that are close to each other, and outer end dog and fixed block group are contradicted respectively at the both ends of second spring, and the equal shaping of the end in opposite directions of two outer end dogs has the first inclined plane portion that is used for with sleeve sliding fit, and the one end shaping that carousel platform axis was kept away from to every outer end has the second inclined plane portion that is used for with special-shaped top board inclined plane complex.

Preferably, the length direction of axial ejector pin is along the radial of carousel platform, and the one end that the axial ejector pin is close to carousel platform axis has still linked firmly horizontal fixture block, and axial ejector pin and horizontal fixture block all set up on the carousel platform along carousel platform radial slide, second jacking piece includes the chucking spare that a plurality of groups set up along the radial interval of carousel platform, every group chucking spare all includes that two symmetries set up in the lift vertical axis of axial ejector pin both sides and link firmly and be located the rectangle diaphragm of carousel platform below with two lift vertical axis bottoms mutually, every the lift vertical axis all sets up on the carousel platform along vertical direction slides, and goes up and down still the cover on the vertical axis and be equipped with the fourth spring that is used for keeping its vertical decline, and the top of lift vertical axis is round platform column structure, the bottom shaping of horizontal fixture block has two symmetries to set up and adapt to the spacing draw-in groove of lift vertical axis top structure.

Preferably, the bottom of horizontal fixture block has still linked firmly the location dog, sets up on the carousel platform along its radial and just to dodging the waist slotted hole of location dog, has linked firmly the photoelectric switch that a plurality of set up along the radial interval of carousel platform on the carousel station, every all set up the through-hole of dodging that is used for dodging the photoelectric switch light path on the rectangle diaphragm.

Preferably, the jacking mechanism comprises a first cylinder and a two-axis translation mechanism, the output end of the first cylinder faces upwards vertically, the first cylinder and the two-axis translation mechanism are arranged along the radial direction of the turntable platform from outside to inside, the first top plate is fixedly connected with the output end of the first cylinder, the first top plate is arranged on the station of the turntable in a sliding mode along the vertical direction, and the second top plate is fixedly connected with the output end of the two-axis translation mechanism.

Preferably, the two-axis translation mechanism comprises a screw rod sliding table and a second cylinder, wherein the screw rod sliding table is arranged along the radial direction of the rotary table platform in the length direction, the second cylinder is fixedly connected with the output end of the screw rod sliding table, and the second top plate is arranged at the output end of the second cylinder in a horizontal state.

Preferably, go out the material piece and still include the small-size electric push rod that links firmly with the carousel station, the output of small-size electric push rod along the axis of the radial directional carousel platform of carousel platform, and the output of dysmorphism roof and small-size electric push rod links firmly, still links firmly the blanking chute that is located small-size electric push rod below and the workbin that gathers materials on the carousel station.

Compared with the prior art, the invention has the beneficial effects that:

firstly, the drilling and tapping steps of the threaded hole in the threaded steel sleeve are integrated together by matching a four-station type turntable station with a specially designed clamp assembly, the tapping operation is performed immediately after the drilling of the threaded steel sleeve is finished, and the threaded steel sleeve does not need to be additionally transported midway, so that the stable drilling and tapping process is ensured;

secondly, aiming at the lengths of a plurality of required machining threaded steel sleeves, a plurality of clamping pieces are correspondingly arranged in each group of clamp assemblies, the lengths of the machined sleeves are known by matching with an axial ejector rod, a photoelectric switch and the like, then the threaded steel sleeves are accurately fixed through matching of the jacking mechanism, the first jacking piece and the corresponding second jacking piece, and then the threaded steel sleeves with the corresponding lengths are drilled and tapped in a targeted manner.

Drawings

Fig. 1 is a schematic perspective view of the embodiment.

Fig. 2 is an enlarged view of a portion a of fig. 1.

Fig. 3 is an exploded perspective view of the carousel station and carousel platform of an embodiment.

Fig. 4 is an enlarged view of a portion of the structure at B1 in fig. 3.

Fig. 5 is an enlarged view of a portion of the structure at B2 in fig. 3.

Fig. 6 is an enlarged view of a portion of the structure at B3 in fig. 3.

Fig. 7 is an enlarged view of a portion of the structure at B4 in fig. 3.

FIG. 8 is a perspective view of the turntable platform and four clamp assemblies of an embodiment.

Fig. 9 is an enlarged view of a portion of the structure at C1 in fig. 8.

Fig. 10 is an enlarged view of a portion of the structure at C2 in fig. 8.

FIG. 11 is a perspective view of a clamp assembly of an embodiment.

FIG. 12 is a schematic perspective view of the transverse clamp blocks, the longitudinal clamp blocks, and the sleeve of the embodiment.

Fig. 13 is a first perspective view of the axial ram and the second jacking member of the embodiment.

FIG. 14 is a second perspective view of the axial ram and the second jacking member of the embodiment.

Fig. 15 is an exploded perspective view of the transverse and longitudinal blocks of the embodiment.

Fig. 16 is an exploded perspective view of two lateral clamp blocks of the embodiment.

Fig. 17 is an enlarged view of a portion of the structure at D in fig. 16.

FIG. 18 is an exploded perspective view of two angled clamping plates on the transverse clamping block of the embodiment.

Fig. 19 is an enlarged view of a portion of the structure at E1 in fig. 18.

Fig. 20 is an enlarged view of a portion of the structure at E2 in fig. 18.

The reference numbers in the figures are:

1. a turntable station; 2. a turntable platform; 3. a drilling machine; 4. a tapping machine; 5. a sleeve; 6. a clamp assembly; 7. a transverse clamping block; 8. a longitudinal clamping block; 9. a first jacking member; 10. an axial ejector rod; 11. a second jacking member; 12. an outer end stop block; 13. inclining the clamping plate; 14. a jacking mechanism; 15. a first top plate; 16. a second top plate; 17. a profiled roof; 18. a hinge projection; 19. a torsion spring; 20. rotating the rod; 21. a limiting stop lever; 22. an arc-shaped sinking groove; 23. an arc-shaped stop block; 24. a rectangular convex plate; 25. a roller; 26. a stopper; 27. fixing the vertical shaft; 28. a slider; 29. a long vertical plate; 30. a first spring; 31. a limiting mechanism; 32. a fixed mount; 33. a rotating plate; 34. a connecting rod; 35. fixing the block group; 36. a limiting transverse shaft; 37. a second spring; 38. a first inclined surface part; 39. a second inclined surface part; 40. a horizontal clamping block; 41. lifting the vertical shaft; 42. a rectangular transverse plate; 43. a fourth spring; 44. a limiting clamping groove; 45. a third spring; 46. positioning a stop block; 47. avoiding the waist slot hole; 48. a photoelectric switch; 49. avoiding the through hole; 50. a first cylinder; 51. a screw rod sliding table; 52. a second cylinder; 53. a small electric push rod; 54. a blanking chute; 55. a material collecting box.

Detailed Description

For further understanding of the features and technical means of the present invention, as well as the specific objects and functions attained by the present invention, the present invention will be described in further detail with reference to the accompanying drawings and detailed description.

Referring to fig. 1 to 20, an assembly type building sleeve 5 embedded part forming and processing device shown in fig. 1 to 20 comprises a rotary table station 1 which is fixedly arranged in a horizontal state and is of a four-station type, a rotary table platform 2 which is arranged on the rotary table station 1 in a horizontal state and can rotate ninety degrees at a single time, a drilling machine 3 and a tapping machine 4 which are arranged on two adjacent stations of the rotary table station 1, a sleeve 5 is sent into and sent out of the rotary table platform 2 by the other two stations of the rotary table station 1, four sets of clamp assemblies 6 are uniformly arranged on the rotary table platform 2 along the circumferential direction, each set of the clamp assemblies 6 comprises two transverse clamping blocks 7 which are symmetrically arranged and fixedly connected with the rotary table platform 2, two vertical clamping blocks 8 which are symmetrically arranged and mutually exclusive, a first jacking piece 9 which is fixedly connected with a lower longitudinal clamping block 8 and is positioned below the rotary table platform 2, an axial jacking rod 10 which is elastically and outwards jacked along the radial direction of the rotary table platform 2, a second jacking piece 11 which can vertically lift and is used for the upward axial rod 10, and two jacking pieces 11 which are oppositely close to the top plate 8 and are hinged to the top plate 8 and are arranged on the top plate 12 which is used for preventing the sleeve 5 from dropping off, two stop blocks 12 which are arranged on the top plate 14 and are arranged on the top plate 2, two jacking mechanism 13 which are hinged to the top plate 8 and are arranged in the top plate 2, and are arranged in the vertical jacking mechanism 2, and are arranged in the top plate 14 and are arranged in the vertical jacking mechanism 2, and are arranged in the vertical jacking mechanism 12, and are arranged in the vertical direction of the top plate 2, two jacking mechanism 12 which are arranged in the top plate 2, two jacking mechanism 7 and are arranged in the top plate 14 and are arranged in the top plate 2, and are arranged in the vertical jacking mechanism 2, and are arranged in the top plate 14, the sleeve 5 is provided with the ejection of compact piece that links firmly with carousel station 1 on the station of carousel platform 2 that sees off, ejection of compact piece is including can following the radial translation of carousel platform 2 and push up the special-shaped roof 17 of two outer end dogs 12.

The four clamp assemblies 6 are uniformly distributed along the circumferential direction of the turntable platform 2, four stations of the turntable station 1 correspond to four groups of clamp assemblies 6 one by one, namely after the turntable platform 2 rotates ninety degrees, the four groups of clamp assemblies 6 are all right opposite to four stations on the turntable station 1, a feeding device (not shown in the figure) for feeding the sleeve 5 into the turntable platform 2 along the radial direction of the turntable platform 2 is further arranged on the station of the turntable station 1 corresponding to the sleeve 5, the feeding device can adopt various modes such as clamp pushing, manipulator pushing and manual semi-automatic conveying, and can be realized through various mature prior arts, and is not repeated here, the sleeve 5 processed in the processing device is a threaded steel sleeve, any end of the threaded steel sleeve is sequentially drilled and tapped during processing, three threaded sleeves with the same diameter but different length models are provided, the length of each threaded steel sleeve is known, only the sleeve 5 with the shortest length in the three threaded steel sleeves is shown in the invention, and the feeding device can convey a plurality of threaded steel sleeves to the turntable platform 2 from one station of the turntable platform 1, and the threaded steel sleeves with the shortest length to be conveyed to the turntable platform 2 randomly.

The length direction of slope splint 13 and the length direction of horizontal clamp splice 7 all are on a parallel with carousel station 1 radial, and the central plane of symmetry of two horizontal clamp splice 7 is perpendicular mutually with the central plane of two vertical clamp splice 8, and two horizontal clamp splice 7 are all formed with articulated lug 18 to the both sides of holding width direction mutually, all are provided with torsional spring 19 between two articulated lugs 18 on both ends of every slope splint 13 and the horizontal clamp splice 7 of correspondence, and torsional spring 19 is used for keeping two slope splint 13 to be close to each other, still linked firmly both ends and the dwang 20 of two articulated lug 18 looks hub connections in the slope splint 13, the both ends of dwang 20 all link firmly perpendicular to slope splint 13 length direction's spacing shelves pole 21, and the arc sunken groove 22 has all been seted up to the looks dorsal part of two articulated lugs 18 on the horizontal clamp splice 7, and all is provided with gliding arc dog 23 in every arc sunken groove 22, and the shaping has the protruding board 24 of rectangle that is used for blockking spacing shelves pole 21 on the arc dog, every still the hub connection has a plurality of gyro wheel 25 that the radial equidistant range of carousel platform 2 on the slope splint 13.

The arc-shaped sinking groove 22 penetrates through the hinge convex block 18, the arc-shaped sinking groove 22 is of an arc-shaped waist groove structure, the axis of the arc-shaped sinking groove 22 coincides with the axis of the inclined clamping plate 13 rotating on the transverse clamping block 7, the arc-shaped stop block 23 can slide in the arc-shaped sinking groove 22 and can rotate around the axis of the arc-shaped sinking groove 22 when sliding, two connecting holes which are symmetrically arranged are further formed in the arc-shaped stop block 23, a bolt which penetrates through the arc-shaped sinking groove 22 is inserted into the connecting hole, the arc-shaped stop block 23 can be fixed on the hinge convex block 18 by screwing a nut at the tail end of the bolt, so that the arc-shaped stop block 23 can slide to any proper position in the arc-shaped sinking groove 22, the arc-shaped stop block 23 is fixed on the hinge convex block 18, the limit stop rod 21 is matched, the rectangular convex plate 24 on the arc-shaped stop block 23 can block the limit stop rod 21 at the corresponding position, and the rotating rod 20 can not continue to rotate towards the corresponding direction, the four torsion springs 19 on each transverse clamping block 7 can keep corresponding to the two inclined clamping plates 13 close to each other, the position of the arc-shaped stop dog 23 is reasonably adjusted to limit the limit position at which the two inclined clamping plates 13 close to each other, after the two inclined clamping plates 13 close to each other to the limit position, when the sleeve 5 is fed into the turntable platform 2 by the feeding device, the sleeve 5 is just fed onto the turntable platform 2 corresponding to the clamp assemblies 6, and the axial direction of the sleeve 5 is along the radial direction of the turntable platform 2 when the sleeve 5 is fed, so that the sleeve 5 just can abut against a plurality of corresponding rollers 25 on the four inclined clamping plates 13 after being fed, and after the rollers 25 are forced to rotate by the abutting rollers 25, the four inclined clamping plates 13 are simultaneously overcome the elasticity of the torsion springs 19 to outwardly expand the sleeve 5, so that the sleeve 5 can be just pushed between the four inclined clamping plates 13, and is attached to the plurality of rollers 25 to translate towards the axial direction of the turntable platform 2, so four slope splint 13 and a plurality of gyro wheel 25 cooperation axial ejector pin 10 and outer end dog 12 realize preliminary spacing to sleeve 5.

The length direction of vertical clamp splice 8 and the radial parallel of carousel platform 2, carousel platform 2 all is provided with two sets of locating parts 26 to every anchor clamps subassembly 6, two sets of locating parts 26 symmetry set up in the both sides of vertical clamp splice 8 length direction, every group locating part 26 all includes two fixed vertical axis 27 that the interval set up and linked firmly with carousel platform 2 and four two liang set up the slider 28 on two fixed vertical axis 27, slider 28 sets up on fixed vertical axis 27 along fixed vertical axis 27 endwise slip, and two sliders 28 upper and lower symmetry set up on corresponding fixed vertical axis 27, every vertical clamp splice 8 length direction's both sides all link firmly two rectangular risers 29 that are the symmetric state, two sliders 28 in the upper portion all link firmly with corresponding side rectangular riser 29 in the vertical clamp splice 8 in top in every locating part 26 of group, two sliders 28 in the lower portion all link firmly with corresponding side rectangular riser 29 in the vertical clamp splice 8 in the lower portion, still the cover is equipped with first spring 30 on every fixed vertical axis 27, and the upper and lower end of first conflict spring 30 corresponds two sliders 28 respectively, two sliders 28 in every side and carousel platform 29 all are provided with two rectangular risers 29 in the synchronous risers of the lift-up with two riser mechanisms that keep the synchronous riser 31 that the lift-up of rectangular riser 29 and two riser 29, the synchronous riser mechanisms that keep linking firmly.

Under the action of the first spring 30, the two sliding blocks 28 will move away from each other, then the two longitudinal clamping blocks 8 will be driven away from each other by the long-strip vertical plate 29 and the limiting mechanism 31, so as to keep the first jacking piece 9 at a lower position all the time, and after the first top plate 15 rises and jacks up the first jacking piece 9, the first jacking piece 9 will drive the lower longitudinal clamping block 8 to rise, under the action of the limiting mechanism 31, the two longitudinal clamping blocks 8 approach each other synchronously, and finally the sleeve 5 is clamped and fixed between the two longitudinal clamping blocks 8, each set of the limiting mechanism 31 includes a fixed mount 32 fixedly connected with the rotary table platform 2, a rotating plate 33 with a middle portion thereof being in axial connection with the fixed mount 32, and two connecting rods 34 with opposite ends being hinged to both ends of the rotating plate 33 (the fixed mount 32, the rotating plate 33 and the connecting rods 34 are distributed in the positions shown in fig. 12), one end of the two connecting rods 34 which are far away from each other is hinged to the middle portions of the two long-strip vertical clamping blocks 29 on the corresponding sides, each other, and when one of the two long-strip vertical clamping blocks 29 approaches to or far from the other, the rotary table platform, and when the rotary table 3, the two long-strip clamping blocks 29 and the rotary table can both move away from the corresponding rotary table 3, and the rotary table 3, so as to drive the corresponding rotary table 3, and the rotary table 3 to move away from the corresponding longitudinal clamping blocks, and the rotary table 4 synchronously, when the turntable platform 2 rotates and the sleeve 5 is over against the drilling machine 3, the drill bit on the drilling machine 3 rotates and is close to the sleeve 5, the drill bit and the sleeve 5 are in a coaxial state, and then a subsequent round hole for tapping is formed in the sleeve 5 (when the turntable platform 2 rotates, the sleeve 5 moves to a station where the drilling machine 3 is located first and then moves to a station where the tapping machine 4 is located), the tapping machine 4 performs tapping on the sleeve 5 in a subsequent manner, the longitudinal clamping blocks 8 are in a structure shown in fig. 15 and are integrally in a T-shaped structure, opposite ends of the two longitudinal clamping blocks 8 are in V-shaped structures, and the two longitudinal clamping blocks 8 are vertically and synchronously moved after being limited by the limiting parts 26 and the limiting mechanisms 31 and are matched and fixed at the corresponding heights of the drilling machine 3 and the tapping machine 4, so that after the two longitudinal clamping blocks 8 clamp the threaded steel sleeves of the drilling machine oppositely, centering operation on the threaded steel sleeves is automatically completed, and the coaxial state of the subsequent threaded steel sleeves with output ends of the drilling machine 3 and the tapping machine 4 is guaranteed.

Two outer end dog 12 symmetries set up, and the symmetrical central plane of two outer end dog 12 coincides mutually with the symmetrical central plane of two horizontal clamp splice 7, every group anchor clamps subassembly 6 still includes two fixed block group 35 that correspond two outer end dog 12 respectively and link firmly mutually with carousel platform 2, two the back of the body end of outer end dog 12 all has linked firmly two spacing cross shafts 36 that parallel interval set up from top to bottom, and every spacing cross shaft 36 keeps away from the one end that corresponds outer end dog 12 and all slides and set up in corresponding fixed block group 35, and still overlaps on the spacing cross shaft 36 to be equipped with and is used for forcing two outer end dog 12 second springs 37 that are close to each other, and outer end dog 12 and fixed block group 35 are contradicted respectively at the both ends of second spring 37, and the equal shaping of the opposite end of two outer end dog 12 has and is used for the first inclined plane portion 38 with sleeve 5 sliding fit, and the one end shaping that carousel platform 2 axes was kept away from to every outer end dog 12 has the second inclined plane portion 39 that is used for with roof 17 inclined plane complex.

Each end of the horizontal limit shaft 36 far from the outer-end stopper 12 is connected with a nut for preventing the horizontal limit shaft 36 from falling off the fixed block set 35 in a threaded manner, under the action of a second spring 37, the first inclined plane portion 38 and the second inclined plane portion 39 are in the structure shown in fig. 9, after the two outer-end stoppers 12 approach each other, when the sleeve 5 approaches and abuts against the two first inclined plane portions 38, pressure applied to the first inclined plane portion 38 by the sleeve 5 causes the two outer-end stoppers 12 to be subjected to a force of separating away from each other, then after the sleeve 5 moves towards the axis direction of the turntable platform 2, the two outer-end stoppers 12 are gradually pushed open, and finally the sleeve 5 is pushed into a plurality of rollers 25 beyond the two outer-end stoppers 12, after the outer end of the sleeve 5 also passes over the two outer-end stoppers 12, the two outer-end stoppers 12 approach each other under the action of the second spring 37 and play a role of preventing the sleeve 5 from moving outwards in the opposite direction, when the two longitudinal clamping blocks 8 do not clamp the sleeve 5, after the special-shaped top plate 17 moves towards the turntable platform 2, the special-shaped top plate 17 gradually approaches the two special-shaped top plate 17 until the two second inclined plane portions are matched with the outer-end stoppers 12, the outer-end stoppers are completely pushed out of the sleeve 5, and the sleeve 5 drives the outer-end stoppers 10 to push the outer-end stopper 10 along the axial direction of the turntable platform 2, and the axial push-out of the sleeve 5, so that the outer-push-out of the sleeve 5 is pushed out of the sleeve 5, and the outer-out of the outer-push-out of the turntable platform 2, and the sleeve 5 is pushed out of the special-out of the turntable platform 10, and the outer-out.

Axial ejector pin 10's length direction is radial along carousel platform 2, and axial ejector pin 10 still has linked firmly horizontal fixture block 40 near the one end of 2 axes of carousel platform, and axial ejector pin 10 and horizontal fixture block 40 all set up on carousel platform 2 along 2 radial sliding of carousel platform, second jacking piece 11 includes the chucking spare that a plurality of groups set up along the radial interval of carousel platform 2, every group chucking spare all includes that two symmetries set up in the lift vertical axis 41 of axial ejector pin 10 both sides and links firmly and be located the rectangle diaphragm 42 of carousel platform 2 below mutually with two lift vertical axis 41 bottoms, every lift vertical axis 41 all slides along vertical direction and sets up on carousel platform 2, and still overlaps on the lift vertical axis 41 to be equipped with and is used for keeping its vertical fourth spring 43 that descends, and the top of lift vertical axis 41 is round platform column structure, the bottom shaping of horizontal fixture block 40 has two symmetries to set up and adapts to the spacing draw-in groove 44 of lift vertical axis 41 top structure.

Be provided with the guide that is used for keeping axial ejector pin 10 and horizontal fixture block 40 along the radial translation of carousel platform 2 on the carousel platform 2, axial ejector pin 10 keeps away from the one end shaping of carousel platform 2 axis has step portion, and still overlap on the axial ejector pin 10 and be equipped with the third spring 45 that both ends contradict step portion and guide respectively, under the effect of third spring 45, axial ejector pin 10 has the trend of jacking sleeve 5 towards carousel platform 2 outer end all the time, the round platform column structure cooperation limit slot 44 on lift vertical axis 41 top, can guarantee to go up and down in the easier chucking limit slot 44 of lift vertical axis 41 after being jacked, thereby chucking horizontal fixture block 40, make horizontal fixture block 40 no longer can be along the radial translation of carousel platform 2, make follow-up drilling machine 3 and tapping machine 4 when carrying out drilling and tapping operation to sleeve 5, the inner of sleeve 5 can support tightly on axial ejector pin 10, keep sleeve 5 drilling and the stability in the tapping process.

The bottom of horizontal fixture block 40 has still linked firmly location dog 46, has seted up on carousel platform 2 along its radial and just to dodging slotted eye 47 of location dog 46, has linked firmly a plurality of along the radial photoelectric switch 48 that sets up of interval of carousel platform 2 on the carousel station 1, every all offer the dodging through-hole 49 that is used for dodging photoelectric switch 48 light path on the rectangle diaphragm 42.

The processing device is provided with a control system for controlling the work of the drilling machine 3, the tapping machine 4, the turntable platform 2 and the like and a controller (not shown in the figure) electrically connected with the drilling machine 3, the tapping machine 4, the turntable platform 2 and the photoelectric switches 48, wherein the photoelectric switches 48 are reflecting plate type photoelectric switches, a plurality of photoelectric switches 48 are arranged on one side of the feeding device close to the axis of the turntable platform 2, the distance between each photoelectric switch 48 and the axis of the turntable platform 2 is determined according to the length of a processed threaded steel sleeve, for example, the threaded steel sleeve processed by the processing device has three different lengths, the number of the photoelectric switches 48 is three, when the turntable platform 2 stops rotating, and after the sleeve 5 corresponding to a station is completely pushed into the position among the corresponding rollers 25, the control system controls the plurality of the photoelectric switches 48 to be electrified through the controller, a light reflecting plate (not shown in the figure) of the photoelectric switch 48 is fixedly connected to the lower end of the positioning block 46, the light emitters of the photoelectric switches 48 vertically emit light upwards, when the sleeve 5 (i.e. the threaded steel sleeve with the shortest model) is completely pushed into the space between the two transverse clamping blocks 7 (i.e. the sleeve 5 is in a state of tightly abutting against the two outer end blocks 12 outwards under the action of the axial mandril 10), at this time, because the distance between the outer end blocks 12 and the axis of the turntable platform 2 is fixed, and the two ends of the sleeve 5 are respectively in hard contact with the outer end blocks 12 and the axial mandril 10, the distance between the positioning block 46 and the axis of the turntable platform 2 is fixed, and the corresponding photoelectric switch 48 is arranged at the corresponding position according to the distance, so that the light emitted vertically upwards by the photoelectric switch 48 sequentially passes through the corresponding avoiding through hole 49 and the avoiding waist slot hole 47, and then is emitted onto the light reflecting plate at the bottom end of the positioning block 46 and emitted back to be received by the light receiver on the photoelectric switch 48 (a light emitter (a light receiver (a light emitter of the photoelectric switch 48) Thus, when the device is installed, through installation and debugging, after the sleeve 5 is completely pushed between the two transverse clamping blocks 7, the position, required to be fixed, of the corresponding photoelectric switch 48 on the turntable station 1 is determined according to the position of the positioning stop block 46, and similarly, the position, to which the other two photoelectric switches 48 are installed, is determined according to the lengths of the other two sleeves 5), so that after the threaded steel sleeve is completely pushed between the two transverse clamping blocks 7, the length, required to be machined, of the threaded steel sleeve can be determined according to the photoelectric switch 48 receiving the signal, after the light receiver on the photoelectric switch 48 receives the reflected light, the photoelectric switch 48 sends the signal to the controller, the controller sends the signal to the control system again, and the control system carries out drilling and tapping operations on the threaded steel sleeve according to the length, for example, the depth of the threaded steel sleeve required to be machined by the drilling machine 3 is controlled, and the distance between the jacking of the second top plate 16 in each jacking mechanism 14 and the axis of the turntable platform 2 is controlled to be equal (the distance between the photoelectric switch 48, which receives the reflected light and the axis of the turntable platform 2).

Climbing mechanism 14 includes vertical first cylinder 50 and the diaxon translation mechanism of up of output, and first cylinder 50 and diaxon translation mechanism radially by outer and interior setting along carousel platform 2, first roof 15 links firmly with first cylinder 50's output, and first roof 15 slides along vertical direction and sets up on carousel station 1, second roof 16 links firmly with diaxon translation mechanism's output.

Every time the turntable platform 2 rotates ninety degrees, the two corresponding first jacking parts 9 are respectively located right above the two first top plates 15, the first air cylinder 50 and the two-axis translation mechanism are electrically connected with the controller, after the turntable platform 2 rotates to a position, the control system controls the output end of the first air cylinder 50 to move upwards through the controller, and pushes the first top plate 15 to ascend after ascending, so as to drive the lower longitudinal clamping block 8 to move upwards, then under the action of the limiting part 26 and the limiting mechanism 31, the two longitudinal clamping blocks 8 are close to each other and clamp the sleeve 5, meanwhile, the control system controls the two-axis translation mechanism to work through the controller, so that the second top plate 16 ascends after moving to a specified position, and jacks up the corresponding rectangular transverse plate 42, so that the two corresponding lifting vertical shafts 41 ascend and then clamp into the limiting clamping grooves 44, so as to clamp the horizontal clamping blocks 40, so as to achieve the effect of clamping the axial jacking rods 10, and further provide sufficient axial jacking force for drilling and tapping of the sleeve 5.

The two-axis translation mechanism comprises a screw rod sliding table 51 and a second air cylinder 52, wherein the screw rod sliding table 51 is arranged along the radial direction of the turntable platform 2 in the length direction, the second air cylinder 52 is fixedly connected with the output end of the screw rod sliding table 51, and the second top plate 16 is fixedly arranged at the output end of the second air cylinder 52 in a horizontal state.

Lead screw slip table 51 and second cylinder 52 all are connected with the controller electricity, after control system confirms the length of required processing screw steel sleeve according to photoelectric switch 48, control system passes through controller control lead screw slip table 51 and removes second cylinder 52 to corresponding position to ensure that follow-up control system passes through the controller and starts second cylinder 52, make second cylinder 52 drive second roof 16 will correspond second jacking piece 11 jack-up back, the top that corresponds two lift vertical axis 41 can block into in two spacing draw-in grooves 44.

Go out the material piece and still include the small-size electric push rod 53 that links firmly with carousel station 1, the output of small-size electric push rod 53 along the radial directional carousel platform 2's of carousel platform 2 axis, and special-shaped roof 17 links firmly with the output of small-size electric push rod 53, still links firmly blanking chute 54 and the collection box 55 that is located small-size electric push rod 53 below on the carousel station 1.

The small electric push rod 53 is electrically connected with the controller, the special-shaped top plate 17 is of a structure shown in fig. 2, 5 and 9, after the sleeve 5 completes drilling and tapping operations and the turntable platform 2 rotates the sleeve 5 to the position of the blanking chute 54, the control system controls the output end of the small electric push rod 53 to extend out through the controller, so as to drive the special-shaped top plate 17 to move, one end, close to the axis of the turntable platform 2, of the special-shaped top plate 17 abuts against the two second inclined plane parts 39, so as to drive the two outer end stop blocks 12 to be away from each other through inclined plane matching, so that after the two outer end stop blocks 12 completely leave the sleeve 5, under the action of the third spring 45, the axial push rod 10 pushes out the sleeve 5, and the sleeve 5 just can fall into the blanking chute 54 after being pushed out, and finally falls into the material collecting box 55.

The working principle is as follows: after the first sleeve 5 is fed into the turntable platform 2 by the feeding device, the sleeve 5 and the two first inclined plane parts 38 act to push the two outer end stoppers 12 open and slide between the plurality of rollers 25, simultaneously abut against the axial push rod 10, push the axial push rod 10 to the inner side of the turntable platform 2, finally the sleeve 5 crosses the two outer end stoppers 12, the two outer end stoppers 12 approach each other and block the sleeve 5 under the action of the second spring 37, the feeding device does not push the sleeve 5 any more, the control system controls the three photoelectric switches 48 to be electrified through the controller, light rays vertically and upwards emitted by the corresponding photoelectric switches 48 sequentially pass through the corresponding avoiding through holes 49 and the avoiding waist slot holes 47, are emitted to the reflector at the bottom ends of the positioning stoppers 46 and are emitted back to be received by the light receivers on the photoelectric switches 48, and the photoelectric switches 48 send signals to the controller after receiving the light rays, the control system determines the length of the sleeve 5 according to the photoelectric switch 48 of the received light, and controls the turntable platform 2 to rotate ninety degrees through the controller, the first sleeve 5 is sent to the station where the drilling machine 3 is located, the control system controls the first air cylinder 50, the screw rod sliding table 51 and the second air cylinder 52 at the drilling machine 3 to work through the controller according to the length of the first sleeve 5, so that the corresponding first top plate 15 and the corresponding second top plate 16 respectively jack up the corresponding first jacking piece 9 and the corresponding second jacking piece 11, the corresponding two longitudinal clamping blocks 8 clamp the sleeve 5, the tops of the corresponding two lifting vertical shafts 41 are clamped in the limiting clamping groove 44, the axial jacking rod 10 cannot move axially, the control system controls the drilling machine 3 to drill the sleeve 5 through the controller, and after drilling is completed, the control system controls the corresponding first air cylinder 50, the corresponding first air cylinder 50 again through the controller, the screw rod sliding table 51 and the second air cylinder 52 work to enable the corresponding first top plate 15 and the corresponding second top plate 16 to leave the first jacking piece 9 and the second jacking piece 11 and return to the original positions, then the complete fixation of the first sleeve 5 is released, meanwhile, the feeding device feeds the second sleeve 5 into the position between the corresponding two transverse clamping blocks 7, then the control system controls the turntable platform 2 to rotate ninety degrees again to enable the first sleeve 5 to rotate to the station where the tapping machine 4 is located (the second sleeve 5 moves to the station where the drilling machine 3 is located and carries out the same operation as the previous steps, so that the drilling operation is completed, the subsequent sleeve 5 is fed in and repeatedly carries out the previous operations), the control system controls the first air cylinder 50, the screw rod sliding table 51 and the second air cylinder 52 at the tapping machine 4 to work through the controller, the sleeve 5 is fixed in the same way, and controls the tapping machine 4 to complete the tapping operation on the first sleeve 5 through the controller, after the complete fixation of the first sleeve 5 and the second sleeve 5 is released in the same way, the control system controls the rotation of the turntable platform 2 through the controller, and then the first sleeve 5 is sent to the blanking chute 54, the control system controls the output end of the small electric push rod 53 to extend through the controller, so as to drive the special-shaped top plate 17 to move, one end of the special-shaped top plate 17 close to the axis of the turntable platform 2 abuts against the two second inclined plane parts 39, so as to drive the two outer end stoppers 12 to move away from each other through the inclined plane matching, so that after the two outer end stoppers 12 completely leave the sleeves 5, under the action of the third spring 45, the axial push rod 10 pushes out the sleeves 5, and the sleeves 5 can just fall into the blanking chute 54 after being pushed out, and finally fall into the collecting box 55, which is the whole process that the first sleeve 5 completes the tapping operation and the collection, constantly rotatory through carousel platform 2, constantly carry out the tapping operation to a plurality of threaded steel sleeve, and all the other threaded steel sleeve tapping processes are unanimous with this 5 tapping process principles of sleeve, and the no longer repeated here, and during the threaded steel sleeve of processing different length, control system can be according to the length of threaded steel sleeve, the depth in corresponding adjustment drilling machine 3 and the tapping machine 4 machined hole.

The above examples, which are intended to represent only one or more embodiments of the present invention, are described in greater detail and with greater particularity, and are not to be construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (9)

1. The utility model provides an assembly type structure sleeve built-in fitting forming process device, including be the fixed setting of horizontality and be carousel station (1) of four-station formula, be the horizontality and set up carousel platform (2) on carousel station (1) and can rotate ninety degrees once and set up drilling machine (3) and tapping machine (4) on carousel station (1) wherein two adjacent stations, sleeve (5) are sent into and are sent out carousel platform (2) by two other stations of carousel station (1), a serial communication port, evenly be provided with four groups of anchor clamps subassemblies (6) along the circumferencial direction on carousel platform (2), every group anchor clamps subassembly (6) all include two symmetry sets up and transverse clamp splice (7) that link firmly with carousel platform (2), two vertical clamp splice (8) that vertical symmetry set up and mutually exclusive, link firmly and lie in first jacking piece (9) of carousel platform (2) below with vertical clamp splice (8) in the lower side, along axial ejector pin (10) of carousel platform (2) radial elasticity outside, can vertical lift and be used for the second jacking piece (10) of chucking axial ejector pin (11) and two radial direction and be close to the radial lift and two symmetrical ejector pin (12) that two are close to and set up and two articulated and prevent that sleeve (12) are close to two articulated dog (12) are close to and two blocks (12) on and prevent sleeve (12) and two horizontal clamp splice (7) and set up and two symmetrical ejector pin (7) and set up and two articulated each other blocks (12) and prevent that sleeve (12) and set up and two horizontal clamp splice (7) and set up and two blocks (12) and the outer end of the outer end each other Move and insert between four slope splint (13) and push up tight axial ejector pin (10), two vertical clamp splice (8) are located the top and bottom of two horizontal clamp splice (7) respectively, and vertical clamp splice (8) slide along vertical direction and set up in carousel platform (2) top and two vertical clamp splice (8) simultaneous movement, one side that drilling machine (3) and tapping machine (4) are close to carousel platform (2) axis all is provided with climbing mechanism (14) that link firmly with carousel station (1), and climbing mechanism (14) are including first roof (15) and second roof (16) that are used for jacking first jacking piece (9) and second jacking piece (11) respectively, are provided with the ejection of compact piece that links firmly with carousel station (1) on the station that sleeve (5) sent out carousel platform (2), ejection of compact piece is including roof dysmorphism (17) that can follow carousel platform (2) radial translation and push up two outer end dogs (12).

2. The fabricated building sleeve embedded part forming and processing device as claimed in claim 1, it is characterized in that the length direction of the inclined clamping plates (13) and the length direction of the transverse clamping blocks (7) are both parallel to the radial direction of the turntable station (1), the symmetrical center planes of the two transverse clamping blocks (7) are vertical to the center planes of the two longitudinal clamping blocks (8), hinged convex blocks (18) are formed on the two sides of the width direction of the opposite ends of the two transverse clamping blocks (7), a torsion spring (19) is arranged between the two ends of each inclined clamping plate (13) and the two hinged convex blocks (18) on the corresponding transverse clamping block (7), and the torsion spring (19) is used for keeping the two inclined clamping plates (13) close to each other, a rotating rod (20) with two ends connected with the two hinged lugs (18) through shafts is further fixedly connected in the inclined clamping plate (13), two ends of the rotating rod (20) are respectively fixedly connected with a limiting stop lever (21) vertical to the length direction of the inclined clamping plate (13), arc-shaped sinking grooves (22) are respectively arranged on the opposite sides of the two hinged lugs (18) on the transverse clamping block (7), and arc-shaped stop blocks (23) capable of sliding are arranged in each arc-shaped sinking groove (22), rectangular convex plates (24) used for stopping limiting stop rods (21) are formed on the arc-shaped stop blocks (23), and a plurality of rollers (25) which are arranged at equal intervals along the radial direction of the turntable platform (2) are connected to the inclined clamping plates (13) in a shaft mode.

3. The forming and processing device for the embedded part of the assembled building sleeve as claimed in claim 1, wherein the longitudinal clamping blocks (8) are parallel to the radial direction of the turntable platform (2), the turntable platform (2) is provided with two sets of limiting members (26) for each clamp assembly (6), the two sets of limiting members (26) are symmetrically arranged on both sides of the longitudinal clamping blocks (8) in the length direction, each set of limiting members (26) comprises two fixed vertical shafts (27) which are arranged at intervals and fixedly connected with the turntable platform (2) and four sliding blocks (28) which are arranged on the two fixed vertical shafts (27) in pairs, the sliding blocks (28) are axially slidably arranged on the fixed vertical shafts (27) along the fixed vertical shafts (27), the two sliding blocks (28) are vertically symmetrically arranged on the corresponding fixed vertical shafts (27), both sides of the longitudinal clamping blocks (8) in the length direction are fixedly connected with two symmetrical vertical plates (29), two sliding blocks (28) in the upper direction of each set of limiting members (26) abut against corresponding vertical clamping blocks (8) in the upper side, the two sliding blocks (29) in the upper side of each set are fixedly connected with the corresponding vertical clamping blocks (28), and the two vertical clamping blocks (30) in the lower side of each set are respectively connected with the corresponding vertical clamping blocks (28), and the first vertical shaft (30) are sleeved with one vertical clamping blocks (28), a limiting mechanism (31) used for keeping the two long vertical plates (29) to move synchronously is arranged between the two long vertical plates (29) on each side and the turntable platform (2), and the upper end of the first jacking piece (9) is fixedly connected with the two long vertical plates (29) below.

4. The forming and processing device for the assembled type building sleeve embedded part as claimed in claim 1, wherein two outer end stoppers (12) are symmetrically arranged, the symmetric center planes of the two outer end stoppers (12) coincide with the symmetric center planes of the two transverse clamping blocks (7), each group of the clamp assembly (6) further comprises two fixed block groups (35) which respectively correspond to the two outer end stoppers (12) and are fixedly connected with the turntable platform (2), two opposite ends of the outer end stoppers (12) are fixedly connected with two limit transverse shafts (36) which are arranged in parallel at intervals up and down, one end of each limit transverse shaft (36) far away from the corresponding outer end stopper (12) is slidably arranged in the corresponding fixed block group (35), a second spring (37) used for forcing the two outer end stoppers (12) to be close to each other is further sleeved on the limit transverse shaft (36), two ends of the second spring (37) are respectively provided with the inclined block group (12) and the fixed block group (35), opposite ends of the two outer end stoppers (12) are respectively provided with a first inclined plane stopper (38) used for slidably cooperating with the sleeve (5), and one end of each inclined plane (17) far away from the second inclined plane (17) used for forming the special-shaped turntable platform (2).

5. The forming and processing device for the assembled building sleeve embedded part, according to claim 1, is characterized in that the length direction of the axial push rod (10) is along the radial direction of the turntable platform (2), the end of the axial push rod (10) close to the axis of the turntable platform (2) is fixedly connected with a horizontal clamping block (40), the axial push rod (10) and the horizontal clamping block (40) are both arranged on the turntable platform (2) in a radial sliding manner along the turntable platform (2), the second jacking part (11) comprises a plurality of groups of clamping parts arranged along the radial direction of the turntable platform (2) at intervals, each group of clamping parts comprises two lifting vertical shafts (41) symmetrically arranged on two sides of the axial push rod (10) and rectangular transverse plates (42) fixedly connected with the bottom ends of the two lifting vertical shafts (41) and positioned below the turntable platform (2), each lifting vertical shaft (41) is arranged on the turntable platform (2) in a sliding manner along the vertical direction, and a fourth spring (43) for keeping the vertical descending of the lifting vertical shaft (41) is further sleeved on the lifting vertical shaft (41), the top of the lifting vertical shaft (41) is in a structure, and the top end of the horizontal clamping block (40) is symmetrically arranged on the top end of the lifting shaft (44) and is adapted to the two lifting vertical shaft structure.

6. The forming and processing device for the assembled building sleeve embedded part as claimed in claim 5, wherein the bottom of the horizontal fixture block (40) is further fixedly connected with a positioning stop block (46), the turntable platform (2) is provided with an avoiding slotted hole (47) which is radially aligned with the positioning stop block (46), the turntable station (1) is fixedly connected with a plurality of photoelectric switches (48) which are radially arranged along the turntable platform (2) at intervals, and each rectangular transverse plate (42) is provided with an avoiding through hole (49) which is used for avoiding a light path of the photoelectric switch (48).

7. The assembly type building sleeve embedded part forming and processing device is characterized in that the jacking mechanism (14) comprises a first air cylinder (50) with an output end facing upwards vertically and a two-axis translation mechanism, the first air cylinder (50) and the two-axis translation mechanism are arranged from outside to inside along the radial direction of the turntable platform (2), the first top plate (15) is fixedly connected with the output end of the first air cylinder (50), the first top plate (15) is arranged on the turntable station (1) in a sliding mode in the vertical direction, and the second top plate (16) is fixedly connected with the output end of the two-axis translation mechanism.

8. The forming and processing device for the assembled building sleeve embedded part as claimed in claim 7, wherein the two-axis translation mechanism comprises a screw rod sliding table (51) and a second air cylinder (52), the screw rod sliding table (51) is arranged along the radial direction of the turntable platform (2) in the length direction, the second air cylinder (52) is fixedly connected with the output end of the screw rod sliding table (51), and the second top plate (16) is fixedly arranged on the output end of the second air cylinder (52) in a horizontal state.

9. The forming and processing device for the assembled building sleeve embedded part as claimed in claim 1, wherein the discharging part further comprises a small electric push rod (53) fixedly connected with the turntable station (1), an output end of the small electric push rod (53) is radially directed to an axis of the turntable platform (2) along the turntable platform (2), the special-shaped top plate (17) is fixedly connected with an output end of the small electric push rod (53), and a blanking chute (54) and a blanking box (55) below the small electric push rod (53) are further fixedly connected to the turntable station (1).

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