CN213859814U - High-frequency bubble finishing machine - Google Patents

Abstract

The utility model belongs to the technical field of the concrete processing equipment, a high frequency bubble collator is related to. Including first suspension and second suspension, be equipped with the lift rope group of two vertical symmetries between first suspension and the second suspension, lift rope group links to each other with the crane, be equipped with a plurality of vibrting spears on the crane, lift rope group is including setting up the first fixed pulley on first suspension, be equipped with the second fixed pulley on the second suspension, the one end that the second fixed pulley was kept away from to first suspension is equipped with the movable rod, be equipped with the pull ring on the movable rod, be equipped with the straight line driver that the output shaft is on a parallel with the bottom surface between movable rod and the first suspension, the rope one end of lift rope group sets up on crane one end, the other end passes first fixed pulley in proper order, pull ring and second fixed pulley are fixed on the crane other end. Compared with the prior art, the high-frequency bubble finishing machine has the advantages that: 1. reasonable in design, reasonable in design improves arrangement efficiency.

Description

High-frequency bubble finishing machine

Technical Field

The utility model belongs to the technical field of the concrete processing equipment, a high frequency bubble collator is related to.

Background

When concrete is mixed with concrete mixer to mix concrete pouring elements, air bubbles must be removed. The vibrating rod is used for tamping, so that the concrete can be combined compactly, the phenomena of honeycomb pitted surface and the like of the concrete are eliminated, the strength of the concrete is improved, and the quality of the concrete member is ensured. The existing vibrating rods are limited in number, effective bubble arrangement cannot be carried out, and efficiency is low.

For example, chinese patent document discloses a mobile aerated concrete slurry bubble finishing device [ application No.: 201320278594.3], the frame is fixedly installed on the ferry vehicle, the speed reducer is installed on the top drive transmission shaft of the frame to form a rotating structure, the upper chain wheel is installed at two ends of the transmission shaft to serve as a driving chain wheel, the lower chain wheel is installed on the frame, two ends of the chain are respectively connected to the upper end and the lower end of the fixing frame to form a closed ring, the chain is connected to the upper chain wheel and the lower chain wheel to form a chain transmission structure, the guide mechanism is installed on the fixing frame, the vibrating rod is fixed on the fixing frame, and the vibrating rod is arranged above the die frame and connected with the chain through the fixing frame.

Although the problems in the prior art are solved to a certain extent by the scheme, the problem of low efficiency still exists.

Disclosure of Invention

The utility model aims at the above-mentioned problem, provide a reasonable in design, improve arrangement efficiency's high frequency bubble collator.

In order to achieve the above purpose, the utility model adopts the following technical proposal: the high-frequency bubble collator is characterized by comprising a first suspension and a second suspension, wherein two lifting rope groups which are longitudinally symmetrical are arranged between the first suspension and the second suspension, the lifting rope groups are connected with a lifting frame, a plurality of vibrating rods are arranged on the lifting frame, each lifting rope group comprises a first fixed pulley arranged on the first suspension, a second fixed pulley is arranged on the second suspension, a movable rod is arranged at one end, away from the second fixed pulley, of the first suspension, a pull ring is arranged on the movable rod, a linear driver with an output shaft parallel to the bottom surface is arranged between the movable rod and the first suspension, one end of a rope of each lifting rope group is arranged at one end of the lifting frame, and the other end of the rope sequentially penetrates through the first fixed pulley, the pull ring and the second fixed pulley and is fixed at the other end of the lifting frame; the first fixed pulley is sleeved on the square tube of the first suspension through a first fixed pulley seat in a shape of a square, and is fixed through a bolt; the second fixed pulley seat with the second fixed pulley in a shape of a Chinese character 'hui' is sleeved on the square tube of the second suspension and is fixed through a bolt; and two ends of the rope are respectively connected with the lifting frame through the hanging rings.

In foretell high frequency bubble collator, the setting of sharp driver in the driver installation pipe, driver installation intraductal end fix on first suspension, driver installation pipe outer end and first suspension between be equipped with the stiffener that is L shape, sharp driver inner fix on driver installation intraductal end, driver installation outside of tubes end on the cover be equipped with the dustproof pipe, dustproof pipe one end link to each other with the movable rod, the other end wears to establish in the driver installation intraductal rather than swing joint, sharp driver output shaft fix on the dustproof pipe.

In the high-frequency bubble collator, the first fixed pulley and the pull ring are horizontally arranged in a staggered manner, and the pull ring and the second fixed pulley are positioned on the same straight line.

In foretell high frequency bubble collator, the vibrting spear including the barred body that is the barrel form, the barred body in be equipped with vibration subassembly, its characterized in that, barred body upper end be equipped with damping coupling assembling, damping coupling assembling include the connector that two symmetries set up, the connector of lower extreme is fixed in the barred body upper end, two connectors pass through the elasticity damping cover and link to each other.

In foretell high frequency bubble collator, the connector setting of vibrting spear upper end in the vibrting spear mount pad, the vibrting spear mount pad inlay and establish in the crane, the vibrting spear mount pad include half seat that the bisymmetry set up, half seat inboard be equipped with the semicircle orifice, two semicircle orifices piece together and become the connector mounting hole that is used for the erection joint head, half seat wherein fixes on the crane, and second half seat is fixed rather than through two bolts, connector peripheral portion on be equipped with the draw-in groove that the bisymmetry set up, the semicircle orifice in be equipped with draw-in groove assorted fixture block.

In foretell high frequency bubble collator, the crane be back the shape and form by the body is around forming, the vibrting spear upper end be located the body, be equipped with five vibrating spears along evenly distributed on length direction respectively in crane both sides, crane one side be equipped with the wire hole.

In the high-frequency bubble collator, two ends of the elastic damping sleeve are respectively connected with the two connectors through buckling and pressing structures.

In the above high-frequency bubble collator, the elastic damping sleeve comprises an inner rubber layer and an outer rubber layer, a plurality of vertically arranged springs which are uniformly distributed along the circumferential direction are arranged between the inner rubber layer and the outer rubber layer, the upper ends of the springs are all arranged on the upper annular fixed sheet, the lower ends of the springs are all arranged on the lower annular fixed sheet, the inner wall and the outer wall of the upper annular fixed sheet and the lower annular fixed sheet are respectively provided with a plurality of barbs, the upper annular fixed sheet and the lower annular fixed sheet are also provided with a plurality of glue passing holes in a radial penetrating way, the upper annular fixed sheet is connected with the inner rubber layer and the outer rubber layer through the upper rubber layer, the lower annular fixed sheet is connected with the inner rubber layer and the outer rubber layer through the lower rubber layer, a cavity is formed among the upper rubber layer, the lower rubber layer, the inner rubber layer and the outer rubber layer, and the plurality of springs are arranged in the cavity.

In the high-frequency bubble collator, the outer rubber layer and the inner rubber layer are compounded with the elastic fiber layer.

In the high-frequency bubble collator, the cavity is filled with white grease.

Compared with the prior art, the high-frequency bubble finishing machine has the advantages that: 1. reasonable in design, reasonable in design improves arrangement efficiency. 2. The dismouting is convenient, maintains simply. 3. The protection is reliable, has prolonged life.

Drawings

Fig. 1 is a schematic structural diagram provided by the present invention.

Fig. 2 is a schematic view of a top-view partial structure provided by the present invention.

Fig. 3 is a schematic view of an installation structure of the linear actuator provided by the present invention.

Figure 4 is the sectional structure schematic diagram of the crane that the utility model provides.

Fig. 5 is a schematic view of a cross-sectional structure of another view angle of the crane provided by the present invention.

Fig. 6 is a schematic structural diagram of the vibrating rod provided by the present invention.

Fig. 7 is an enlarged schematic view of a portion a of fig. 6.

Fig. 8 is a schematic structural view of the elastic damping sleeve provided by the present invention.

Fig. 9 is an enlarged schematic view of a portion B in fig. 8.

Fig. 10 is an enlarged schematic view of the portion C in fig. 6.

Fig. 11 is a schematic top sectional view of a motor casing according to the present invention.

Fig. 12 is a schematic diagram of a middle sectional structure of a motor casing provided by the present invention.

Fig. 13 is a schematic view of a cross-sectional structure of a lower portion of a motor casing provided by the present invention.

In the figure, a first suspension 100, a second suspension 200, a lifting rope set 300, a rope 301, a lifting frame 400, a vibrating rod 500, a movable rod 600, a linear actuator 700, an actuator mounting tube 701, a reinforcing rod 702, a dust-proof tube 703, a pull ring 601, a first fixed pulley 310, a second fixed pulley 320, a half seat 511, a semi-circular hole 512, a connector mounting hole 513, a fixture block 514, a wire outlet hole 401, a first fixed pulley seat 311, a second fixed pulley seat 321, a rod body 1, a vibrating component 2, a vibration damping connection component 3, a connector 4, an elastic vibration damping sleeve 5, a buckling and pressing type structure 6, an inner connector 61, an anti-falling structure 63, a clamping sleeve 62, an outer clamp ring 631, an inner clamp ring 632, a sealing structure 22, a sealing head 221, a sealing head wire hole 222, a connector hole 223, a sealing ring mounting groove 224, a sealing ring 224a, a concave positioning nut 225, a first-stage convex ring 226, an annular step 227, a first-stage annular groove 228, a withdrawing hole 223a, a, The device comprises a clamping groove 41, a mounting hole 42, a clamping strip 43, an inner rubber layer 51, an outer rubber layer 52, a spring 53, an upper annular fixing piece 54, a lower annular fixing piece 55, a barb 56, a glue passing hole 57, a lower rubber layer 59, an upper rubber layer 58, a cavity 53a, an elastic fiber layer 5a, white grease 53b, an elastic rubber layer 53c, a rotating shaft 23, an eccentric block 24, a lower shaft seat 231, an upper shaft seat 232, a motor 25, a circulating heat dissipation structure 26, a liquid inlet 261, a liquid outlet 262, a liquid inlet pipe 263, a liquid outlet pipe 264, an arc-shaped liquid inlet channel 26a, an arc-shaped liquid outlet channel 26b, an arc-shaped liquid inlet cavity 26c, an arc-shaped liquid outlet cavity 26d, a liquid passing cavity 26e, a separation supporting plate 26f, a motor shell 251, a limit convex strip 251a, a limit convex strip.

Detailed Description

As shown in fig. 1 to 13, the high frequency bubble collator comprises a first suspension 100 and a second suspension 200, the first suspension 100 and the second suspension 200 are respectively fixed on a beam or a portal frame through a plurality of bolts, two longitudinally symmetrical lifting rope sets 300 are arranged between the first suspension 100 and the second suspension 200, the lifting rope sets 300 are connected with a lifting frame 400, a plurality of vibrating rods 500 are arranged on the lifting frame 400, the lifting rope sets 300 comprise a first fixed pulley 310 arranged on the first suspension 100, a second fixed pulley 320 is arranged on the second suspension 200, a movable rod 600 is arranged at one end of the first suspension 100 far from the second fixed pulley 320, a pull ring 601 is arranged on the movable rod 600, a linear driver 700 with an output shaft parallel to the bottom surface is arranged between the movable rod 600 and the first suspension 100, the linear driver 700 comprises any one of an air cylinder, a hydraulic cylinder and an electric cylinder, one end of a rope 301 of the lifting rope sets 300 is arranged at one end of the lifting frame 400, the other end of the lifting frame 400 is fixed on the other end of the lifting frame through the first fixed pulley 310, the pull ring 601 and the second fixed pulley 320 in sequence.

More specifically, the linear actuator 700 is arranged in the actuator mounting pipe 701, the inner end of the actuator mounting pipe 701 is fixed on the first suspension 100, an L-shaped reinforcing rod 702 is arranged between the outer end of the actuator mounting pipe 701 and the first suspension 100, the inner end of the linear actuator 700 is fixed at the inner end of the actuator mounting pipe 701, a dustproof pipe 703 is sleeved on the outer end of the actuator mounting pipe 701, one end of the dustproof pipe 703 is connected with the movable rod 600, the other end of the dustproof pipe 703 is arranged in the actuator mounting pipe 701 in a penetrating manner and is movably connected with the actuator mounting pipe 701, and an output shaft of the linear actuator 700 is fixed on the dustproof pipe 703.

The first fixed pulley 310 and the pull ring 601 are horizontally arranged in a staggered manner, and the pull ring 601 and the second fixed pulley 320 are positioned on the same straight line.

Connector 4 of vibrting spear 500 upper end sets up in vibrting spear mount pad 510, vibrting spear mount pad 510 inlays and establishes in crane 400, vibrting spear mount pad 510 includes half seat 511 that the bisymmetry set up, half seat 511 inboard is equipped with semicircle orifice 512, two semicircle orifices 512 piece together and become the connector mounting hole 513 that is used for installing connector 4, wherein half seat 511 fixes on crane 400, half seat 511 is rather than fixed through two bolts, be equipped with draw-in groove 41 that the bisymmetry set up on the peripheral portion of connector 4, be equipped with in the semicircle orifice 512 with draw-in groove 41 assorted fixture block 514.

The lifting frame 400 is in a shape of a Chinese character 'hui' and is formed by surrounding a pipe body, the upper end of the vibrating rod 500 is positioned in the pipe body, two sides of the lifting frame 400 are respectively provided with five vibrating rods 500 which are uniformly distributed along the length direction, and one side of the lifting frame 400 is provided with a wire outlet hole 401; the first fixed pulley 310 is sleeved on the square tube of the first suspension 100 through a first fixed pulley seat 311 in a shape of a square, and is fixed through a bolt; a second fixed pulley seat 321 of the second fixed pulley 320 in a shape of a square is sleeved on the square tube of the second suspension 200 and fixed by a bolt; the two ends of the rope 301 are respectively connected with the lifting frame 400 through the hanging rings 302.

The vibrating rod 710 comprises a rod body 1 in a cylindrical shape, and a vibrating assembly 2 is arranged in the rod body 1, and is characterized in that a vibration damping connecting assembly 3 is arranged at the upper end of the rod body 1, the vibration damping connecting assembly 3 comprises two symmetrically arranged connectors 4, the connector 4 at the lower end is fixed at the upper end of the rod body 1, and the two connectors 4 are connected through an elastic vibration damping sleeve 5.

More specifically, two ends of the elastic damping sleeve 5 are respectively connected with the two connectors 4 through the buckling and pressing structure 6; the buckling and pressing type structure 6 comprises an inner joint 61 arranged at one end of the connecting head 4, a clamping sleeve 62 is sleeved outside the inner joint 61, the end part of the elastic damping sleeve 5 is arranged between the inner joint 61 and the clamping sleeve 62, and an anti-falling structure 63 is arranged between the clamping sleeve 62 and the inner joint 61; anti-disengaging structure 63 is including setting up two at least outer snap rings 631 that are right angle trapezoidal form along axial distribution and cross-section on the outer peripheral portion of inner joint 61, and chucking cover 62 inner wall is equipped with two at least interior snap rings 632 that are right angle trapezoidal form along axial distribution and cross-section, and outer snap ring 631 and interior snap ring 632 dislocation set, and the inclined plane of outer snap ring 631 is located inner joint 61 outer end, and the perpendicular of outer snap ring 631 is located inner, and the straight face of interior snap ring 632 is located the outer end, and the inclined plane of interior snap ring 632 is located inner.

In order to improve the sealing performance and ensure that the vibration assembly 2 can normally operate, the driving wire 21 of the vibration assembly 2 penetrates through the two connectors 4 and the elastic vibration damping sleeve 5, and a sealing structure 22 is arranged between the connectors 4 and the driving wire 21; the sealing structure 22 comprises a sealing head 221, the sealing head 221 is arranged at one end far away from the elastic vibration damping sleeve 5, a sealing head wire hole 222 is arranged on the sealing head 221 in a penetrating mode, an outer screw head at the lower end of the sealing head 221 is in threaded connection with a threaded hole of the connector 4, the inner end of the threaded hole is communicated with the connector wire hole 223 of the connector 4, a sealing ring installation groove 224 is formed in the outer end of the sealing head wire hole 222, the diameter of the sealing ring installation groove 224 is gradually reduced from the outer end to the inner end, a sealing ring 224a is arranged in the sealing ring installation groove 224, and a concave positioning nut 225 screwed on the sealing head 221 is arranged on the outer end of the sealing ring installation groove 224. Namely: the wall thickness of the seal ring 224a is the same before installation, and the lower end thickness is less than the upper end thickness after installation, thereby effectively improving the sealing performance.

In order to further improve the sealing effect, a first-stage convex ring 226 is arranged at the lower end of the concave positioning nut 225, a first-stage annular groove 228 matched with the first-stage convex ring 226 is arranged on an annular step 227 of the sealing head 221, the sealing head 221 and the concave positioning nut 225 are made of plastics, and a plurality of annular anti-slip and anti-leakage grains are uniformly distributed in the axial direction on the lower end of the inner wall of the sealing ring 224 a; a sealing ring is arranged between the external screw head and the annular step 227 of the sealing head 221 and the connecting head 4.

Because elastic damping cover 5 can take place deformation when the shock attenuation is worked, in order to prevent that drive wire 21 from damaging, adopted following design, connector line hole 223 lower extreme is equipped with and moves back a hole 223a, and the diameter that moves back a hole 223a is greater than the diameter of connector line hole 223, moves back a hole 223a outer end and still is equipped with annular arc collision prevention angle 223b, and the length of drive wire 21 between two connectors 4 is greater than the interval between two connectors 4.

In this embodiment: the drive line 21 between the two connecting heads 4 is curved.

In order to facilitate assembly and improve the assembly reliability, two symmetrically arranged clamping grooves 41 are arranged on the peripheral part of the connector 4, and the lower end of the connector 4 is embedded in an installation opening 42 at the upper end of the rod body 1 and is fixed through a welding structure. The clamping grooves 41 of the lower end connector 4 are respectively provided with clamping strips 43, two ends of each clamping strip 43 penetrate through the side wall of the rod body 1, and the end parts of the clamping strips 43 are connected with the rod body 1 in a sealing mode through welding structures.

Vibration subassembly 2 includes pivot 23 and sets up the eccentric block 24 in pivot 23, the setting of pivot 23 lower extreme is on axle bed 231 down, pivot 23 upper end is worn to establish axle bed 232 and is linked to each other with motor 25, be equipped with circulation heat radiation structure 26 on motor shell 251 of motor 25, be connected with feed liquor pipe 263 and drain pipe 264 on circulation heat radiation structure 26's the inlet 261 and the liquid outlet 262 respectively, feed liquor pipe 263 and drain pipe 264 are worn to establish in the spool cover of drive wire 21, still be equipped with cable and filling structure in the spool cover, the cable links to each other with motor 25. The motor temperature can be effectively reduced through the circulating heat dissipation structure 26, so that the equipment can be ensured to operate for a long time, and the production efficiency is improved.

The circulating heat dissipation structure 26 comprises an arc-shaped liquid inlet channel 26a and an arc-shaped liquid outlet channel 26b which are axially arranged on the motor shell 251, the upper end of the motor shell 251 is provided with an arc-shaped liquid inlet cavity 26c and an arc-shaped liquid outlet cavity 26d, a liquid inlet 261 and a liquid outlet 262 are respectively communicated with the arc-shaped liquid inlet cavity 26c and the arc-shaped liquid outlet cavity 26d, the lower end of the motor shell 251 is provided with an annular liquid passing cavity 26e, the arc-shaped liquid inlet channel 26a and the arc-shaped liquid outlet channel 26b are communicated through the liquid passing cavity 26e, and two guide plates 26g are further arranged in the liquid passing cavity 26 e; the motor comprises an inner stator, a rotor and a carbon brush which are arranged in a motor shell 251, the upper end of the motor shell 251 is provided with a wiring terminal,

in order to improve the structural firmness, a plurality of axially extending partition support plates 26f which are uniformly distributed along the arc direction are arranged in the arc liquid inlet channel 26a and the arc liquid outlet channel 26 b.

In order to ensure the reliability of assembly and the reliable operation of equipment, three limit convex strips 251a are uniformly distributed on the outer wall of the motor shell 251 along the circumferential direction, the limit convex strips 251a are arranged in limit convex strip grooves 251b, the outer ends of the limit convex strip grooves 251b are flush with the outer end surface of the rod body 1, and an annular top sleeve 251c is arranged between the upper end and the lower end of the motor shell 251; the upper end of the annular top sleeve 251c abuts against the bottom of the connector 4 at the lower end, and the lower end of the annular top sleeve 251c abuts against the upper end of the motor casing 251.

When the circulating heat dissipation structure 26 works, the cooling liquid is conveyed to the liquid inlet 261 through the external heat dissipation mechanism, and returns to the external heat dissipation mechanism through the liquid outlet 262 after sequentially passing through the arc-shaped liquid inlet cavity 26c, the arc-shaped liquid inlet channel 26a, the liquid passing cavity 26e, the arc-shaped liquid outlet channel 26b and the arc-shaped liquid outlet cavity 26d, and the external heat dissipation mechanism comprises heat dissipation fins and a fan.

One scheme of the elastic damping sleeve 5 is that the elastic damping sleeve comprises an inner rubber layer and an outer rubber layer, the inner rubber layer is connected with the outer rubber layer in a compounding way, and springs which are distributed in a spiral shape are arranged between the inner rubber layer and the outer rubber layer; the outer rubber layer and the inner rubber layer are compounded with elastic fiber layers.

In another version of the elastic damping sleeve 5, the elastic damping sleeve 5 comprises an inner rubber layer 51 and an outer rubber layer 52, a plurality of vertically arranged springs 53 which are uniformly distributed along the circumferential direction are arranged between the inner rubber layer 51 and the outer rubber layer 52, the upper ends of the springs 53 are respectively arranged on an upper annular fixing sheet 54, the lower ends of the springs are respectively arranged on a lower annular fixing sheet 55, the inner walls and the outer walls of the upper annular fixing sheet 54 and the lower annular fixing sheet 55 are respectively and fixedly provided with a plurality of barbs 56, a plurality of glue passing holes 57 radially penetrate through the upper annular fixing sheet 54 and the lower annular fixing sheet 55, the upper annular fixing sheet 54 is connected with the inner rubber layer 51 and the outer rubber layer 52 through an upper rubber layer 58, the lower annular fixing sheet 55 is connected with the inner rubber layer 51 and the outer rubber layer 52 through a lower rubber layer 59, a cavity 53a is formed among the upper rubber layer 58, the lower rubber layer 59, the inner rubber layer 51 and the outer rubber layer 52, and a plurality of springs 53 are arranged in the cavity 53 a; the upper ends of the springs 53 are hung in the spring holes at the lower ends of the upper annular fixing plates 54 and are arranged in a one-to-one correspondence manner, and the lower ends of the springs are hung in the spring holes at the upper ends of the lower annular fixing plates 55 and are arranged in a one-to-one correspondence manner; the upper rubber layer 58 and the lower rubber layer are respectively connected with the inner rubber layer 51 and the outer rubber layer 52 into an integral structure, and the modes of hot melting or integral pouring and the like can be adopted.

Preferably, the cavity 53a is filled with white grease 53b to prevent dry grinding of the spring 53 with the rubber.

The white lubricating grease contains nano-scale polytetrafluoroethylene lubricating particles, has smooth surface, has excellent lubricating, heat removing, antirust, sealing and other performances, and is particularly suitable for precision instruments, mechanical parts under high-temperature conditions, heavy high-load equipment and the like. Because the metal-based thickener is not contained, the base oil cannot be aged, the application range of the lubricating grease is wider, the lubricating grease can be safely used for plastic, rubber and metal contact parts, and the lubricating grease is really multifunctional synthetic lubricating grease.

In order to improve the structural firmness and prolong the service life of the elastic damping sleeve, the elastic fiber layers 5a are compounded in the outer rubber layer 52 and the inner rubber layer 51.

In use, the crane 400 can be vertically raised and, conversely, lowered by driving the movable bar 600 away from the first hanger bracket 100 by the linear actuator 700.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although the first hanger 100, the second hanger 200, the lifting rope set 300, the rope 301, the lifting frame 400, the vibration rod 500, the movable rod 600, the linear actuator 700, the actuator mounting tube 701, the reinforcing rod 702, the dust tube 703, the pull ring 601, the first fixed pulley 310, the second fixed pulley 320, the half seat 511, the half hole 512, the connector mounting hole 513, the latch 514, the wire outlet 401, the first fixed pulley seat 311, the second fixed pulley seat 321, the rod body 1, the vibration assembly 2, the vibration damping connection assembly 3, the connector 4, the elastic damping sleeve 5, the crimping structure 6, the inner connector 61, the anti-dropping structure 63, the clamping sleeve 62, the outer snap ring 631, the inner snap ring 632, the sealing structure 22, the sealing head 221, the sealing head wire hole 222, the connector hole 223, the sealing ring mounting groove 224, the sealing ring 227 a, the concave positioning nut 225, the primary convex ring 226, the annular step, the primary annular groove 228, the secondary vibration damping structure 2, the vibration rod, the vibration damping device, the vibration device, and the vibration device, The terms such as the receding hole 223a, the groove 41, the mounting hole 42, the clip strip 43, the inner rubber layer 51, the outer rubber layer 52, the spring 53, the upper annular fixing piece 54, the lower annular fixing piece 55, the barb 56, the glue passing hole 57, the lower rubber layer 59, the upper rubber layer 58, the cavity 53a, the elastic fiber layer 5a, the white grease 53b, the elastic rubber layer 53c, the rotating shaft 23, the eccentric block 24, the lower shaft seat 231, the upper shaft seat 232, the motor 25, the circulating heat dissipation structure 26, the liquid inlet 261, the liquid outlet 262, the liquid inlet pipe 263, the liquid outlet pipe 264, the arc-shaped liquid inlet channel 26a, the arc-shaped liquid outlet channel 26b, the arc-shaped liquid inlet cavity 26c, the arc-shaped liquid outlet cavity 26d, the liquid passing cavity 26e, the separation support plate 26f, the motor housing 251, the limit protrusion 251a, the limit protrusion groove 251b, the annular top sleeve 251c, and the flow guide plate 26g do not exclude the possibility of using other terms. These terms are used merely to more conveniently describe and explain the nature of the present invention and should not be interpreted as imposing any additional limitations that are contrary to the spirit of the present invention.

Claims (10)

1. The high-frequency bubble collator is characterized by comprising a first suspension (100) and a second suspension (200), wherein two longitudinally symmetrical lifting rope groups (300) are arranged between the first suspension (100) and the second suspension (200), the lifting rope groups (300) are connected with a lifting frame (400), a plurality of vibrating rods (500) are arranged on the lifting frame (400), each lifting rope group (300) comprises a first fixed pulley (310) arranged on the first suspension (100), a second fixed pulley (320) is arranged on the second suspension (200), a movable rod (600) is arranged at one end, far away from the second fixed pulley (320), of the first suspension (100), a pull ring (601) is arranged on the movable rod (600), and a linear driver (700) with an output shaft parallel to the bottom surface is arranged between the movable rod (600) and the first suspension (100), one end of a rope (301) of the lifting rope group (300) is arranged at one end of the lifting frame (400), and the other end of the rope (301) sequentially passes through the first fixed pulley (310), the pull ring (601) and the second fixed pulley (320) and is fixed at the other end of the lifting frame (400); the first fixed pulley (310) is sleeved on a square tube of the first suspension (100) through a first fixed pulley seat (311) in a shape of a square, and is fixed through a bolt; a second fixed pulley seat (321) of the second fixed pulley (320), which is in a shape of a square, is sleeved on the square pipe of the second suspension (200) and is fixed through a bolt; two ends of the rope (301) are respectively connected with the lifting frame (400) through the hanging ring (302).

2. The high-frequency bubble collator according to claim 1, wherein the linear actuator (700) is arranged in an actuator mounting tube (701), the inner end of the actuator mounting tube (701) is fixed on the first suspension (100), an L-shaped reinforcing rod (702) is arranged between the outer end of the actuator mounting tube (701) and the first suspension (100), the inner end of the linear actuator (700) is fixed on the inner end of the actuator mounting tube (701), a dust-proof tube (703) is sleeved on the outer end of the actuator mounting tube (701), one end of the dust-proof tube (703) is connected with the movable rod (600), the other end of the dust-proof tube is arranged in the actuator mounting tube (701) in a penetrating manner and is movably connected with the actuator mounting tube, and the output shaft of the linear actuator (700) is fixed on the dust-proof tube (703).

3. The high-frequency bubble collator according to claim 1, wherein the first fixed pulley (310) and the pull ring (601) are horizontally arranged in a staggered manner, and the pull ring (601) and the second fixed pulley (320) are positioned on the same straight line.

4. The high-frequency bubble collator according to claim 1, characterized in that, the vibrting spear (500) including being barred body (1) of barrel form, barred body (1) in be equipped with vibration subassembly (2), barred body (1) upper end be equipped with damping coupling assembling (3), damping coupling assembling (3) including two symmetrical connector (4) that set up, connector (4) of lower extreme are fixed in barred body (1) upper end, two connector (4) link to each other through elastic damping cover (5).

5. The high-frequency bubble collator of claim 4, characterized in that, connector (4) of vibrting spear (500) upper end set up in vibrting spear mount pad (510), vibrting spear mount pad (510) inlay and establish in crane (400), vibrting spear mount pad (510) including half seat (511) that the bisymmetry set up, half seat (511) inboard is equipped with semicircle orifice (512), two semicircle orifices (512) piece together and become connector mounting hole (513) that are used for installing connector (4), wherein half seat (511) are fixed on crane (400), half seat (511) are rather than fixed through two bolts, be equipped with draw-in groove (41) that the bisymmetry set up on connector (4) periphery, semicircle orifice (512) in be equipped with draw-in groove (41) assorted fixture block (514).

6. The high-frequency bubble collator according to claim 5, characterized in that the crane (400) is in a shape of a Chinese character hui and is formed by surrounding a pipe body, the upper end of the vibrating rod (500) is positioned in the pipe body, two sides of the crane (400) are respectively provided with five vibrating rods (500) which are uniformly distributed along the length direction, and one side of the crane (400) is provided with a wire outlet 401.

7. A high-frequency bubble collator according to claim 4, characterized in that, the two ends of the elastic damping sleeve (5) are respectively connected with the two connectors (4) through buckling structures (6).

8. The high-frequency bubble collator according to claim 4, wherein the elastic damping sleeve (5) comprises an inner rubber layer (51) and an outer rubber layer (52), a plurality of vertically arranged springs (53) are arranged between the inner rubber layer (51) and the outer rubber layer (52) and evenly distributed along the circumferential direction, the upper ends of the springs (53) are arranged on an upper annular fixing sheet (54), the lower ends of the springs are arranged on a lower annular fixing sheet (55), a plurality of barbs (56) are fixedly arranged on the inner wall and the outer wall of the upper annular fixing sheet (54) and the lower annular fixing sheet (55), a plurality of glue passing holes (57) are further radially arranged on the upper annular fixing sheet (54) and the lower annular fixing sheet (55), the upper annular fixing sheet (54) is connected with the inner rubber layer (51) and the outer rubber layer (52) through an upper rubber layer (58), and the lower annular fixing sheet (55) is connected with the inner rubber layer (51) and the outer rubber layer (52) through a lower rubber layer (59) The layers (52) are connected, a cavity (53a) is formed among the upper rubber layer (58), the lower rubber layer (59), the inner rubber layer (51) and the outer rubber layer (52), and the plurality of springs (53) are arranged in the cavity (53 a).

9. A HF bubble collator according to claim 8 wherein the outer rubber layer (52) and the inner rubber layer (51) are compounded with an elastic fiber layer (5 a).

10. A HF bubble collator according to claim 8 characterised in that the cavity (53a) is filled with white grease (53 b).

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