CN215363526U - Material arranging machine - Google Patents

Abstract

The application relates to a material arranging machine, which relates to the field of bolt material arranging and comprises a machine frame, a centrifugal outer disc, an outer disc driving source, a centrifugal inner disc, an inner disc driving source and a baffle plate, the centrifugal outer disc is rotationally connected with the upper side of the frame, the outer disc driving source is arranged on the frame to drive the centrifugal outer disc to rotate, the centrifugal inner disc is rotationally connected with the upper side of the frame, the inner disc driving source is arranged on the frame to drive the centrifugal inner disc to rotate, the upper side of the centrifugal outer disc is provided with a rotating groove for the centrifugal inner disc to be embedded and rotate, the rotating shafts of the centrifugal outer disc and the centrifugal inner disc are collinear, the centrifugal inner disc is provided with an inclined plane which extends to the upper end surface of the centrifugal outer disc from the inside of the rotating groove, the baffle encloses the upside of locating centrifugal outer dish, the baffle with be formed with the double-screw bolt that supplies the bolt between the centrifugal outer dish and wear to establish the groove of sliding that slides, the both ends of baffle are formed with the discharge gate that supplies the double-screw bolt to slide from. This application has the effect of the noise when reducing the bolt reason material.

Description

Material arranging machine

Technical Field

The application relates to the field of bolt reason material, especially relate to a reason material machine.

Background

At present, bolts are forged in multiple steps during manufacturing to form required shapes and sizes, and for the convenience of detection or subsequent processing, the directional bolts need to be arranged in rows.

In the related art, the vibration plate is usually used for aligning and selecting the bolts, but the vibration plate has high noise during operation, is easy to influence the hearing of nearby workers, and has room for improvement.

SUMMERY OF THE UTILITY MODEL

Noise when managing the material in order to reduce the bolt, this application provides a reason material machine.

The application provides a reason material machine adopts following technical scheme:

a material arranging machine comprises a frame, a centrifugal outer disc, an outer disc driving source, a centrifugal inner disc, an inner disc driving source and a baffle plate, the centrifugal outer disc is rotationally connected with the upper side of the frame, the outer disc driving source is arranged on the frame to drive the centrifugal outer disc to rotate, the centrifugal inner disc is rotationally connected with the upper side of the frame, the inner disc driving source is arranged on the frame to drive the centrifugal inner disc to rotate, the upper side of the centrifugal outer disc is provided with a rotating groove for the centrifugal inner disc to be embedded and rotate, the rotating shafts of the centrifugal outer disc and the centrifugal inner disc are collinear, the centrifugal inner disc is provided with an inclined plane which extends to the upper end surface of the centrifugal outer disc from the inside of the rotating groove, the baffle encloses the upside of locating centrifugal outer dish, the baffle with be formed with the double-screw bolt that supplies the bolt between the centrifugal outer dish and wear to establish the groove of sliding that slides, the both ends of baffle are formed with the discharge gate that supplies the double-screw bolt to slide from.

Through adopting above-mentioned technical scheme, the bolt is placed in rotating the inslot, and the inclined plane of centrifugation inner disc drives and rotates the inslot bolt rotation when the inner disc driving source orders about the rotation of centrifugation inner disc, and the bolt is thrown away under the effect of centrifugal force and is arranged and select the direction to the groove that slides that the outer dish of centrifugation and baffle formed, and the outer dish of centrifugation rotates and sends out the bolt from the discharge gate for the noise when the bolt is managed the material reduces.

Optionally, the upside of frame is fixed with a supporting cylinder, the downside of centrifugation outer dish is equipped with rotates the cover, rotate the cover with the centrifugation outer dish is concentric setting, be equipped with on the lateral wall of rotation cover and supply to rotate the cover and inlay and establish and pivoted caulking groove, the lower terminal surface of rotation cover with the step face butt in caulking groove rotates.

Optionally, a rotating shaft is fixed to the lower side of the centrifugal inner disc, and the rotating shaft penetrates through the rotating sleeve and is rotatably connected with the rotating sleeve.

Optionally, the up end of centrifugation outer dish is equipped with the positioning disk, the positioning disk with the centrifugation outer dish is concentric the setting, the external diameter of positioning disk is from last to crescent down.

Through adopting above-mentioned technical scheme for the bolt of following the discharge gate roll-off can slide off centrifugal outer dish in the guide of positioning disk, makes the bolt of discharge gate department be difficult for staying in the upside of centrifugal outer dish.

Optionally, still including locating the ejection of compact subassembly on the frame, ejection of compact subassembly includes:

the support plate is arranged on one side of the rack close to the discharge hole;

the discharging driving source is fixed on the supporting plate, and the output shaft penetrates through the supporting plate and is arranged towards the centrifugal outer disc;

the driving wheel is fixed on an output shaft of the discharging driving source;

the driven wheels are rotatably connected to the supporting plate and are at least one in number; and

the material outlet belt is wound on the driving wheel and the driven wheel so as to convey the bolt at the position of the material outlet away from the centrifugal outer disc.

Through adopting above-mentioned technical scheme, can carry the bolt of the ejection of compact through the discharge gate to the position that needs and collect.

Optionally, the centrifugal separator further comprises an adjusting assembly for driving the discharging assembly to be close to or far away from the centrifugal outer disk, wherein the adjusting assembly comprises:

the base plate is fixed on the frame;

the supporting blocks are arranged on the substrate and the number of the supporting blocks is at least one;

the adjusting screw rod is arranged on the supporting block in a penetrating mode and is arranged in a direction close to the centrifugal outer disc, and the adjusting screw rod is connected to the supporting block in a rotating mode; and

the driving block is fixed on the supporting plate and connected with the base plate in a sliding mode, and the driving block is sleeved on the adjusting screw rod and connected with the adjusting screw rod in a threaded mode.

Through adopting above-mentioned technical scheme, the accessible rotates and adjusts the lead screw and drives the supporting shoe along its axial slip to adjust the distance of ejection of compact subassembly and centrifugation outer dish.

Optionally, a guide plate is fixed on the support plate, and the guide plate guides the bolt to slide away from the material outlet belt.

Through adopting above-mentioned technical scheme, can adjust the distance between ejection of compact subassembly and the centrifugation outer dish.

Optionally, two fixing bolts are arranged on the supporting plate, long waist holes for the studs of the fixing bolts to penetrate and slide are formed in the supporting plate, the studs of the fixing bolts sequentially penetrate through the supporting plate and the guide plate, and the fixing bolts are in threaded connection with the guide plate.

Through adopting above-mentioned technical scheme, the setting of positioning disk, the guide bolt is followed ejection of compact area landing to the position that needs and is collected.

Optionally, the cover is equipped with compression spring and adjustable ring on fixing bolt's the double-screw bolt, compression spring locates between the spiral shell head and the adjustable ring of bolt, the adjustable ring butt is in the backup pad one side of keeping away from the deflector, one side that the adjustable ring is close to the backup pad is equipped with the regulation tooth, be equipped with a plurality of meshing teeth that evenly set up along the length direction in long waist hole in the backup pad, adjust the tooth with meshing tooth intermeshing.

Through adopting above-mentioned technical scheme, make things convenient for the height of bare-handed regulation deflector, and need not use tools to rotate fixing bolt.

In summary, the present application includes at least one of the following beneficial technical effects:

the bolt is placed on the centrifugal inner disc in the rotating groove, the inclined plane of the centrifugal inner disc drives the bolt in the rotating groove to rotate when the centrifugal inner disc is driven to rotate by the inner disc driving source, the bolt is thrown out to the sliding groove formed by the centrifugal outer disc and the baffle under the action of centrifugal force to be arranged and oriented, and the centrifugal outer disc rotates to send the bolt out of the discharge hole, so that the noise of the bolt during material arrangement is reduced.

Drawings

Fig. 1 is a schematic structural diagram of a material arranging machine according to an embodiment of the present application.

Fig. 2 is a top view of a material arranging machine according to an embodiment of the present disclosure.

Fig. 3 is a cross-sectional view a-a of fig. 2.

FIG. 4 is a schematic structural diagram of an outfeed assembly and an adjustment assembly of an embodiment of the present application.

Fig. 5 is a schematic partial exploded view of the fixing bolt, the support plate and the guide plate according to the embodiment of the present application.

Fig. 6 is an enlarged view of a portion B in fig. 5.

FIG. 7 is an exploded view of a discharge assembly and a substrate according to an embodiment of the present disclosure.

Description of reference numerals: 10. a frame; 11. a support cylinder; 111. a notch; 112. caulking grooves; 12. a support pillar; 13. a support ring; 14. a connecting rod; 15. fixing the rod; 20. a centrifugal outer disc; 21. a rotating groove; 22. rotating the sleeve; 23. a guide plate; 30. an outer disc drive source; 40. centrifuging the inner disc; 41. a bevel; 42. a rotating shaft; 421. a transmission section; 422. a limiting part; 423. a bending section; 50. an inner disc drive source; 60. a baffle plate; 61. a sliding groove; 62. a discharge port; 70. a discharge assembly; 71. a support plate; 711. a guide plate; 7111. a side plate; 712. fixing the bolt; 713. a long waist hole; 714. a compression spring; 715. an adjusting ring; 7151. adjusting teeth; 716. meshing teeth; 72. a discharging driving source; 73. a driving wheel; 74. a driven wheel; 75. discharging the material belt; 80. an adjustment assembly; 81. a substrate; 82. a support block; 83. adjusting the lead screw; 84. a drive block; 85. a hand wheel; 86. a slide rail; 87. a slide block.

Detailed Description

The present application is described in further detail below with reference to figures 1-7.

The embodiment of the application discloses reason material machine. Referring to fig. 1, the material arranging machine includes a frame 10, a centrifugal outer disc 20, an outer disc driving source 30, a centrifugal inner disc 40, an inner disc driving source 50, and a baffle 60.

Referring to fig. 1 and 3, the outer centrifugal plate 20 is rotatably coupled to the frame 10. Specifically, the upside of frame 10 is fixed with a supporting cylinder 11, the downside of centrifugation outer dish 20 is fixed with rotates the cover 22, it is concentric setting with centrifugation outer dish 20 to rotate cover 22, caulking groove 112 has been seted up on the lateral wall of a supporting cylinder 11 upside, caulking groove 112 is concentric setting with a supporting cylinder 11, it inlays in caulking groove 112 to rotate cover 22, it is concentric setting with a supporting cylinder 11 to rotate cover 22, the lower terminal surface of rotating cover 22 and the step face butt and the rotation of caulking groove 112, in order to rotate the upside of connecting in frame 10 with centrifugation outer dish 20.

In order to reduce the frictional resistance between the rotating sleeve 22 and the supporting cylinder 11, a deep groove ball bearing is embedded in the rotating sleeve 22, the outer ring of the deep groove ball bearing is in transition fit or interference fit with the inner side wall of the rotating sleeve 22, and the inner ring of the deep groove ball bearing is in transition fit or interference fit with the outer peripheral wall of the embedded groove 112.

The outer disc driving source 30 is a motor, which may be a servo motor or a stepping motor, the outer disc driving source 30 is fixed on the frame 10, the outer disc driving source 30 may drive the rotating sleeve 22 to rotate through belt transmission, or drive the rotating sleeve 22 to rotate through chain transmission, in this embodiment, the outer disc driving source 30 is described by taking the example of driving the rotating sleeve 22 to rotate through belt transmission.

The centrifugal inner disk 40 is rotatably connected to the frame 10. Specifically, the rotating groove 21 has been seted up on the outer dish 20 of centrifugation, the inner dish 40 of centrifugation inlays to be located and rotates in rotating groove 21, the rotation direction of outer dish 20 of centrifugation and the inner dish 40 of centrifugation is opposite, the upside of the inner dish 40 of centrifugation has an inclined plane 41, inclined plane 41 extends to the up end of the outer dish 20 of centrifugation from rotating groove 21 internal slope, the downside of the inner dish 40 of centrifugation is fixed with rotation axis 42, rotation axis 42 includes transmission portion 421, spacing portion 422 and kink 423. The transmission portion 421 is cylindric setting, and the transmission portion 421 is concentric setting with the outer dish 20 of centrifugation, and the transmission portion 421 wears to locate in the support section of thick bamboo 11 and rotates with a support section of thick bamboo 11 to be connected, and spacing portion 422 is fixed in the upper end of transmission portion 421, spacing portion 422 and the upper end butt of a support section of thick bamboo 11 for the centrifugation inner disc 40 provides the support. The bent portion 423 is fixed to the upper end of the stopper portion 422, and the upper end of the bent portion 423 is fixed to the centrifugal outer disk 20.

The inner disc driving source 50 is a motor, the motor may be a servo motor or a stepping motor, the inner disc driving source 50 is fixed to the frame 10, the inner disc driving source 50 may drive the rotation shaft 42 to rotate through belt transmission, and also may drive the rotation shaft 42 to rotate through chain transmission, in this embodiment, the inner disc driving source 50 drives the rotation shaft 42 to rotate through belt transmission, for example, the lower side of the supporting cylinder 11 is provided with a notch 111, and the notch 111 is used for a belt to pass through, so that the inner disc driving source 50 drives the rotation shaft 42 to rotate.

The baffle 60 is arranged on the upper side of the centrifugal outer disc 20 in a surrounding mode, a sliding groove 61 for the stud of the bolt to penetrate and slide is formed between the baffle 60 and the centrifugal outer disc 20, and the two ends of the baffle 60 are matched to form a discharge hole 62 for the stud to slide away. Specifically, a support post 12 is fixed on the upper side of the frame 10, a support ring 13 is fixed on the upper end of the support post 12, the support ring 13 is located on the upper side of the centrifugal outer disk 20, and an operator can place a bolt on the centrifugal inner disk 40 in the rotary groove 21 through a central hole of the support ring 13. A plurality of connecting rods 14 are fixed on the supporting ring 13, the connecting rods 14 penetrate through the supporting ring 13 and extend downwards, the connecting rods 14 are arranged on the outer side of the centrifugal outer disc 20 in a surrounding mode, a fixing rod 15 is fixed at the lower end of each connecting rod 14, the fixing rod 15 extends towards the axial direction close to the centrifugal outer disc 20, one end, facing the axial line of the centrifugal outer disc 20, of each fixing rod 15 is fixed with the baffle 60, and support is provided for the baffle 60.

In order to facilitate the bolts to slide off the centrifugal outer disc 20, a guide disc 23 is fixed on the outer edge of the centrifugal outer disc 20, the guide disc 23 and the centrifugal outer disc 20 are concentrically arranged, the guide disc 23 is inclined from top to bottom and extends in the direction of the axis far away from the guide disc 23, and the outer diameter of the guide disc 23 is gradually increased from top to bottom.

Referring to fig. 1 and 4, to facilitate transporting the aligned bolts from the discharge port 62 to a location remote from the centrifugal outer tray 20 for collection, the material arranging machine further includes a discharge assembly 70. The discharging assembly 70 comprises a supporting plate 71, a discharging driving source 72, a driving wheel 73, a driven wheel 74 and a discharging belt 75.

In one embodiment, the support plate 71 is fixed to the frame 10, the discharging driving source 72 is a servo motor, the discharging driving source 72 is fixed to the support plate 71, an output shaft of the discharging driving source 72 extends toward the centrifugal outer plate 20, and the driving wheel 73 is fixed to an output shaft of the discharging driving source 72. Driven wheel 74 and drive wheel 73 are located the same side of backup pad 71, and the quantity of driven wheel 74 is at least one, and when the quantity of driven wheel 74 was one, driven wheel 74 and drive wheel 73 were located same height, and play material area 75 was around locating drive wheel 73 and driven wheel 74, and ejection of compact area 75 is located the below of discharge gate 62 to the bolt that gets from discharge gate 62 landing is carried it to the position far away from centrifugal outer dish 20 and is collected. When the number of the driven wheels 74 is two, one driven wheel 74 and the driving wheel 73 are located at the same height, the other driven wheel 74 is located at the lower side of the driven wheel 74, the material discharging belt 75 is wound on the driving wheel 73 and the driven wheel 74, and the material discharging belt 75 is located below the material discharging port 62 so as to receive bolts sliding from the material discharging port 62 and convey the bolts to a position far away from the centrifugal outer disc 20 for collection.

Referring to fig. 4 and 5, in order to guide the bolts to slide from the discharging belt 75 to a required position for collection, a guide plate 711 is further disposed on the support plate 71, the guide plate 711 is located at the end of the conveying direction of the discharging assembly 70, the guide plate 711 is disposed obliquely downward from the end of the conveying direction of the discharging assembly 70, and an included angle between the guide plate 711 and the conveying direction of the discharging assembly 70 is an acute angle. Specifically, a side plate 7111 is fixed to the lower side of the guide plate 711, the side plate 7111 abuts against the support plate 71, two fixing bolts 712 are connected to the side plate 7111 through threads, long waist holes 713 in one-to-one correspondence with the fixing bolts 712 are formed in the support plate 71, the long waist holes 713 are vertically arranged, the long waist holes 713 allow the studs of the fixing bolts 712 to penetrate and slide, the screw heads of the fixing bolts 712 are located on one side, away from the guide plate 711, of the support plate 71 and press the support plate 71, so that the guide plate 711 is fixed to the support plate 71.

Referring to fig. 5 and 6, in order to facilitate the adjustment of the height of the guide plate 711, the head of the fixing bolt 712 does not contact the support plate 71, a compression spring 714 and an adjusting ring 715 are sleeved on the stud of the fixing bolt 712, the compression spring 714 is located between the head of the fixing bolt 712 and the adjusting ring 715, an adjusting tooth 7151 is fixed on the end surface of the adjusting ring 715 close to the support plate 71, engaging teeth 716 uniformly arranged along the length direction of the long kidney-shaped hole 713 are fixed on the support plate 71, and the adjusting tooth 7151 is driven by the compression spring 714 to be engaged with the engaging teeth 716 to lock the guide plate 711 on the support plate 71. When the height of the guide plate 711 needs to be adjusted, the guide plate 711 is held and the guide plate 711 is forcibly slid downward so that the adjustment teeth 7151 are engaged with the engagement teeth 716 of the corresponding height.

Referring to fig. 7, in another embodiment, in order to facilitate adjustment of the distance between the outfeed assembly 70 and the centrifugal outer tray 20, the material handler further includes an adjustment assembly 80. The adjustment assembly 80 includes a base plate 81, a support block 82, an adjustment screw 83, and a drive block 84. The base plate 81 is fixed on the frame 10, two supporting blocks 82 are fixed on the frame 10, the two supporting blocks 82 are fixed on the frame 10 at intervals, two ends of the adjusting screw rod are respectively penetrated through the two supporting blocks 82 and are rotatably connected with the two supporting blocks 82, the adjusting screw rod extends towards the direction close to the centrifugal outer disc 20, the driving block 84 is fixed on the lower side of the supporting plate 71, and the driving block 84 is sleeved on the adjusting screw rod 83 and is in threaded connection with the adjusting screw rod 83. The base plate 81 is further fixed with two slide rails 86, the two slide rails 86 are respectively arranged on two sides of the adjusting screw 83, the length direction of the slide rails 86 is parallel to the axis of the adjusting screw 83, and the lower side of the supporting plate 71 is fixed with slide blocks 87 which are in one-to-one correspondence with the slide rails 86 and connected in a sliding manner.

In order to rotate the adjusting screw 83 conveniently, a hand wheel 85 is fixed at one end of the adjusting screw 83 far from the centrifugal outer disc 20, so as to increase the holding area of the adjusting screw 83 and facilitate the rotation of the adjusting screw 83.

The implementation principle of the material arranging machine in the embodiment of the application is as follows: the bolts are placed on the centrifugal inner disc 40 in the rotating groove 21, when the centrifugal inner disc 40 is driven to rotate by the inner disc driving source 50, the inclined surface 41 of the centrifugal inner disc 40 drives the bolts in the rotating groove 21 to rotate, the bolts are thrown out to the centrifugal outer disc 20 under the action of centrifugal force, the studs of the bolts penetrate through the sliding groove 61 formed by the centrifugal outer disc 20 and the baffle plate 60 to be arranged and selected, the centrifugal outer disc 20 rotates in the opposite direction of the centrifugal inner disc 40, and the bolts are sent out from the discharge hole 62 when sliding to the discharge hole 62, so that the noise of the bolts during sorting is reduced. The discharging assembly 70 takes the bolts sliding out of the discharging port 62 through the discharging belt 75 and conveys the bolts to a required position for collection.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a reason material machine which characterized in that: including frame (10), centrifugation outer dish (20), outer dish driving source (30), centrifugation inner dish (40), inner dish driving source (50) and baffle (60), centrifugation outer dish (20) rotate the upside of connecting in frame (10), outer dish driving source (30) are located and are driven centrifugation outer dish (20) to rotate on frame (10), centrifugation inner dish (40) rotate and are connected in the upside of frame (10), inner dish driving source (50) are located and are driven centrifugation inner dish (40) to rotate on frame (10), the upside of centrifugation outer dish (20) is equipped with and supplies centrifugation inner dish (40) to inlay and establish and pivoted rotation groove (21), centrifugation outer dish (20) with axis of rotation (42) collineation of centrifugation inner dish (40), centrifugation inner dish (40) have an inclined plane (41), inclined plane (41) extend to the up end of centrifugation outer dish (20) from rotating groove (21), baffle (60) enclose the upside of locating centrifugation outer dish (20), baffle (60) with be formed with between centrifugation outer dish (20) and supply the double-screw bolt of bolt to wear to establish the groove (61) that slides, the both ends of baffle (60) are formed with supply double-screw bolt to slide discharge gate (62) of leaving.

2. The material arranging machine according to claim 1, characterized in that: the upside of frame (10) is fixed with a supporting cylinder (11), the downside of centrifugation external tray (20) is equipped with rotates cover (22), rotate cover (22) with centrifugation external tray (20) is concentric setting, be equipped with on the lateral wall of a supporting cylinder (11) and supply to rotate cover (22) and inlay and establish and pivoted caulking groove (112), the lower terminal surface of rotating cover (22) with the step face butt of caulking groove (112) rotates.

3. The material arranging machine according to claim 2, characterized in that: the lower side of the centrifugal inner disc (40) is fixed with a rotating shaft (42), and the rotating shaft (42) penetrates through the rotating sleeve (22) and is rotatably connected with the rotating sleeve (22).

4. The material arranging machine according to claim 1, characterized in that: the up end of outer dish (20) of centrifugation is equipped with positioning disk (23), positioning disk (23) with outer dish (20) of centrifugation is concentric the setting, the external diameter of positioning disk (23) is from last to crescent down.

5. The material arranging machine according to claim 1, further comprising an discharging assembly (70) arranged on the frame (10), wherein the discharging assembly (70) comprises:

the supporting plate (71) is arranged on one side of the rack (10) close to the discharge hole (62);

a discharging driving source (72) which is fixed on the supporting plate (71) and an output shaft penetrates through the supporting plate (71) and is arranged towards the centrifugal outer disc (20);

a driving wheel (73) fixed on an output shaft of the discharging driving source (72);

the driven wheels (74) are rotatably connected to the supporting plate (71) and are at least one in number; and

and the material outlet belt (75) is wound on the driving wheel (73) and the driven wheel (74) so as to convey the bolts at the material outlet (62) away from the centrifugal outer disc (20).

6. The material arranging machine according to claim 5, characterized in that it further comprises an adjusting assembly (80) for driving the discharging assembly (70) to approach or move away from the centrifugal outer disk (20), said adjusting assembly (80) comprising:

a base plate (81) fixed to the frame (10);

the supporting blocks (82) are arranged on the substrate (81) and the number of the supporting blocks is at least one;

the adjusting screw rod (83) is arranged on the supporting block (82) in a penetrating mode and faces to the direction close to the centrifugal outer disc (20), and the adjusting screw rod (83) is connected to the supporting block (82) in a rotating mode; and

the driving block (84) is fixed on the supporting plate (71) and connected with the base plate (81) in a sliding mode, and the driving block (84) is sleeved on the adjusting screw rod and connected with the adjusting screw rod in a threaded mode.

7. The material arranging machine according to claim 5, characterized in that: a guide plate (711) is fixed on the support plate (71), and the guide plate (711) guides the bolt to slide away from the discharging belt (75).

8. The material arranging machine according to claim 7, characterized in that: the supporting plate (71) is provided with two fixing bolts (712), the supporting plate (71) is provided with a long waist hole (713) for the studs of the fixing bolts (712) to penetrate and slide, the studs of the fixing bolts (712) penetrate through the supporting plate (71) and the guide plate (711) in sequence, and the fixing bolts (712) are in threaded connection with the guide plate (711).

9. The material arranging machine according to claim 8, characterized in that: the cover is equipped with compression spring (714) and adjustable ring (715) on the double-screw bolt of fixing bolt (712), compression spring (714) are located between the spiral shell head of bolt and adjustable ring (715), one side of deflector (711) is kept away from in backup pad (71) butt of adjustable ring (715), one side that adjustable ring (715) is close to backup pad (71) is equipped with adjusts tooth (7151), be equipped with a plurality of meshing teeth (716) that evenly set up along the length direction of long waist hole (713) on backup pad (71), adjust tooth (7151) with meshing teeth (716) intermeshing.

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