CN210030425U - Multi-section flexible shaft bending and tempering forming equipment - Google Patents

Abstract

A multi-section flexible shaft bending, toughening and forming device comprises a plurality of toughening and forming sections arranged along the glass conveying direction, wherein each toughening and forming section comprises a flexible shaft forming roller way, an upper air grid group, a lower air grid group and a lifting and drawing arc forming mechanism, each upper air grid group comprises a plurality of rows of upper air grids arranged along the glass conveying direction, each lower air grid group comprises a plurality of rows of lower air grids arranged along the glass conveying direction, and the flexible shaft forming roller way is rotatably arranged between two adjacent rows of lower air grids of each lower air grid group; the lifting arc forming mechanism comprises more than two upper air grid lifting arc forming mechanisms and more than two upper and lower air grid lifting arc forming mechanisms, and the more than two upper air grid lifting arc forming mechanisms are respectively arranged between two different rows of adjacent upper air grids; the two lower air grid lifting arc forming mechanisms are respectively arranged between two different rows of adjacent lower air grids. The equipment is used for producing transversely bent toughened glass and can select various glass bending and toughening processes.

Description

Multi-section flexible shaft bending and tempering forming equipment

Technical Field

The utility model belongs to the technical field of the glass tempering, especially, relate to a curved tempering former of multistage formula flexible axle.

Background

Along with the continuous development of building market, also more diversified to glass's demand, the demand of present market to curved toughened glass is bigger and bigger, and the package is especially bigger and bigger to the curved toughened glass's of big breadth demand, and the curved tempering equipment of old glass can not satisfy the market demand, and market demand one kind can produce the toughened glass equipment that the toughened glass was played to the super large breadth, can improve the curved toughened glass's of small production efficiency again. The invention discloses novel flexible shaft bent glass toughening equipment.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a curved tempering former of multistage formula flexible axle, this equipment are used for producing transverse bending's toughened glass to can have the curved tempering technology of multiple glass to select, produce the glass variety more complete, and can solve the difficult problem of overlength glass tempering.

In order to realize the purpose, the utility model discloses a technical scheme is:

a multi-section flexible shaft bending, toughening and forming device comprises a plurality of toughening and forming sections arranged along the glass conveying direction, wherein each toughening and forming section comprises a flexible shaft forming roller way, an upper air grid group, a lower air grid group and a lifting and pulling arc forming mechanism, each upper air grid group comprises a plurality of rows of upper air grids arranged along the glass conveying direction, each lower air grid group comprises a plurality of rows of lower air grids arranged along the glass conveying direction, and the flexible shaft forming roller way is rotatably arranged between two adjacent rows of lower air grids of the lower air grid group; the lifting arc forming mechanism comprises more than two upper air grid lifting arc forming mechanisms and more than two upper and lower air grid lifting arc forming mechanisms, and the upper air grid lifting arc forming mechanisms are arranged between two rows of adjacent upper air grids; and the lower air grid lifting arc forming mechanism is arranged between two rows of adjacent lower air grids.

The equipment also comprises a gradual change forming section, and the glass plate enters the plurality of toughening forming sections after gradual change forming in the gradual change forming section.

The upper air grid lifting arc forming mechanism and the lower air grid lifting arc forming mechanism are toothed plate structures driven by chains, the toothed plate structures are two rows of toothed plates arranged in a staggered mode, the toothed plates in the same row are sequentially meshed and connected, and the toothed plates in different rows are rotatably connected.

And the two toothed plates at the two ends of the toothed plate structure are respectively connected with the motor through the chains.

The upper air grid is composed of a plurality of upper blowing boxes which are sequentially arranged along the direction vertical to the glass conveying direction, the upper blowing boxes are sequentially fixed on a plurality of square tubes which are arranged along the direction vertical to the glass conveying direction, and the square tubes penetrate through connecting holes formed in the toothed plate and are connected with an upper air grid lifting arc forming mechanism; the lower air grid is composed of a plurality of lower blowing boxes which are sequentially arranged along the direction vertical to the glass conveying direction, the lower blowing boxes are sequentially fixed on a plurality of square tubes which are arranged along the direction vertical to the glass conveying direction, and the square tubes penetrate through connecting holes formed in the toothed plate and are connected with a lower air grid lifting arc forming mechanism.

The toothed plate is provided with a protruding part, the connecting hole is located in the middle of the protruding part, and the air pipe and the corresponding connecting hole are in interference fit.

The toothed plate is provided with a protruding portion, the connecting hole is located at the end portion of the protruding portion, the connecting hole is opened at the end portion of the protruding portion, a baffle is arranged at the opening position, and the baffle is fixedly connected to the end portion of the protruding portion through a bolt.

The toothed plate is provided with a protruding portion, the connecting hole is located at the end portion of the protruding portion, the connecting hole is opened at the end portion of the protruding portion, a bolt hole is formed in the side face of the protruding portion, and the square tube is fixed in the connecting hole through a bolt.

The toothed plate is provided with a unthreaded hole, a nut corresponding to the unthreaded hole is fixed on the square tube, and an adjusting bolt penetrates through the unthreaded hole to be in threaded connection with the nut, so that the upper and lower positions of the square tube in the connecting hole are adjusted.

The toothed plate is provided with a convex part, and the convex part extends out towards one side of a connecting line of the two rotary connecting points on the toothed plate; along glass direction of delivery, be equipped with into arc adjustment mechanism between the bulge of adjacent link plate, become arc adjustment mechanism and include threaded connection body, connecting piece and threaded sleeve, threaded connection body is equipped with two, and the head of one of them threaded connection body directly rotates with the bulge of link plate to be connected, and the head and the connecting piece of another threaded connection body rotate to be connected, and the connecting piece rotates to be connected on the bulge of another link plate, threaded sleeve is located between two threaded connection body to with two threaded connection body threaded connection, realize two threaded connection body's reverse linear motion through rotatory threaded sleeve, adjust drawing into the biggest arc radian of arc mechanism.

The connecting piece is formed by rotationally connecting two parts, wherein the end part of one part is rotationally connected with the head part of a threaded connecting body, and the end part of the other part is rotationally connected with the protruding part of the gear plate.

And an observation window is arranged on the threaded sleeve, and scales are arranged on the observation window.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses have the tempering shaping section that the multistage links up all around, can realize the different tempering technologies of curved tempering in succession, overlength glass tempering and thinner glass tempering, solved the difficult problem of overlength glass tempering to toughened glass production efficiency has been improved.

The utility model discloses well air grid carries to draw into arc mechanism and lower air grid carries to draw into arc mechanism and all installs in the inboard that corresponds the air grid, and not install the tip at the air grid among the prior art, can make the butt joint interval between the adjacent tempering shaping section littleer like this, and the air grid can seamless butt joint, has alleviateed glass wind spot, and glass internal stress distributes more evenly.

The utility model discloses can predetermine the arc, improve product appearance quality and uniformity.

The utility model discloses be convenient for finely tune the biggest arcing radian of arcing mechanism, still be equipped with the observation window of taking the scale moreover on the threaded sleeve, scale on the observation window is corresponding with two threaded connection spare at both ends to ensure the degree of accuracy and the uniformity of radian adjustment.

The utility model discloses bolt on the well pinion rack can with square the nut cooperation on the pipe, through adjusting bolt like this, just can adjust about the position of square pipe to guarantee that multirow side's pipe is in same height, thereby reduce processing, the assembly degree of difficulty of pinion rack and square pipe.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a front view of a tempered profile;

FIG. 3 is a side view of the temper forming section;

FIG. 4 is a schematic view of the installation of the toothed plate and the square tube in a nested manner;

FIG. 5 is a schematic view of the installation of the toothed plate and the square tube with the lower part fixed;

figure 6 is a schematic view of the installation of the toothed plate and the square tube using side fixing;

FIG. 7 is a schematic view of the connection of the lower grid pull arcing mechanism and the square tube;

figure 8 is a structural schematic of the tooth plate structure;

FIG. 9 is an enlarged view at A of FIG. 8;

the labels in the figure are: 1. gradual change shaping section, 2, tempering shaping section, 3, go up the air grid and carry and draw into arc mechanism, 4, flexible axle shaping roll table, 5, square pipe, 6, upward blow box, 7, the box of blowing down, 8, the air grid draws into arc mechanism down, 9, the motor, 10, the chain, 11, the pinion rack, 12, the bulge, 13, the baffle, 14, the round pin axle, 15, the bolt, 16, the U-shaped groove, 17, the connecting hole, 18, become arc adjustment mechanism, 19, the threaded connection body, 20, the threaded sleeve, 21, the connecting piece.

Detailed Description

The technical solution of the present invention will be further explained by the following specific embodiments with reference to the accompanying drawings.

Hereinafter, the "longitudinal direction" is the same as the glass sheet conveying direction, and the "lateral direction" is perpendicular to the glass sheet conveying direction.

As shown in the figure, the multi-section flexible shaft bending, toughening and forming equipment comprises a plurality of toughening and forming sections 2 which are sequentially arranged along the conveying direction (the direction indicated by an arrow in figure 1) of a glass plate, wherein the toughening and forming sections 2 have the same structure and comprise a flexible shaft forming roller way 4, an upper air grid group, a lower air grid group and a lifting and pulling arc forming mechanism; the upper air grid group comprises a plurality of rows of upper air grids which are arranged in parallel along the glass conveying direction, each upper air grid consists of upper air blowing boxes 6 which are sequentially arranged along the direction vertical to the glass conveying direction, the upper air blowing boxes 6 are fixed on a square pipe 5, the square pipe 5 is arranged in parallel along the direction vertical to the glass conveying direction, namely, the upper air blowing boxes 6 arranged on the square pipe 5 belong to different rows of upper air grids, and air channels communicated with the upper air blowing boxes 6 are arranged inside the square pipe 5; the lower air grid group comprises a plurality of rows of lower air grids which are arranged in parallel along the glass conveying direction, each lower air grid consists of lower air blowing boxes 7 which are sequentially arranged along the direction vertical to the glass conveying direction, the upper air blowing boxes 7 are fixed on the square pipe 5, the square pipe 5 is arranged in parallel along the direction vertical to the glass conveying direction, namely, the lower air blowing boxes 7 arranged on the square pipe 5 belong to the lower air grids in different rows, and air channels communicated with the lower air blowing boxes 7 are arranged inside the square pipe 5; the flexible shaft forming roller table 4 is rotatably arranged between two adjacent rows of lower air grids of the lower air grid group, and the flexible shaft forming roller table 4 can be bent into an arc in the transverse direction; in the upper air grid, the upper air blowing boxes 6 on the square tube 5 are sequentially named as a 1 st upper air blowing box and a 2 nd upper air blowing box … … Nth upper air blowing box according to the conveying direction of the glass plate; the lower blowing boxes 7 on the lower air grid middle square tube 5 are named as a 1 st lower blowing box and a 2 nd lower blowing box … … Nth lower blowing box in sequence according to the conveying direction of the glass plates.

The arc forming mechanism comprises two upper air grid lifting arc forming mechanisms 3 and two lower air grid lifting arc forming mechanisms 8, wherein one upper air grid lifting arc forming mechanism 3 is connected with a plurality of rows of square tubes 5, the connecting position of the upper air grid lifting arc forming mechanism is located between an a-th upper blowing box and an a + 1-th upper blowing box in the longitudinal direction, a is larger than or equal to 1, a +1 is smaller than or equal to N, the other upper air grid lifting arc forming mechanism 3 is connected with the plurality of rows of square tubes 5, the connecting position of the upper air grid lifting arc forming mechanism is located between a b-th upper blowing box and a b + 1-th upper blowing box in the longitudinal direction, b is larger than or equal to 1, b +1 is smaller than or equal to N, a is not equal to b, and the upper air grid lifting arc forming mechanism 3 can form an arc transversely by drawing of a chain 10 so as to drive the upper air.

The lower air grid lifting arc forming mechanism 8 is connected with the multiple rows of square tubes 5, the connecting position of the lower air grid lifting arc forming mechanism is located between the a-th lower blowing box and the a + 1-th lower blowing box in the longitudinal direction, wherein a is larger than or equal to 1, a +1 is smaller than or equal to N, the other lower air grid lifting arc forming mechanism 8 is connected with the multiple rows of square tubes 5, the connecting position of the lower air grid lifting arc forming mechanism is located between the b-th lower blowing box and the b + 1-th lower blowing box in the longitudinal direction, b is larger than or equal to 1, b +1 is smaller than or equal to N, and a is not; the lower air grid lifting arc forming mechanism 8 can form an arc transversely by pulling the chain 10 so as to drive the lower air grid group to form an arc transversely.

Go up the air grid and carry into arc mechanism 3 and carry into arc mechanism 9 with lower air grid and be the pinion rack structure, constitute by a plurality of pinion rack 11 meshes, two pinion racks 11 and the chain 10 in the outside are connected, pinion rack 11 can set up the connecting hole 17 of cover on square pipe 5 to connect pinion rack 11 and square pipe 5 through the screw, perhaps realize through other modes that pinion rack 11 and square pipe 5 are connected fixedly.

Preferably, the toothed plate structure has two rows of toothed plates 11, and two rows of toothed plates 11 are staggered, and a plurality of toothed plates 11 that are located in the same row are meshed in proper order and are connected, and the adjacent toothed plates 11 that are located in different rows are connected through round pin axle 14 rotation, and the one end that is not connected with adjacent toothed plate 11 on toothed plate 11 is defined as bulge 12, therefore this toothed plate 11 can select T type toothed plate.

The fixing means between the connecting hole 17 and the square pipe 5 are various, and mainly include a sheathing type, a lower fixing means, and a side fixing means, which will be described below.

As shown in fig. 4, in the nested type, a connection hole 17 is formed in the middle of the protruding portion 12 of the toothed plate 11, and the square tube 5 and the toothed plate 11 are directly nested in an interference fit manner.

As shown in fig. 5, the lower fixing mode is to open a hole from the bottom end of the protrusion 12 of the toothed plate 11, and after the square tube 5 passes through, since there is no edge stop at the lower part, the square tube needs to be fixed by the baffle 13 through a bolt connection mode.

As shown in fig. 6, the side fixing manner is to open a hole from the lower part of the protruding part 12 of the toothed plate 11, and after the square tube 5 passes through the hole, because the lower part has no edge, a bolt hole is directly opened on the side surface of the protruding part 12, and the square tube 5 is fixed in the connecting hole 17 by a bolt 15.

Because square pipe 5 need wear in the connecting hole 17 of pinion rack 11, consequently pinion rack 11 and square pipe 5 require to its machining precision higher when processing, and processing and installation degree of difficulty are great, appear one row of square pipe 5 height inequality easily, will seriously influence glass shaping precision like this. In order to reduce the processing and installation difficulty of the toothed plate 11 and the square tube 5, the toothed plate 11 is provided with a unthreaded hole, the square tube 5 is fixed with a nut corresponding to the unthreaded hole, a bolt penetrates through the unthreaded hole and is in threaded connection with the nut, and the upper and lower positions of the square tube 5 in the connecting hole 17 can be adjusted by rotating the bolt.

Further, a U-shaped groove 16 is formed in the middle of the toothed plate 11, and the light hole is formed in the bottom of the U-shaped groove 16.

The flexible shaft forming roller way 4 is arranged on the top of the square tube 5 of the lower air grid and is alternately arranged with the lower blowing box 7.

The chain 10 is driven by a motor 9 arranged on a rack of the toughening forming section, and the middle part of the upper air grid lifting arc forming mechanism 3 and the middle part of the lower air grid lifting arc forming mechanism 8 are both fixedly connected on the rack.

The utility model discloses still be equipped with into arc adjustment mechanism 18 between well pinion rack 11, be convenient for carry to carry and carry into arc mechanism and finely tune the biggest arc radian, arc adjustment mechanism 18 includes threaded connection body 19, connecting piece 21 and threaded sleeve 20, threaded connection body 19 is equipped with two, and one of them threaded connection body 19's head directly rotates with pinion rack 11's bulge 12 to be connected, and another threaded connection body 19's head rotates with connecting piece 21 to be connected, and connecting piece 21 rotates to be connected on adjacent pinion rack 11's bulge 12, threaded sleeve 20 is located between two threaded connection body 19 to 19 threaded connection with two threaded connection body, realize two threaded connection body 19's reverse linear motion through rotatory threaded sleeve 20, adjust carrying into arc mechanism's biggest arc radian.

The connecting member 21 is formed by two parts rotatably connected, wherein one part of the connecting member is rotatably connected to the head of one of the threaded connecting bodies 19, and the other part of the connecting member is rotatably connected to the protruding portion 12 of the toothed plate 11.

The threaded sleeve 20 is provided with an observation window, and scales are arranged on the observation window.

The utility model discloses still be provided with gradual change profiled section 1 in the place ahead of tempering profiled section 2, the glass board can get into after the gradual change shaping in gradual change profiled section 1 a plurality of tempering profiled sections 2 in.

The structure of the gradual change forming section can be selected from any one of the following patents.

201410144614.7A curved toughened glass arc-changing device for gradual change forming;

201410144288.X a gradually-formed curved toughened glass arc-changing device;

201410144143.X a gradually-formed curved toughened glass arc-changing device;

201410144145.9A curved toughened glass arc-changing device for gradual change forming;

201410144594.3A curved toughened glass arc-changing device for gradual change forming;

201410144603.9A curved toughened glass arc-changing device for gradual change forming;

201410144532.2A curved toughened glass arc-changing device for gradual change forming;

201410144557.2A curved tempered glass arc-changing device for gradual change forming.

In the specific implementation process, three upper grid lifting arc forming mechanisms 3 and three lower grid lifting arc forming mechanisms 8 can be adopted, the three upper grid lifting arc forming mechanisms 3 are respectively connected between the adjacent upper grids at the two ends of the square pipe 5 of the upper grid group and between the adjacent upper grids in the middle of the square pipe 5, and the three lower grid lifting arc forming mechanisms 8 are respectively connected between the adjacent lower grids at the two ends of the square pipe 5 of the lower grid group and between the adjacent lower grids in the middle of the square pipe 5.

The equipment can be selected by various glass bending and toughening processes. The specific process is as follows:

1. continuously bending and toughening; the arc is predetermine to this equipment, and after the glass heating was accomplished, make glass reach appointed arc through gradual change shaping section 1, then reach tempering shaping section 2 and blow the tempering, glass gos forward in succession during the tempering, reaches the purpose of continuous tapping, continuous shaping, continuous tempering.

2. Tempering the ultra-long glass; the arc is predetermine to this equipment, and after the glass heating was accomplished, make glass reach appointed arc through gradual change shaping section 1, then reach tempering shaping section 2 and blow the tempering, glass swings in the air grid during the tempering, reaches the purpose of overlength glass tempering.

3. Tempering thinner glass; the arc is preset to this equipment, and after the glass heating was accomplished, move to gradual change shaping section 1 after, rise the messenger glass of 1 rear end of gradual change shaping section and reach the target arc, install air grid and air grid down in this gradual change shaping section 1, therefore glass swings the tempering of blowing in this section, and glass swings in the air grid during tempering, reaches the purpose of thinner glass tempering.

In the first two processes, the "equipment presetting arc" is to preset both the gradual change forming section 1 and the tempering forming section 2, and in the third process, the "equipment presetting arc" is to preset the gradual change forming section 1.

Claims (12)

1. The utility model provides a curved tempering former of multistage formula flexible axle which characterized in that: the glass tempering forming device comprises a plurality of tempering forming sections (2) arranged along the glass conveying direction, wherein each tempering forming section (2) comprises a flexible shaft forming roller way (4), an upper air grid group, a lower air grid group and a lifting arc forming mechanism, each upper air grid group comprises a plurality of rows of upper air grids arranged along the glass conveying direction, each lower air grid group comprises a plurality of rows of lower air grids arranged along the glass conveying direction, and each flexible shaft forming roller way (4) is rotatably arranged between two adjacent rows of lower air grids of each lower air grid group; the arc forming mechanism comprises more than two upper air grid arc forming mechanisms (3) and more than two upper and lower air grid arc forming mechanisms (8), and the upper air grid arc forming mechanisms (3) are arranged between two rows of adjacent upper air grids; and the lower air grid lifting arc forming mechanism (8) is arranged between two rows of adjacent lower air grids.

2. The multi-section flexible shaft bending and tempering forming equipment as claimed in claim 1, wherein: the glass plate is gradually formed in the gradual change forming section (1) and then enters the plurality of tempering forming sections (2).

3. The multi-section flexible shaft bending and tempering forming equipment as claimed in claim 1, wherein: go up the air grid and carry and draw into arc mechanism (3) and air grid is carried and is drawn into arc mechanism (8) down and be the pinion rack structure that chain (10) drove, the pinion rack structure is two rows of staggered arrangement's pinion rack (11), and a plurality of pinion rack (11) that are located same row mesh in proper order and connect, lie in rotatable connection between different adjacent pinion rack (11) of arranging.

4. The multi-section flexible shaft bending and tempering forming equipment as claimed in claim 3, wherein: two toothed plates (11) at two ends of the toothed plate structure are respectively connected with the motor (9) through the chain (10).

5. The multi-section flexible shaft bending and tempering forming equipment as claimed in claim 3, wherein: the upper air grid consists of a plurality of upper blowing boxes (6) which are sequentially arranged along the direction vertical to the glass conveying direction, the upper blowing boxes (6) are sequentially fixed on a plurality of square pipes (5) which are arranged along the direction vertical to the glass conveying direction, and the square pipes (5) penetrate through connecting holes (17) formed in the toothed plate (11) and are connected with an upper air grid lifting arc forming mechanism (3); the lower air grid is composed of a plurality of lower blowing boxes (7) which are sequentially arranged along the direction perpendicular to the glass conveying direction, the lower blowing boxes (7) are sequentially fixed on a plurality of square pipes (5) which are arranged along the direction perpendicular to the glass conveying direction, and the square pipes (5) penetrate through connecting holes (17) formed in the toothed plate (11) and are connected with a lower air grid lifting arc forming mechanism (8).

6. The multi-section flexible shaft bending and tempering forming equipment as claimed in claim 5, wherein: the toothed plate (11) is provided with a protruding portion (12), the connecting holes (17) are located in the middle of the protruding portion (12), and the square tube (5) and the corresponding connecting holes (17) are in interference fit.

7. The multi-section flexible shaft bending and tempering forming equipment as claimed in claim 5, wherein: the dental plate (11) is provided with a protruding portion (12), the connecting hole (17) is located at the end portion of the protruding portion (12), the connecting hole (17) is opened at the end portion of the protruding portion (12), a baffle plate (13) is arranged at the opening position, and the baffle plate (13) is fixedly connected to the end portion of the protruding portion (12) through bolts.

8. The multi-section flexible shaft bending and tempering forming equipment as claimed in claim 5, wherein: the dental plate (11) is provided with a protruding portion (12), the connecting hole (17) is located at the end portion of the protruding portion (12), the connecting hole (17) is opened at the end portion of the protruding portion (12), a bolt hole is formed in the side face of the protruding portion (12), and the square pipe (5) is fixed in the connecting hole (17) through a bolt (15).

9. The multi-section flexible shaft bending and tempering forming equipment as claimed in claim 5, wherein: be equipped with the unthreaded hole on pinion rack (11) square pipe is fixed with the nut corresponding with the unthreaded hole, and adjusting bolt passes unthreaded hole and nut threaded connection, adjusts square pipe (5) upper and lower position in connecting hole (17).

10. The multi-section flexible shaft bending and tempering forming equipment as claimed in claim 3, wherein: the toothed plate (11) is provided with a convex part (12), and the convex part (12) extends out towards one side of a connecting line of two rotating connecting points on the toothed plate (11); along the glass conveying direction, arc forming adjusting mechanisms (18) are arranged between the convex parts (12) of the adjacent toothed plates (11), each arc forming adjusting mechanism (18) comprises a threaded connecting body (19), a connecting piece (21) and a threaded sleeve (20), the number of the threaded connecting bodies (19) is two, wherein the head of one of the threaded connecting bodies (19) is directly and rotationally connected with the convex part (12) of the toothed plate (11), the head of the other threaded connecting body (19) is rotationally connected with the connecting piece (21), the connecting piece (21) is rotationally connected with the convex part (12) of the other toothed plate (11), the threaded sleeve (20) is positioned between the two threaded connectors (19) and is in threaded connection with the two threaded connectors (19), the reverse linear motion of the two threaded connectors (19) is realized by rotating the threaded sleeve (20), and the maximum arc forming radian of the lifting arc forming mechanism is adjusted.

11. The multi-section flexible shaft bending and tempering forming equipment as claimed in claim 10, wherein: the connecting piece (21) is formed by rotationally connecting two parts, wherein the end part of one part is rotationally connected with the head part of one threaded connecting body (19), and the end part of the other part is rotationally connected with the protruding part (12) of the toothed plate (11).

12. The multi-section flexible shaft bending and tempering forming equipment as claimed in claim 10, wherein: an observation window is arranged on the threaded sleeve (20), and scales are arranged on the observation window.

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