CN115874811A - Keel structure - Google Patents

Abstract

The invention belongs to the technical field of keels, and particularly relates to a keel structure which comprises a main keel, and a clamping assembly which are arranged outside the main keel; the clamping assembly comprises a cushion block, a secondary keel, a connecting clamping groove and a connecting clamping block, the bottom of the main keel is fixedly connected with the cushion block, the secondary keel is arranged at the top end of the main keel, the connecting clamping groove is formed in the secondary keel, and the outer wall of the connecting clamping groove is slidably connected with the connecting clamping block embedded in the outer wall of the main keel. According to the invention, through arranging the connecting clamping block and the connecting lug, an installer rotates the rotating block to enable the rotating block to be clamped with the positioning clamping groove on the outer wall of the connecting lug, then the installer rotates the clamping nut to enable the clamping nut to drive the connecting lug and the connecting clamping block to move relatively, the connecting lug moves to drive the main keel and the secondary keel to be tightly attached, and the fastening connection operation of the main keel and the secondary keel is realized.

Description

Keel structure

Technical Field

The invention relates to the technical field of keels, in particular to a keel structure.

Background

In building engineering and similar engineering work progress, adopt keel structure to implement the reinforcement to the template more, generally adopt the connection structure of main joist, secondary joist and stull fossil fragments, between stull fossil fragments installation and two sets of secondary joist, then lay building material on main joist and secondary joist to promote building material's stability.

However, when the existing keel structure is used, the main keel and the secondary keel are usually connected through the buckle, the buckle is easy to deviate during installation, so that the main keel and the secondary keel are easy to shake, and when the existing keel structure is used, the length of the cross-bracing keel is not matched with the distance between the two sets of secondary keels, so that the cross-bracing keel cannot realize a supporting effect; and when not co-altitude ground installation, need use the cushion to adjust the height of main joist, the cushion breaks away from with the main joist easily, leads to the main joist installation unstability.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the installation of main joist and secondary joist is unstable, stull fossil fragments support effect is poor and main joist and ground have the gap.

In order to solve the technical problems, the invention provides the following technical scheme: a keel structure comprises a main keel, and a clamping assembly which are arranged outside the main keel; the clamping assembly comprises a cushion block, a secondary keel, a connecting clamping groove and a connecting clamping block, the bottom of the main keel is fixedly connected with the cushion block, the secondary keel is arranged at the top end of the main keel, the connecting clamping groove is formed in the secondary keel, and the outer wall of the connecting clamping groove is connected with the connecting clamping block which is embedded with the outer wall of the main keel in a sliding manner; the clamping assembly comprises a pin shaft, a rotating block, a bolt, a connecting lug, a positioning clamping groove and a clamping nut, the bottom of the connecting clamping block penetrates through the pin shaft, the outer wall of the pin shaft rotates to be connected with the rotating block, the bolt is fixedly connected to the bottom of the rotating block, the connecting lug fixedly connected with the outer wall of the main keel is arranged outside the bolt, the positioning clamping groove is formed in the connecting position of the connecting lug and the bolt, and the outer wall of the bolt is in threaded connection with the clamping nut.

As a preferable aspect of the keel structure of the invention, wherein: the inside fixed connection lifting frame of main joist, the connecting slot outer wall is located one side sliding connection location fixture block of connecting the fixture block, one side of location fixture block is provided with stull fossil fragments, stull fossil fragments bottom fixed connection adjusting frame.

As a preferable aspect of the keel structure of the invention, wherein: the cross section of main joist is the I shape, connect the fixture block and constitute the gomphosis structure through connecting the draw-in groove between with the secondary joist.

As a preferable aspect of the keel structure of the invention, wherein: the hinge pins are arranged in two groups, the two groups of hinge pins are symmetrically arranged on two sides of the main keel, the connecting clamping blocks are hinged with the rotating blocks through the hinge pins, and the connecting lugs form a clamping structure with the connecting clamping blocks through bolts and clamping nuts.

As a preferable aspect of the keel structure of the invention, wherein: the lifting frame comprises a lifting screw rod, a lifting knob, a threaded slider, a sliding guide block, a sliding guide groove, a connecting support rod and a lifting support block, the lifting screw rod penetrates through the lifting frame, the top end of the lifting screw rod is fixedly connected with the lifting knob, the outer wall of the lifting screw rod is in threaded connection with the threaded slider, the outer wall of the threaded slider is fixedly connected with the sliding guide block, the sliding guide groove is formed in the connecting position of the sliding guide block and the lifting frame, the edge of the bottom of the threaded slider is fixedly connected with the connecting support rod, and the bottom of the connecting support rod extends to the lifting support block fixedly connected with the lower part of the main keel.

As a preferable aspect of the keel structure of the present invention, wherein: the axis of lifting screw rod coincides with the axis of lifting frame mutually, the slip guide block is provided with two sets ofly, and is two sets of the slip guide block symmetry sets up in lifting screw rod both sides.

As a preferable aspect of the keel structure of the present invention, wherein: the sliding guide block forms a sliding structure with the sliding guide groove through the lifting screw rod and the threaded sliding block, the connecting resisting rods are provided with two groups, and the lifting resisting blocks form a lifting structure with the lifting frame through the threaded sliding block and the connecting resisting rods.

As a preferable aspect of the keel structure of the present invention, wherein: adjusting frame includes adjusting screw, adjust knob, adjust the slider, connects connecting rod, flexible low post, flexible spout and connecting plate, the adjusting frame outer wall is provided with adjusting screw, adjusting screw bottom fixed connection adjust knob, adjusting screw outer wall threaded connection and adjusting frame outer wall sliding connection's adjust the slider, the adjust the slider lateral wall rotates and is connected with the connection connecting rod, connect connecting rod one end and rotate the flexible low post of connecting with stull fossil fragments inner wall sliding connection, flexible spout has been seted up with the position of being connected of stull fossil fragments to flexible low post, flexible low post one end fixed connection and positioning fixture block outer wall fixed connection's connecting plate.

As a preferable aspect of the keel structure of the present invention, wherein: the threaded sliding blocks and the adjusting frame form a sliding structure through the adjusting screw rods, the connecting rods are provided with two groups, and the position relation of the two groups of connecting rods is symmetrical about the adjusting sliding blocks.

As a preferable aspect of the keel structure of the present invention, wherein: the telescopic low column forms a sliding structure through the adjusting slide block, the connecting rod and the telescopic sliding groove, the cross section of the positioning fixture block is in a shape like a Chinese character 'shan', and the positioning fixture block forms a telescopic structure through the telescopic low column, the connecting plate and the cross-brace keel.

The invention has the beneficial effects that: (1) According to the invention, the connecting clamping block and the connecting lug are arranged, an installer rotates the rotating block to enable the rotating block to be clamped with the positioning clamping groove on the outer wall of the connecting lug, then the installer rotates the clamping nut to enable the clamping nut to drive the connecting lug and the connecting clamping block to move relatively, the connecting lug moves to drive the main keel and the secondary keel to be tightly attached, the main keel and the secondary keel are fastened and connected, the main keel and the secondary keel are prevented from falling off, and meanwhile, the distance between the secondary keels on the ground with different areas can be adjusted.

(2) The main keel mounting device can avoid the problem that the main keel is unstable in mounting due to the fact that the cushion block is easy to separate from the main keel when the main keel is required to be adjusted in the process of mounting on the ground with different heights.

Drawings

Fig. 1 is a schematic view of an overall first perspective structure according to the present invention.

Fig. 2 is a schematic overall second-view structural diagram of the present invention.

Fig. 3 is a schematic view of the whole structure of the present invention.

Fig. 4 is a schematic view of the connection structure of the main keel and the secondary keel according to the invention.

Fig. 5 is a schematic sectional view showing the connection between the main runner and the cross runners in the present invention.

Fig. 6 is a schematic view of a connection structure of the secondary keel and the cross-brace keel of the invention.

Fig. 7 is a schematic view of a connection sectional structure of the cross keel and the wale keel.

FIG. 8 is a cross-sectional structural view of the lifting frame of the present invention.

In the figure: 100 main keel, 200 block subassembly, 300 clamping component, 2 cushion blocks, 3 secondary keels, 4 connecting clamping grooves, 5 connecting clamping blocks, 6 pin shafts, 7 rotating blocks, 8 bolts, 9 connecting lugs, 10 positioning clamping grooves, 11 clamping nuts, 12 lifting frames, 1201 lifting screws, 1202 lifting knobs, 1203 threaded sliding blocks, 1204 sliding guide blocks, 1205 sliding guide grooves, 1206 connecting support rods, 1207 lifting support blocks, 13 positioning clamping blocks, 14 cross bracing keels, 15 adjusting frames, 1501 adjusting screws, 1502 adjusting knobs, 1503 adjusting sliding blocks, 1504 connecting rods, 1505 telescopic low columns, 1506 telescopic sliding chutes and 1507 connecting plates.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

Example 1

A first embodiment of the present invention provides a keel structure, an octagonal main keel 100, and a snap assembly 200 and a clamp assembly 300 disposed on the exterior of the main keel 100.

Referring to fig. 1 to 5, the engaging assembly 200 includes a cushion block 2, a secondary keel 3, a connecting slot 4 and a connecting block 5, the cushion block 2 is fixedly connected to the bottom of the main keel 100, the secondary keel 3 is disposed at the top end of the main keel 100, the connecting slot 4 is disposed inside the secondary keel 3, and the outer wall of the connecting slot 4 is slidably connected to the connecting block 5 embedded in the outer wall of the main keel 100. The connecting clamping block 5 is embedded with the connecting clamping groove 4 in the secondary keel 3, and the fixing operation of the connecting clamping block 5 is realized.

Clamping assembly 300 includes round pin axle 6, rotatory piece 7, bolt 8, engaging lug 9, positioning groove 10 and clamping nut 11, 5 bottoms of connecting fixture block are run through there is round pin axle 6, 6 outer walls of round pin axle rotate and are connected rotatory piece 7, 7 bottoms of rotatory piece fixed connection bolts 8, 8 outsides of bolts are provided with the engaging lug 9 with 100 outer wall fixed connection of main joist, positioning groove 10 has been seted up with the position of being connected of bolt 8 to engaging lug 9, 8 outer wall threaded connection clamping nut 11 of bolt. The clamping nut 11 is rotated, so that the clamping nut 11 drives the connecting lug 9 to move relative to the connecting clamping block 5, the connecting lug 9 moves to drive the main keel 100 to be tightly attached to the secondary keel 3, and the fastening connection operation of the main keel 100 and the secondary keel 3 is realized.

Example 2

The present embodiment is based on the previous embodiment, and is different from the previous embodiment in that the present embodiment provides a connection structure of the cross runners 3 and the cross-brace runners 14, specifically.

Referring to fig. 5 and 6, the lifting frame 12 is fixedly connected inside the main keel 100, one side of the outer wall of the connecting clamping groove 4, which is located on the connecting clamping block 5, is slidably connected with a positioning clamping block 13, one side of the positioning clamping block 13 is provided with a cross-brace keel 14, and the bottom of the cross-brace keel 14 is fixedly connected with an adjusting frame 15. The control operation of the connection of the secondary keel 3 and the cross-brace keel 14 is facilitated.

Example 3

The present embodiment is based on the previous embodiment, and is different from the previous embodiment in that the present embodiment provides a cross-sectional structure of the main keel 100, specifically.

Referring to fig. 5 and 6, the cross section of the main keel 100 is i-shaped, and the connecting block 5 forms an embedded structure with the secondary keel 3 through the connecting slot 4. The connection clamping block 5 and the connection clamping groove 4 in the secondary keel 3 are embedded, the connection clamping block 5 is fixed, and the I-shaped main keel 100 is arranged, so that the compression resistance of the main keel 100 is improved.

Example 4

The present embodiment is based on the previous embodiment, and is different from the previous embodiment in that the present embodiment provides a clamping structure of the engaging lug 9 and the engaging latch 5.

Referring to fig. 5 and 6, two sets of pin shafts 6 are provided, the two sets of pin shafts 6 are symmetrically arranged on two sides of the main keel 100, the connecting fixture block 5 is hinged to the rotating block 7 through the pin shaft 6, and the connecting lug 9 forms a clamping structure with the connecting fixture block 5 through the bolt 8 and the clamping nut 11. The clamping nut 11 is rotated, so that the clamping nut 11 drives the connecting lug 9 and the connecting clamping block 5 to move relatively, the connecting lug 9 moves to drive the main keel 100 to be tightly attached to the secondary keel 3, and the fastening connection operation of the main keel 100 and the secondary keel 3 is realized.

Example 5

The present embodiment is based on the previous embodiment, and is different from the previous embodiment in that the present embodiment provides an internal lifting structure of the lifting frame 12, specifically.

Referring to fig. 5 and 6, the lifting frame 12 includes a lifting screw 1201, a lifting knob 1202, a threaded slider 1203, a sliding guide block 1204, a sliding guide groove 1205, a connecting resisting rod 1206 and a lifting resisting block 1207, the lifting screw 1201 penetrates through the lifting frame 12, the top end of the lifting screw 1201 is fixedly connected to the lifting knob 1202, the outer wall of the lifting screw 1201 is in threaded connection with the threaded slider 1203, the outer wall of the threaded slider 1203 is fixedly connected to the sliding guide block 1204, the sliding guide groove 1205 is formed at the connecting portion of the sliding guide block 1204 and the lifting frame 12, the edge of the bottom of the threaded slider 1203 is fixedly connected to the connecting resisting rod 1206, and the bottom of the connecting resisting rod 1206 extends to the lower portion of the main keel 100 and is fixedly connected to the lifting resisting block 1207.

The lifting screw 1201 rotates the threaded slider 1203 to slide along the inner wall of the lifting frame 12, the threaded slider 1203 slides to drive the two sets of sliding guide blocks 1204 to slide synchronously, so that the threaded slider 1203 slides to drive the sliding guide blocks 1204 to slide along the outer wall of the sliding guide groove 1205, and then the threaded slider 1203 slides to drive the lifting support block 1207 connected to the bottom end of the support rod 1206 to vertically slide along the outer wall of the lifting frame 12, and the height of the main keel 100 is adjusted.

Example 6

The present embodiment is based on the previous embodiment, and is different from the previous embodiment in that the present embodiment provides a structure in which the sliding guide block 1204 slides along the sliding guide groove 1205.

Referring to fig. 5 and 6, a central axis of the lifting screw 1201 coincides with a central axis of the lifting frame 12, two sets of the sliding guide blocks 1204 are provided, and the two sets of the sliding guide blocks 1204 are symmetrically disposed on two sides of the lifting screw 1201. The lifting screw 1201 rotates the threaded slider 1203 to slide along the inner wall of the lifting frame 12, and the threaded slider 1203 slides to drive the two sets of sliding guide blocks 1204 to synchronously slide, so that the control operation of synchronous sliding of the two sets of sliding guide blocks 1204 is realized.

Example 7

The present embodiment is based on the previous embodiment, and is different from the previous embodiment in that the present embodiment provides a lifting structure of the lifting stop 1207.

Referring to fig. 5 and 6, the sliding guide block 1204 forms a sliding structure with the sliding guide slot 1205 through the lifting screw 1201 and the threaded slider 1203, the connecting rods 1206 are provided with two sets, and the lifting support block 1207 forms a lifting structure with the lifting frame 12 through the threaded slider 1203 and the connecting rods 1206. When the screw slider 1203 slides, the sliding guide block 1204 is driven to slide along the outer wall of the sliding guide groove 1205, so that the screw slider 1203 slides to drive the lifting support block 1207 connected to the bottom end of the support rod 1206 to vertically slide along the outer wall of the lifting frame 12, and the height of the main keel 100 is adjusted.

Example 8

The present embodiment is based on the previous embodiment, and is different from the previous embodiment in that the present embodiment provides an internal adjustment structure of the adjustment frame 15, specifically.

Referring to fig. 5 and 6, the adjusting frame 15 includes an adjusting screw 1501, an adjusting knob 1502, an adjusting slider 1503, a connecting link 1504, a telescopic low column 1505, a telescopic chute 1506 and a connecting plate 1507, the adjusting screw 1501 is disposed on the outer wall of the adjusting frame 15, the adjusting knob 1502 is fixedly connected to the bottom of the adjusting screw 1501, the adjusting slider 1503 slidably connected to the outer wall of the adjusting frame 15 is screwed to the outer wall of the adjusting screw 1501, the connecting link 1504 is rotatably connected to the side wall of the adjusting slider 1503, the telescopic low column 1505 slidably connected to the inner wall of the cross-brace keel 14 is rotatably connected to one end of the connecting link 1504, the telescopic chute 1506 is disposed at the connecting portion between the telescopic low column 1505 and the cross-brace keel 14, and the connecting plate 1507 fixedly connected to the outer wall of the positioning fixture block 13 is fixedly connected to one end of the telescopic low column 1505.

Adjusting screw 1501 rotates and drives adjusting block 1503 to slide along adjusting frame 15 outer wall, adjusting block 1503 slides and drives two sets of connecting links 1504 synchronous motion, so that adjusting block 1503 slides and drives flexible low post 1505 through connecting link 1504 and slide along the inside flexible spout 1506 of stull fossil fragments 14, flexible low post 1505 slides and drives location fixture block 13 and stull fossil fragments 14 relative slip with connecting plate 1507 fixed connection, realize the quick fixed operation to stull fossil fragments 14 and secondary keel 3, and through the slip length of the flexible low post 1505 of control, be convenient for adjust the interval between two sets of secondary keels 3.

Example 9

The present embodiment is based on the previous embodiment, and is different from the previous embodiment in that the present embodiment provides a sliding structure of the threaded slider 1203, specifically.

Referring to fig. 5 and 6, the threaded slider 1203 forms a sliding structure with the adjusting frame 15 through the adjusting screw 1501, and the two sets of connecting links 1504 are provided, and the positional relationship of the two sets of connecting links 1504 is symmetrical with respect to the adjusting slider 1503. The adjusting screw 1501 rotates to drive the adjusting slider 1503 to slide along the outer wall of the adjusting frame 15, and the adjusting slider 1503 slides to drive the two groups of connecting rods 1504 to move synchronously, so that the control operation of the synchronous movement of the two groups of connecting rods 1504 is realized.

Example 10

The present embodiment is based on the previous embodiment, and is different from the previous embodiment in that the present embodiment provides a telescopic structure of the positioning fixture block 13 and the cross-brace keel 14, specifically.

Referring to fig. 5 and 6, the telescopic low column 1505 forms a sliding structure with the telescopic sliding chute 1506 through the adjusting slider 1503 and the connecting rod 1504, the cross section of the positioning fixture block 13 is in a chevron shape, and the positioning fixture block 13 forms a telescopic structure with the cross arm keel 14 through the telescopic low column 1505 and the connecting plate 1507. Adjusting slide block 1503 slides and drives telescopic low column 1505 to slide along telescopic chute 1506 inside cross-brace keel 14 through connecting rod 1504, and telescopic low column 1505 slides and drives positioning fixture block 13 fixedly connected with connecting plate 1507 and cross-brace keel 14 to slide relatively, so that rapid fixing operation of cross-brace keel 14 and cross-brace keel 3 is realized.

The working principle is as follows: at first, be connected the operation to main joist 100 and secondary joist 3, installer will connect fixture block 5 and put into the inside connecting slot 4 of secondary joist 3, then installer rotates rotatory piece 7, so that rotatory piece 7 and the 10 looks block of positioning slot of engaging lug 9 outer walls, then installer rotates clamping nut 11, so that clamping nut 11 drives engaging lug 9 and is connected fixture block 5 relative motion, engaging lug 9 moves and drives main joist 100 and secondary joist 3 and closely laminate, the realization is to main joist 100 and secondary joist 3 fastening connection operation.

Then, be connected stull fossil fragments 14 and secondary keel 3, the installer puts into the secondary keel 3 positioning fixture block 13, then, the installer rotates adjust knob 1502, adjust knob 1502 rotates and drives adjusting screw 1501 to rotate, adjusting screw 1501 rotates and drives adjusting block 1503 to slide along the 15 outer walls of adjusting frame, adjusting block 1503 slides and drives two sets of connecting link 1504 synchronous motion, so that adjusting block 1503 slides and drives flexible low post 1505 through connecting link 1504 and slide along the inside flexible spout 1506 of stull fossil fragments 14, flexible low post 1505 slides and drives positioning fixture block 13 and stull fossil fragments 14 relative slip with connecting plate 1507 fixed connection, realize the quick fixed operation to stull fossil fragments 14 and secondary keel 3, and through the slip length of control flexible low post 1505, be convenient for adjust the interval between two sets of secondary keel 3.

Finally, the height of the main keel 100 is adjusted, the installer rotates the lifting knob 1202, the lifting knob 1202 rotates to drive the lifting screw 1201 to rotate, the lifting screw 1201 rotates the threaded slider 1203 to slide along the inner wall of the lifting frame 12, the threaded slider 1203 slides to drive the two sets of sliding guide blocks 1204 to slide synchronously, so that the threaded slider 1203 slides to drive the sliding guide blocks 1204 to slide along the outer wall of the sliding guide groove 1205, and then the threaded slider 1203 slides to drive the lifting support block 1207 connected to the bottom end of the support rod 1206 to vertically slide along the outer wall of the lifting frame 12, and the height of the main keel 100 is adjusted.

Claims (10)

1. A keel structure, which is characterized in that: comprises that

The main keel (100) and a clamping component (200) and a clamping component (300) which are arranged outside the main keel (100);

the clamping component (200) comprises a cushion block (2), a secondary keel (3), a connecting clamping groove (4) and a connecting clamping block (5), the cushion block (2) is fixedly connected to the bottom of the main keel (100), the secondary keel (3) is arranged at the top end of the main keel (100), the connecting clamping groove (4) is formed in the secondary keel (3), and the outer wall of the connecting clamping groove (4) is connected with the connecting clamping block (5) which is embedded with the outer wall of the main keel (100) in a sliding mode;

clamping assembly (300) is including round pin axle (6), rotatory piece (7), bolt (8), engaging lug (9), positioning channel groove (10) and clamping nut (11), it has round pin axle (6) to run through to connect fixture block (5) bottom, round pin axle (6) outer wall rotates connects rotatory piece (7), rotatory piece (7) bottom fixed connection bolt (8), bolt (8) outside be provided with main joist (100) outer wall fixed connection's engaging lug (9), positioning channel groove (10) have been seted up with the junction position of bolt (8) to engaging lug (9), bolt (8) outer wall threaded connection clamping nut (11).

2. The keel structure of claim 1, wherein: inside fixed connection lifting frame (12) of main joist (100), connecting slot (4) outer wall is located one side sliding connection location fixture block (13) of connecting fixture block (5), one side of location fixture block (13) is provided with stull fossil fragments (14), stull fossil fragments (14) bottom fixed connection adjusting frame (15).

3. The keel structure of claim 1, wherein: the cross section of the main keel (100) is I-shaped, and the connecting clamping block (5) and the secondary keel (3) form an embedded structure through the connecting clamping groove (4).

4. The keel structure of claim 1, wherein: the hinge pin (6) is provided with two sets, the hinge pins (6) are symmetrically arranged on two sides of the main keel (100), the connecting clamping block (5) is hinged to the rotating block (7) through the hinge pins (6), and the connecting lug (9) forms a clamping structure with the connecting clamping block (5) through a bolt (8) and a clamping nut (11).

5. The keel structure of claim 2, wherein: the lifting frame (12) comprises a lifting screw (1201), a lifting knob (1202), a threaded sliding block (1203), a sliding guide block (1204), a sliding guide groove (1205), a connecting abutting rod (1206) and a lifting abutting block (1207), wherein the lifting screw (1201) penetrates through the lifting frame (12), the top end of the lifting screw (1201) is fixedly connected with the lifting knob (1202), the outer wall of the lifting screw (1201) is in threaded connection with the threaded sliding block (1203), the outer wall of the threaded sliding block (1203) is fixedly connected with the sliding guide block (1204), the sliding guide groove (1205) is formed in the connecting part of the sliding guide block (1204) and the lifting frame (12), the bottom edge of the threaded sliding block (1203) is fixedly connected with the abutting rod (1206), and the bottom of the connecting abutting rod (1206) extends to the lifting abutting block (1207) fixedly connected with the lower part of the main keel (100).

6. The keel structure of claim 5, wherein: the central axis of the lifting screw rod (1201) coincides with the central axis of the lifting frame (12), the sliding guide blocks (1204) are provided with two groups, and the two groups of sliding guide blocks (1204) are symmetrically arranged on two sides of the lifting screw rod (1201).

7. The keel structure of claim 5, wherein: the sliding guide block (1204) forms a sliding structure with the sliding guide groove (1205) through the lifting screw rod (1201) and the threaded sliding block (1203), the connecting abutting rods (1206) are provided with two groups, and the lifting abutting block (1207) forms a lifting structure with the lifting frame (12) through the threaded sliding block (1203) and the connecting abutting rods (1206).

8. The keel structure of claim 2, wherein: adjusting frame (15) include adjusting screw (1501), adjust knob (1502), adjust slider (1503), connecting rod (1504), flexible low post (1505), flexible spout (1506) and connecting plate (1507), adjusting frame (15) outer wall is provided with adjusting screw (1501), adjusting screw (1501) bottom fixed connection adjust knob (1502), adjusting screw (1501) outer wall threaded connection and adjusting frame (15) outer wall sliding connection's adjusting slider (1503), adjust slider (1503) lateral wall and rotate and be connected with connecting rod (1504), connecting rod (1504) one end is rotated and is connected with flexible low post (1505) with stull fossil fragments (14) inner wall sliding connection, flexible spout (1506) has been seted up with the junction of stull fossil fragments (1505) to flexible low post (1504) one end fixed connection and connecting plate (1507) of location fixture block (13) outer wall fixed connection.

9. The keel structure of claim 8, wherein: the threaded sliding block (1203) and the adjusting frame (15) form a sliding structure through an adjusting screw rod (1501), two groups of connecting links (1504) are arranged, and the position relationship of the two groups of connecting links (1504) is symmetrical about the adjusting sliding block (1503).

10. The keel structure of claim 8, wherein: the telescopic low column (1505) forms a sliding structure through the adjusting slide block (1503) and the connecting rod (1504) and the telescopic sliding chute (1506), the cross section of the positioning clamping block (13) is in a Chinese character 'shan', and the positioning clamping block (13) forms a telescopic structure through the telescopic low column (1505), the connecting plate (1507) and the cross-brace keel (14).

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