CN112046812B

CN112046812B - Steel pipe anticorrosion heat preservation device

Info

Publication number: CN112046812B
Application number: CN202010804838.1A
Authority: CN
Inventors: 闻国平
Original assignee: Xinghua Tiandong Software Technology Co ltd
Current assignee: Shandong Yangxin Ocean Stainless Steel Products Co.,Ltd.
Priority date: 2020-08-12
Filing date: 2020-08-12
Publication date: 2021-05-18
Anticipated expiration: 2040-08-12
Also published as: CN112046812A

Abstract

The invention relates to a steel pipe corrosion-resistant heat-insulating device, which comprises a base platform, wherein two fixed blocks are arranged at the top end of the base platform, a plunger is fixedly arranged on the inner side of one fixed block, a nut block is arranged on one side of the other fixed block, and the inner side of the nut block is provided with a screw valve, the screw valve is connected with the plunger through a speed reducing cord, one side of the top end of the base station is fixedly provided with a side plate, and a sliding guide rail is fixedly arranged in the middle of the side plate, a fixed slotted square sleeve is fixedly arranged on the side plate above the sliding guide rail, a sliding rod is arranged on the inner side of the fixed slotted square sleeve, the sliding rod is connected with the fixed slotted square sleeve in a sliding way, the two ends of the sliding rod are provided with connecting blocks, and an accelerating cord is arranged between the connecting line blocks, a sliding block is arranged on the sliding guide rail and is in sliding connection with the fixed slotted square sleeve, and an accelerating disc is arranged on one side of the sliding block. In the process of rotating the screw valve, the screw valve tightens the speed reducing rope to increase the tension of the screw valve.

Description

Steel pipe anticorrosion heat preservation device

Technical Field

The invention relates to the technical field of steel pipe treatment, in particular to a steel pipe anticorrosion and heat preservation device.

Background

With the development of industrial technologies, modern mechanical industrial technologies are developed more and more, and then high and new technology fields of modern industries are developed vigorously, so that the precision requirement of hardware equipment used in the high and new technology fields is very high, parts of the equipment need to be packaged very precisely between delivery and transportation, and high-precision parts shake during transportation, so that the precise parts are damaged after being collided, and the steel tube deforms after being collided, so that the deformation amplitude of the steel tube is very small, and the deformation degree cannot be observed by naked eyes, but actually the steel tube deforms to the rejection standard, which brings certain economic loss;

if dust or sand wind residues are contained on the high-precision slotted rigid pipe between sealing and storage, the high-precision slotted rigid pipe is easy to damage during transportation, particularly if the residues contain moisture, the residues or the slotted rigid pipe form numerous primary cells, corrosion of the high-precision slotted rigid pipe is accelerated, and temperature change also has an influence on the high-precision slotted rigid pipe.

Disclosure of Invention

Based on this, it is necessary to provide a steel pipe corrosion-resistant heat-insulating device, when the device is used, firstly, a steel pipe to be stored is placed between two arc-shaped pieces of a clamping assembly, then two output ends of a double-head cylinder shrink, so that the arc-shaped pieces clamp the slotted steel pipe, a feeding cylinder pushes an accelerating disc to move, the accelerating disc moves on a sliding rod through a sliding block at the moment, the accelerating disc drives a cotton rope to link when moving, so that the moving speed of the sliding rod is slower than that of the accelerating disc and the decelerating disc block, so that the decelerating plate is slower than that of the accelerating plate, at the moment, an air machine drags a hose to inflate a high-pressure air injection pipe, air of the high-pressure air injection pipe is diffused outwards from an opening, so that impurities on the inner wall of the slotted steel pipe can be cleaned, and the movement of the slotted steel pipe is coupled with a connecting bridge and the high-pressure air injection pipe, so that the deten, the cleaning is more sufficient, the function of automatically cleaning impurities is realized, and the long-time transportation is facilitated.

In order to solve the problems, the invention provides a steel pipe anticorrosion and thermal insulation device, which comprises a base station, wherein two fixed blocks are arranged at the top end of the base station, a plunger is fixedly arranged at the inner side of one fixed block, a nut block is arranged at one side of the other fixed block, a screw valve is arranged at the inner side of the nut block, the screw valve is connected with the plunger through a speed reducing cord, a side plate is fixedly arranged at one side of the top end of the base station, a sliding guide rail is fixedly arranged in the middle of the side plate, a fixed grooved square sleeve is fixedly arranged on the side plate above the sliding guide rail, a sliding rod is arranged at the inner side of the fixed grooved square sleeve and is in sliding connection with the fixed grooved square sleeve, connecting blocks are arranged at two ends of the sliding rod, an accelerating cord is arranged between the connecting blocks, a sliding block is arranged on the sliding guide rail, and an accelerating disc is arranged on one side of the sliding block.

Further, one side of dish with higher speed is provided with the round bar, and installs first bearing on the round bar, the inner ring and the round bar fixed connection of first bearing, and the outer loop and the sliding block fixed connection of first bearing, the material feeding cylinder is installed on the top of base station, sliding block and material feeding cylinder's output fixed connection.

Furthermore, a speed reducing disc is arranged on the other side of the accelerating disc, a second bearing is installed on one side of the speed reducing disc, the speed reducing rope is wound on the outer side of the speed reducing disc, and the accelerating rope is wound on the outer side of the accelerating disc.

Further, first carrier block is installed to one side of second bearing, and one side of first carrier block be provided with second bearing assorted round bar, the outer loop and the speed reduction dish fixed connection of second bearing, the inner ring and the first carrier block fixed connection of second bearing, the square bar is installed on the top of base station, and the top fixed connection of connecting block and base station is passed through at the both ends of square bar, slides one side fixed mounting of pole and has the second carrier block.

Further, one side fixed mounting of first carrier block has the speed reduction board, and one side fixed mounting of second carrier block has the accelerating plate, buckle the bridge is installed to one side of speed reduction board, and buckles the top of bridge and install the jet-propelled pipe of high pressure, and one side fixed mounting of base station has the air machine, and the output of air machine installs the dragging hose, the one end and the jet-propelled pipe switch-on of high pressure of dragging hose, the jet-propelled outside of pipe of high pressure all is provided with the aperture.

Further, one side fixed mounting of base station has the fixed station, and the top of fixed station is installed and is turned round the revolving rack, the inboard of turning round the revolving rack is provided with turns round the groove, and turns round one side in groove and install and turn round the board, turn round the board and all install the centre gripping subassembly with one side of accelerating plate, and turn round one side of board and install two and twist reverse the slide bar, twist reverse the slide bar and alternate in the inboard of turning round the groove, twist reverse the slide bar and twist reverse groove sliding connection, twist reverse one side of slide bar and install spacing limit, and the opposite side of turning round the board in the laminating of spacing limit, one side on spacing limit is provided with the catch bar.

Further, the centre gripping subassembly includes double-end cylinder, the supporting rod of buckling is all installed to two output ends of double-end cylinder, and buckles the one end of supporting rod and install the arc piece, and the fluting steel pipe is installed to the inboard of board one side centre gripping subassembly with higher speed.

Further, the toothed disc is installed to one side of fixed station, and one side of toothed disc installs gear motor, gear motor's output is installed reduction gear, and reduction gear and toothed disc intermeshing, the toothed disc is articulated through connecting bridge and fixed station, and one side of toothed disc is provided with notch frame, and the catch bar alternates in the inboard of notch frame.

Further, one side fixed mounting of base station has two fixed guide, and installs first slider on the fixed guide, first slider and fixed guide sliding connection, the top fixed mounting of first slider has the motion board, and the circular arc limit is installed on the top of motion board, and the top of insulation can all be provided with the cavity, the top of cavity is provided with the circular arc limit.

Further, one side of the fixed guide rail is fixedly provided with a stepping motor, the output end of the stepping motor is provided with a stepping gear, a moving plate on one side of the stepping gear is fixedly provided with a rack, and the stepping gear and the rack are meshed with each other.

The invention has the beneficial effects that:

firstly, when the device is used, a slotted rigid pipe to be stored is placed between two arc-shaped sheets of a clamping assembly, then two output ends of a double-head cylinder shrink, the slotted steel pipe can be clamped by the arc-shaped sheets, a feeding cylinder pushes an accelerating disc to move, the accelerating disc can move on a sliding rod through a sliding block at the moment, the accelerating disc drives a cotton rope to link when moving, the moving speed of the sliding rod is slower than that of the accelerating disc and a decelerating disc block, the decelerating plate is slower than that of the accelerating plate, an air machine inflates a high-pressure air injection pipe through a dragging hose at the moment, air of the high-pressure air injection pipe can be dispersed outwards from an opening, impurities on the inner wall of the slotted steel pipe can be cleaned, and the movement of the slotted steel pipe is coupled with a connecting bridge and the high-pressure air injection pipe, so that the high-pressure air injection pipe stays on the inner side of the slotted, the cleaning is more sufficient, the function of automatically cleaning impurities is realized, and the long-time transportation is facilitated.

Secondly, when the slotted steel pipe arrived the fixed station and twisted a side, the slotted steel pipe can be followed the centre gripping subassembly on the board with higher speed and delivered to the centre gripping subassembly of twisting a side, then gear motor drives the gear through reduction gear and rotates, the gear passes through notch frame and drives the board that twists reverse and slide in the groove, the position is set up until twisting the board tree, then the centre gripping subassembly loosens the slotted steel pipe, the slotted steel pipe can fall into inside the cavity so, step motor drives step gear rotatory, step gear drives rack and insulation can step by step and impels, the function of automatic charging has been realized, the manpower is saved, and work efficiency is still improved.

Drawings

Fig. 1 is a schematic perspective view of a steel pipe corrosion prevention and heat preservation device according to an embodiment.

Fig. 2 is a perspective view of another view of the steel pipe corrosion-prevention and heat-preservation device.

Fig. 3 is a schematic perspective view of a fixed guide rail of the steel pipe corrosion-resistant heat-preservation device.

FIG. 4 is a schematic sectional perspective view of the steel pipe corrosion prevention and heat preservation device.

Fig. 5 is a perspective view of the steel pipe corrosion-prevention and heat-preservation device from another cross-sectional view.

FIG. 6 is a perspective view of a second perspective view of the steel pipe corrosion-prevention and heat-preservation device.

FIG. 7 is a third perspective view of the steel pipe corrosion-resistant heat-preserving device.

Fig. 8 is a perspective view of the steel pipe anticorrosion insulation device twisting frame.

FIG. 9 is a schematic side view of the steel pipe anticorrosion insulation device torsion stand.

FIG. 10 is a perspective view of a clamping assembly of the steel pipe corrosion prevention and heat preservation device.

Wherein: 1-base station, 2-fixed block, 3-fixed station, 301-connecting bridge, 4-fixed guide rail, 5-air machine, 6-dragging hose, 7-bending bridge, 8-high pressure jet pipe, 9-speed reducing plate, 10-accelerating plate, 11-side plate, 12-heat preservation box, 1201-concave cavity, 1202-arc edge, 1203-moving plate, 13-stepping motor, 14-stepping gear, 15-rack, 16-feeding cylinder, 17-fixed slotted square sleeve, 18-sliding guide rail, 19-first slide block, 20-torsion frame, 2001-gear disc, 2002-slotted frame, 2003-speed reducing motor, 2004-speed reducing gear, 2005-torsion plate, 2006-torsion groove, 2007-torsion sliding rod, 2008-limiting edge, 2009-pushing rod, 21-sliding rod, 22-connecting block, 2201-accelerating wire rope, 23-sliding block, 24-slotted steel pipe, 25-square rod, 26-connecting block, 27-nut block, 28-screw valve, 29-accelerating disc, 2901-round rod, 2902-first bearing, 30-clamping component, 3001-double-head cylinder, 3002-bending clamping rod, 3003-arc piece, 31-decelerating disc, 32-second bearing, 33-first bearing block, 34-second bearing block, 35-plunger and 3501-decelerating wire rope.

Detailed Description

According to the drawings of fig. 1 to 10, the invention provides a steel pipe corrosion-resistant heat-preservation device, which comprises a base 1, wherein two fixed blocks 2 are installed at the top end of the base 1, a plunger 35 is fixedly installed at the inner side of one fixed block 2, a nut block 27 is arranged at one side of the other fixed block 2, a screw valve 28 is installed at the inner side of the nut block 27, the screw valve 28 and the plunger 35 are connected through a speed-reducing rope 3501, a side plate 11 is fixedly installed at one side of the top end of the base 1, a sliding guide rail 18 is fixedly installed in the middle of the side plate 11, a fixed grooved square sleeve 17 is fixedly installed on the side plate 11 above the sliding guide rail 18, a sliding rod 21 is installed at the inner side of the fixed grooved square sleeve 17, the sliding rod 21 is in sliding connection with the fixed grooved square sleeve 17, connecting blocks 22 are installed at two ends of the sliding rod, the sliding guide rail 18 is provided with a sliding block 23, the sliding block 23 is connected with the fixed grooved square sleeve 17 in a sliding manner, one side of the sliding block 23 is provided with an accelerating disc 29, when the deceleration rope 3501 needs to be screwed, the screw valve 28 is rotated, so that the tension between the screw valve 28 and the plunger 35 is increased, and the sliding block 23 and the sliding rod 21 respectively slide on the sliding guide rail 18 and the grooved square sleeve 17.

One side of the acceleration disk 29 is provided with a round rod 2901, the round rod 2901 is provided with a first bearing 2902, the inner ring of the first bearing 2902 is fixedly connected with the round rod 2901, the outer ring of the first bearing 2902 is fixedly connected with a sliding block 23, the top end of the base platform 1 is provided with a feeding cylinder 16, the sliding block 23 is fixedly connected with the output end of the feeding cylinder 16, the acceleration disk 29 is fixedly connected with the sliding block 23 through the round rod 2901 and the first bearing 2902, the moving speed of the acceleration disk 29 is smaller than that of the sliding rod 21, and the feeding cylinder 16 is a power source for pushing the sliding block 23 to move.

The other side of the acceleration disk 29 is provided with a deceleration disk 31, one side of the deceleration disk 31 is provided with a second bearing 32, the deceleration wire 3501 is wound on the outer side of the deceleration disk 31, the acceleration wire 2201 is wound on the outer side of the acceleration disk 29, the acceleration disk 29 and the deceleration disk 31 are linked with the slide rod 21 through the acceleration wire 2201 and the deceleration wire 3501, and the slide rod 21 has an acceleration effect relative to the acceleration disk 29 and the deceleration disk 31.

First bearing block 33 is installed to one side of second bearing 32, and one side of first bearing block 33 is provided with the round bar with second bearing 32 assorted, the outer loop and the speed reduction dish 31 fixed connection of second bearing 32, the inner loop and the first bearing block 33 fixed connection of second bearing 32, square bar 25 is installed on the top of base station 1, and the top fixed connection of connecting block 26 and base station 1 is passed through at the both ends of square bar 25, and one side fixed mounting of slide bar 21 has second bearing block 34, and acceleration disk 29 and speed reduction dish 31 are when removing, and first bearing block 33 can remove at square bar 25, and acceleration disk 29 and speed reduction dish 31 are also rotatory round first bearing block 33 simultaneously.

One side of the first bearing block 33 is fixedly provided with a speed reducing plate 9, one side of the second bearing block 34 is fixedly provided with an accelerating plate 10, one side of the speed reducing plate 9 is provided with a bent bridge 7, the top end of the bent bridge 7 is provided with a high-pressure air jet pipe 8, one side of the base station 1 is fixedly provided with an air machine 5, the output end of the air machine 5 is provided with a dragging hose 6, one end of the dragging hose 6 is communicated with the high-pressure air jet pipe 8, the outer side of the high-pressure air jet pipe 8 is provided with small holes, the first bearing block 33 is fixedly connected with the accelerating disc 29 and the speed reducing disc 31, the second bearing block 34 is fixedly connected with the sliding rod 21, the first bearing block 33 is connected with the speed reducing plate 9, the second bearing block 34 is connected with the accelerating plate 10, the speed of the speed reducing plate 9 is lower than that of the accelerating plate 10, and the.

The fixing table 3 is fixedly installed on one side of the base table 1, the torsion frame 20 is installed at the top end of the fixing table 3, a torsion groove 2006 is formed in the inner side of the torsion frame 20, a torsion plate 2005 is installed on one side of the torsion groove 2006, the clamping assembly 30 is installed on each of the torsion plate 2005 and one side of the acceleration plate 10, two torsion sliding rods 2007 are installed on one side of the torsion plate 2005, the torsion sliding rods 2007 penetrate through the inner side of the torsion groove 2006, the torsion sliding rods 2007 are connected with the torsion groove 2006 in a sliding mode, a limiting edge 2008 is installed on one side of the torsion sliding rods 2007, the limiting edge 2008 is attached to the other side of the torsion plate 2005, a pushing rod 2009 is arranged on one side of the limiting edge 2008, when the torsion sliding rods 2007 slide in the torsion groove 2006, the torsion plate 2005 can be changed into a vertical state by a horizontal device, and the clamping assembly 30 synchronously moves along with the torsion plate.

Clamping assembly 30 includes double-end cylinder 3001, the supporting rod 3002 of buckling is all installed to two outputs of double-end cylinder 3001, and buckles the one end of supporting rod 3002 and install arc piece 3003, and slotted steel pipe 24 is installed to the inboard of accelerating plate 10 one side clamping assembly 30, puts into between two arc pieces 3003 of clamping assembly 30 to the rigid pipe 24 of slotting of waiting to deposit, then two outputs of double-end cylinder 3001 shrink, so arc piece 3003 can carry slotted steel pipe 24.

A gear plate 2001 is installed at one side of the fixed table 3, a reduction motor 2003 is installed at one side of the gear plate 2001, a reduction gear 2004 is installed at an output end of the reduction motor 2003, the reduction gear 2004 and the gear plate 2001 are engaged with each other, the gear plate 2001 is hinged to the fixed table 3 through a connecting bridge 301, a notch frame 2002 is arranged at one side of the gear plate 2001, a push rod 2009 is inserted into the inner side of the notch frame 2002, the reduction gear 2004 drives the gear plate 2001 to rotate through the reduction gear 2004, and the gear plate 2001 pushes the torsion plate 2005 to operate through the notch frame 2002 and the push rod 2009 until the torsion plate 2005 is erected.

Two fixed guide rails 4 are fixedly mounted on one side of the base platform 1, a first sliding block 19 is mounted on each fixed guide rail 4, the first sliding block 19 is connected with the fixed guide rails 4 in a sliding mode, a moving plate 1203 is fixedly mounted at the top end of the first sliding block 19, an arc edge 1202 is mounted at the top end of the moving plate 1203, cavities 1201 are formed in the top end of the heat preservation box 12, the arc edge 1202 is arranged at the top end of each cavity 1201, after the torsion plate 2005 is erected, the slotted rigid tube 24 is loosened by the clamping assembly 30, the slotted rigid tube 24 falls back to the interior of each cavity 1201, and then the heat preservation box 12 is pushed forward at one step through the first sliding block 19 on the guide.

One side of the fixed guide rail 4 is fixedly provided with a stepping motor 13, the output end of the stepping motor 13 is provided with a stepping gear 14, a moving plate 1203 on one side of the stepping gear 14 is fixedly provided with a rack 15, the stepping gear 14 and the rack 15 are mutually meshed, and the stepping motor 13 drives the incubator 12 to advance through the stepping gear 14 and the rack 15, so that the function of automatic filling is realized.

Finally, when the deceleration wire 3501 needs to be tightened, the screw valve 28 is rotated, the tension between the screw valve 28 and the plunger 35 becomes larger, the sliding block 23 and the sliding rod 21 respectively slide on the sliding guide 18 and the grooved square sleeve 17, the acceleration disk 29 is fixedly connected with the sliding block 23 through the round rod 2901 and the first bearing 2902, the moving speed of the acceleration disk 29 is smaller than that of the sliding rod 21, the feeding cylinder 16 is a power source for pushing the sliding block 23 to move, the acceleration disk 29 and the deceleration disk 31 are linked with the sliding rod 21 through the acceleration wire 2201 and the deceleration wire 3501, the sliding rod 21 has an acceleration effect relative to the acceleration disk 29 and the deceleration disk 31, the first bearing block 33 moves on the square rod 25 while the acceleration disk 29 and the deceleration disk 31 also rotate around the first bearing block 33 when the acceleration disk 29 and the deceleration disk 31 move, and the moving speed of the deceleration plate 9 is smaller than that of the acceleration plate 10, the decelerating plate 9 and the accelerating plate 10 form a coupling motion, when the twisting sliding rod 2007 slides in the twisting groove 2006, the twisting plate 2005 is changed into a vertical state by a horizontal device, the clamping assembly 30 moves synchronously along with the twisting plate 2005, the slotted steel tube 24 to be stored is placed between the two arc sheets 3003 of the clamping assembly 30, then the two output ends of the double-head air cylinder 3001 contract, the arc sheets 3003 clamp the slotted steel tube 24, the deceleration gear 2004 drives the gear disc 2001 to rotate through the deceleration gear 2004, the gear disc 2001 pushes the twisting plate 2005 to run through the slot frame 2002 and the pushing rod 2009 until the twisting plate 2005 is erected, after the twisting plate 2005 is erected, the clamping assembly 30 opens the slotted steel tube 24, the slotted steel tube 24 falls back to the inside of the cavity 1201, then the heat insulation box 12 is pushed by the first slide block 19 in one step at the guide rail 4, the stepping gear 14 and the rack 15 are meshed with each other, the step motor 13 drives the incubator 12 to advance through the step gear 14 and the rack 15, and the function of automatic filling is realized.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a steel pipe anticorrosion heat preservation device which characterized in that: including base station (1), two fixed blocks (2) are installed on the top of base station (1), and the inboard fixed mounting of a fixed block (2) has plunger (35), and one side of another fixed block (2) is provided with nut piece (27), and the inboard of nut piece (27) installs screw valve (28), connect through speed reduction cotton rope (3501) between screw valve (28) and plunger (35), one side fixed mounting on base station (1) top has curb plate (11), and the centre fixed mounting of curb plate (11) has sliding guide (18), fixed mounting has fixed fluting square cover (17) on curb plate (11) of sliding guide (18) top, slide bar (21) is installed to the inboard of fixed fluting square cover (17), and slide bar (21) and fixed fluting square cover (17) sliding connection, sliding bar (22) are installed to the both ends line of slide bar (21), an accelerating cord (2201) is arranged between the connecting blocks (22), a sliding block (23) is arranged on the sliding guide rail (18), the sliding block (23) is connected with the fixed slotted square sleeve (17) in a sliding manner, and an accelerating disc (29) is arranged on one side of the sliding block (23);

a round rod (2901) is arranged on one side of the accelerating disc (29), a first bearing (2902) is mounted on the round rod (2901), an inner ring of the first bearing (2902) is fixedly connected with the round rod (2901), an outer ring of the first bearing (2902) is fixedly connected with the sliding block (23), a feeding cylinder (16) is mounted at the top end of the base platform (1), and the sliding block (23) is fixedly connected with the output end of the feeding cylinder (16);

a speed reducing disc (31) is arranged on the other side of the accelerating disc (29), a second bearing (32) is arranged on one side of the speed reducing disc (31), the speed reducing wire rope (3501) is wound on the outer side of the speed reducing disc (31), and the accelerating cord (2201) is wound on the outer side of the accelerating disc (29); a first bearing block (33) is arranged on one side of the second bearing (32), a round rod matched with the second bearing (32) is arranged on one side of the first bearing block (33), an outer ring of the second bearing (32) is fixedly connected with the speed reducing disc (31), an inner ring of the second bearing (32) is fixedly connected with the first bearing block (33), a square rod (25) is installed at the top end of the base platform (1), two ends of the square rod (25) are fixedly connected with the top end of the base platform (1) through connecting blocks (26), and one side of the sliding rod (21) is fixedly provided with a second bearing block (34);

one side fixed mounting of first carrier block (33) has speed reduction plate (9), and one side fixed mounting of second carrier block (34) has accelerating plate (10), buckle bridging (7) are installed to one side of speed reduction plate (9), and buckle the top of bridging (7) and install high-pressure jet pipe (8), and one side fixed mounting of base station (1) has air machine (5), and the output of air machine (5) installs and drags hose (6), the one end and the high-pressure jet pipe (8) switch-on of dragging hose (6), the outside of high-pressure jet pipe (8) all is provided with the aperture.

2. The steel pipe corrosion-resistant heat-preservation device of claim 1, which is characterized in that: one side fixed mounting of base station (1) has fixed station (3), and the top of fixed station (3) installs and turn round frame (20), the inboard of turning round frame (20) is provided with and turns round groove (2006), and turns round one side of groove (2006) and install and turn round board (2005), the centre gripping subassembly (30) is all installed to one side of turning round board (2005) and accelerating plate (10), and turns round one side of board (2005) and install two torsion slide bar (2007), twists round the inboard of groove (2006) of alternate of slide bar (2007), twist round slide bar (2007) and twist round groove (2006) sliding connection, spacing limit (2008) are installed to one side of twisting slide bar (2007), and spacing limit (2008) laminating twists round the opposite side of board (2005), one side of spacing limit (2008) is provided with catch bar (2009).

3. The steel pipe corrosion-resistant heat-preservation device of claim 2, which is characterized in that: a gear disc (2001) is installed on one side of the fixing table (3), a speed reducing motor (2003) is installed on one side of the gear disc (2001), a speed reducing gear (2004) is installed at the output end of the speed reducing motor (2003), the speed reducing gear (2004) and the gear disc (2001) are meshed with each other, the gear disc (2001) is hinged to the fixing table (3) through a connecting bridge (301), a notch frame (2002) is arranged on one side of the gear disc (2001), and a push rod (2009) penetrates through the inner side of the notch frame (2002).

4. The steel pipe corrosion-resistant heat-preservation device of claim 1, which is characterized in that: one side fixed mounting of base station (1) has two fixed guide (4), and installs first slider (19) on fixed guide (4), first slider (19) and fixed guide (4) sliding connection, the top fixed mounting of first slider (19) has motion plate (1203), and circular arc limit (1202) are installed to the top of motion plate (1203), and the top of insulation can (12) all is provided with cavity (1201), the top of cavity (1201) is provided with circular arc limit (1202).

5. The steel pipe corrosion-prevention and heat-preservation device of claim 4, which is characterized in that: one side fixed mounting of fixed guide (4) has step motor (13), and step gear (14) are installed to the output of step motor (13), and fixed mounting has rack (15) on motion plate (1203) of step gear (14) one side, and step gear (14) and rack (15) intermeshing.