CN109737272B - Winding type thermal insulation material construction device and method - Google Patents

Abstract

The invention provides a winding type heat insulation material construction device and a method, wherein the construction device comprises: the rotary supporting platform is used for placing an inverted piece to be insulated and drives the piece to be insulated to rotate; and the position adjusting winding mechanism is arranged on one side of the rotary supporting platform and is used for bearing the winding type heat-insulating material and driving the bearing winding type heat-insulating material to move to a preset position. According to the invention, the purpose of wrapping the wound heat-insulating material on the outer wall of the piece to be heat-insulated can be realized through the position adjusting winding mechanism and the rotary supporting platform, the whole process does not need manual participation, the labor force is saved, meanwhile, when the heat-insulating construction is carried out on the higher position of the piece to be heat-insulated, a scaffold does not need to be erected, a large amount of time is saved, the working efficiency is effectively improved, and in addition, the safety is higher because manual operation is not needed.

Description

Winding type thermal insulation material construction device and method

Technical Field

The invention relates to the technical field of heat insulation material construction, in particular to a winding type heat insulation material construction device and method.

Background

Storage devices, such as storage tanks, usually require an insulation material to be wrapped on the outer surface of the inner cylinder to insulate the substance stored therein, and the insulation material is generally classified into block-shaped insulation material and polyurethane foam insulation material. At present, when carrying out massive formula insulation material construction to the inner tube, the manual work usually goes on, and along with the gradual increase of height, need set up the scaffold frame by the inner tube, and the staff carries out various operations after climbing the scaffold frame again. However, both manual operation and scaffold erection need to consume a large amount of time, can seriously influence the efficiency of construction, and simultaneously, if the scaffold is lapped insecure, still can threaten constructor's life safety, and cubic heat preservation seam is many, and calorific loss is big, and especially to the equipment influence that specific surface is big more obvious.

Disclosure of Invention

In view of the above, the invention provides a winding type thermal insulation material construction device and method, and aims to solve the problem that the working efficiency is low when block type thermal insulation material construction is carried out on a thermal insulation piece at present.

In one aspect, the present invention provides a wound insulation material construction apparatus, including: the rotary supporting platform is used for placing an inverted piece to be insulated and drives the piece to be insulated to rotate; and the position adjusting winding mechanism is arranged on one side of the rotary supporting platform and is used for bearing the winding type heat-insulating material and driving the bearing winding type heat-insulating material to move to a preset position.

Further, among the above-mentioned wound form insulation material application device, the rotary support platform includes: a rotating shaft; the supporting platform is connected with the rotating shaft, and the rotating shaft drives the supporting platform to rotate; enclose the fender, enclose the fender and enclose the surface of locating the brace table along the circumference of brace table to prevent to treat that the heat preservation piece accident is emptyd.

Further, among the above-mentioned wound form insulation material application apparatus, the rotary support platform still includes: and the first ball screw mechanism is connected with the supporting table and drives the supporting table to move up and down along the direction of the rotation axis of the supporting table.

Further, among the above-mentioned wound form insulation material application apparatus, the rotary support platform still includes: the sucker support is arranged in the enclosure and used for sucking an upper end enclosure of the piece to be insulated so as to prevent the piece to be insulated from toppling over.

Further, among the above-mentioned wound form insulation material application apparatus, position control winding mechanism includes: a support mechanism; the loading disc is connected with the supporting mechanism in a sliding mode, can slide along the direction of the rotating axis of the rotating supporting platform and can be fixed when the loading disc slides to the preset height.

Further, among the above-mentioned wound form insulation material application device, the supporting mechanism includes: the upright post is provided with a concave part along the direction of the rotation axis of the rotary supporting platform; and the second ball screw mechanism is arranged in the concave part, and the loading disc is connected with the second ball screw mechanism.

Further, among the above-mentioned wound form insulation material application apparatus, position control winding mechanism still includes: the bottom of the supporting mechanism is connected with the sliding rail in a sliding mode, and the supporting mechanism can slide along the sliding rail to be close to or far away from the piece to be insulated.

Further, among the above-mentioned wound form insulation material application apparatus, still include: and the lifting appliance is used for lifting the to-be-insulated piece and the to-be-assembled piece to a preset station.

Further, among the above-mentioned wound form insulation material application device, the hoist includes: the device comprises a rotary supporting platform, a turnover telescopic sucker lifting appliance, a lifting appliance and a lifting appliance, wherein the rotary supporting platform is used for supporting a part to be insulated; and the crown block claw type lifting appliance is used for grabbing the lower end socket heat insulation material of the piece to be heat insulated.

According to the invention, the wound heat-insulating material is conveyed to the preset position through the position adjusting winding mechanism, so that the end part of the wound heat-insulating material is adhered to the outer wall of the piece to be heat-insulated, then the piece to be heat-insulated is driven to rotate together through the rotating supporting platform, the purpose of wrapping the wound heat-insulating material on the outer wall of the piece to be heat-insulated can be realized, the wound heat-insulating material is cut off by a cutter when rotating to a circle, if the designed thickness is thicker, the second layer needs to be wound again, and the like until the thickness meets the design requirement. Whole process need not artifical the participation, has saved the labour, simultaneously, when treating the higher position of heat preservation piece and keeping warm the construction, also need not to set up the scaffold frame, has saved a large amount of time, has improved work efficiency effectively to, because the winding formula insulation material construction equipment that this embodiment provided can be automatically treated the heat preservation piece and twine, need not manual operation, have higher security.

On the other hand, the invention also provides a construction method of the winding type heat insulation material, which comprises the following steps: adjusting the winding type heat insulation material to a preset position to enable the winding type heat insulation material to be adhered to the outer wall of the inverted piece to be heat insulated; and rotating the to-be-insulated member, and winding the wound heat-insulating material to the outer wall of the to-be-insulated member according to the preset heat-insulating thickness.

Further, in the above method for constructing a wound insulation material, adjusting the wound insulation material to a predetermined position includes: adjusting the wound heat-insulating material to a preset height; and (3) enabling the winding type heat insulation material to be close to the piece to be insulated so as to enable the winding type heat insulation material to be adhered to the outer wall of the piece to be insulated.

Further, in the above method for constructing a winding type thermal insulation material, before adjusting the winding type thermal insulation material to a preset position, the method further comprises: and adsorbing the upper end enclosure of the piece to be insulated so as to fix the piece to be insulated.

Further, in the above method for constructing a wound thermal insulation material, after the wound thermal insulation material is wound around the outer wall of the member to be insulated, the method further comprises: and (4) attaching the lower end enclosure heat insulation material to the lower end enclosure of the piece to be heat insulated.

Further, in the above winding type heat insulating material construction method, after the lower head heat insulating material is attached to the lower head of the member to be heat insulated, the method further comprises: and sleeving the outer layer of the piece to be insulated outside the piece to be insulated.

According to the invention, the winding type heat insulation material is conveyed to the preset position through the position adjusting winding mechanism, so that the end part of the winding type heat insulation material is adhered to the outer wall of the piece to be heat insulated, then the heat insulation piece is driven to rotate together through the rotating supporting platform, the purpose of wrapping the winding type heat insulation material on the outer wall of the piece to be heat insulated can be realized, the winding type heat insulation material is cut off by the cutter when the rotating ring is carried out, if the designed thickness is thicker, the second layer needs to be wound, and the like, until the thickness meets. Whole process need not artifical the participation, the labour has been saved, and simultaneously, when treating the higher position of heat preservation piece and keeping warm the construction, also need not to set up the scaffold frame, a large amount of time has been saved, work efficiency has been improved effectively, and, because the winding type insulation material construction equipment that this embodiment provided can treat the heat preservation piece automatically and twine, need not manual operation, higher security has, simultaneously because insulation material adopts the disc, insulation material's utilization ratio is higher, the material is ready easily, more accord with the needs of assembly line production.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to refer to like parts throughout the drawings. In the drawings:

fig. 1 is a schematic perspective view of a winding type thermal insulation material construction device according to an embodiment of the present invention;

FIG. 2 is a front view of a winding type thermal insulation material construction apparatus according to an embodiment of the present invention;

FIG. 3 is a top view of a wound insulation construction device according to an embodiment of the present invention;

FIG. 4 is a side view of a wound insulation construction device according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a supporting mechanism in the winding type thermal insulation material applying apparatus according to the embodiment of the present invention;

FIG. 6 is a flow chart of a method for constructing a wound thermal insulation material according to an embodiment of the present invention;

fig. 7 is a flowchart illustrating adjusting a wound insulation material to a predetermined position in the method for constructing a wound insulation material according to the embodiment of the present invention;

FIG. 8 is a flowchart of a method for constructing a wound thermal insulation material according to an embodiment of the present invention;

FIG. 9 is a flowchart of a method for constructing a wound thermal insulation material according to an embodiment of the present invention;

fig. 10 is another flowchart of a method for constructing a wound thermal insulation material according to an embodiment of the present invention.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art. It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

The embodiment of the construction device comprises:

referring to fig. 1, a preferred structure of the winding type thermal insulation material construction device provided in the present embodiment is shown. As shown in the drawing, the construction apparatus includes: a rotary support platform 1 and a position adjusting winding mechanism 2. Wherein, treat that the heat preservation is placed on rotary supporting platform 1 for handstand state, treat that the heat preservation can be the inner tube of storage tank. Bear position control winding mechanism 2 of wound form insulation material 3 and set up in one side of rotatory supporting platform 1, when parcel wound form insulation material 3, the tip of wound form insulation material 3 scribbles the binder, position control winding mechanism 2 is bearing the motion of wound form insulation material 3, and send wound form insulation material 3 to preset position, this preset position is the position of treating that the insulation part needs the parcel insulation material, and this preset position can make the tip adhesion of wound form insulation material 3 at the outer wall of treating the insulation part, then, rotatory supporting platform 1 drives and treats that the insulation part carries out 360 synchronous revolution, thereby wrap up wound form insulation material 3 at the outer wall of treating the insulation part. In specific implementation, the winding type heat insulation material 3 can be rock wool, glass fiber and other heat insulation materials with ends coated with bonding agents.

In this embodiment, send wound form insulation material 3 to preset position through position control winding mechanism 2, thereby make the tip adhesion of wound form insulation material 3 wait the outer wall of heat preservation piece, rethread rotary supporting platform 1 drives the heat preservation piece and rotates together, can realize wrapping up wound form insulation material 3 in the purpose of waiting the heat preservation piece outer wall, cut off by cutter (not shown in the figure) when turning to the round, if design thickness is thicker, then need twine the second layer again, so on and so on, satisfy the design requirement until thickness. Whole process need not artifical the participation, has saved the labour, simultaneously, when treating the higher position of heat preservation piece and keeping warm the construction, also need not to set up the scaffold frame, has saved a large amount of time, has improved work efficiency effectively to, because the winding formula insulation material construction equipment that this embodiment provided can be automatically treated the heat preservation piece and twine, need not manual operation, have higher security.

Referring to fig. 2 to 4, the rotary support platform 1 includes: a rotating shaft 11, a supporting platform 12 and a fence 13. Wherein, the rotating shaft 11 is connected with the bottom of the supporting platform 12, and the rotation of the rotating shaft 11 can drive the supporting platform 12 to rotate in the horizontal direction. Enclose fender 13 and enclose the upper surface of locating the supporter along brace table 12 circumference, the piece that waits to keep warm of handstand is placed in enclosing fender 13 to the realization is treated the firm of keeping warm, prevents to wait that the piece that keeps warm is unexpected to be emptyd. Enclose the internal diameter that keeps off 13 and wait that the external diameter of heat preservation piece suits, encloses that keep off 13 sews into 4, and it can follow the groove radial displacement above the brace table 12 to the size of heat preservation piece is treated in the adaptation, thereby prevents to treat that the heat preservation piece appears rocking in enclosing fender 13.

In the above embodiment, the rotary support platform 1 further includes: the first ball screw mechanism (not shown in the figure) connected to the supporting platform 12 can drive the supporting platform 12 to move along the direction of the rotation axis of the supporting platform 12, i.e. drive the supporting platform 12 to move up and down (relative to fig. 2), and when the piece to be heat-insulated is hung above the supporting platform 12, the first ball screw mechanism can drive the supporting platform 12 to move up and down, so as to adjust the supporting platform 12 to the optimal position for receiving the piece to be heat-insulated.

In the above embodiment, the rotary support platform 1 further includes: sucking disc holding tool 14, sucking disc holding tool 14 set up in enclosing fender 13, when treating that the heat preservation piece handstand is placed in enclosing fender 13, the upper cover entering of heat preservation piece encloses fender 13 in, sucking disc holding tool 14 can tightly hold the upper cover of treating the heat preservation piece to further guarantee the fixed of the position of treating the heat preservation piece, thereby guaranteed the accurate nature of subsequent winding formula insulation material 3 parcel. In a specific embodiment, the suction cup holder 14 is disposed at the center of the support base 12.

In the above embodiment, the position regulating winding mechanism 2 includes: a support mechanism 21 and a loading tray 22. The supporting mechanism 21 is vertically arranged, the loading tray 22 is slidably connected with the supporting mechanism 21, the loading tray 22 can slide along the direction of the rotation axis of the rotary supporting platform 1, namely, slide up and down along the height direction of the supporting mechanism 21, and when the loading tray 22 slides to a proper height, the fastening piece fixes the loading tray 22 to the height, so that the purpose of adjusting and fixing the loading tray 22 to the proper wrapping height is achieved.

Referring to fig. 5, the support mechanism 21 includes: a column 211 and a second ball screw mechanism 212. Wherein, the upright post 211 is provided with a recessed portion, and the recessed portion is disposed along the direction of the rotation axis of the support table 12, i.e., along the height direction of the upright post 211. The second ball screw mechanism 212 is fixed in the recessed portion, the loading tray 22 is connected to the second ball screw mechanism 212, and the loading tray 22 can be fixed at a predetermined height while being moved by the transmission of the second ball screw mechanism 212. Both the second ball screw mechanism 212 and the first ball screw mechanism may be driven by a servo motor.

In the above embodiment, the position-adjusting winding mechanism 2 further includes: the bottom of the supporting mechanism 21 is slidably connected to the sliding rail 213, that is, the bottom of the upright 211 is slidably connected to the sliding rail 213, and when the upright 211 slides along the sliding rail 213, the upright 211 can drive the wound thermal insulation material 3 on the loading tray 22 to approach or leave the to-be-insulated member.

When the position of the winding type heat insulation material 3 is adjusted, the winding type heat insulation material 3 can be driven to a proper height through the second ball screw mechanism 212, then the winding type heat insulation material 3 is driven to be close to the to-be-insulated piece through the sliding of the upright post 211 along the sliding rail 213, and the end part of the winding type heat insulation material 3 is adhered to the outer wall of the to-be-insulated piece. After the wrapping is completed, the winding type heat insulation material 3 is cut off, and the upright post 211 slides reversely along the slide rail 213 to drive the winding type heat insulation material 3 to be far away from the piece to be heat insulated.

In the foregoing embodiments, the method further includes: and the lifting appliance 4 is used for lifting the to-be-insulated piece and the to-be-assembled piece. Specifically, the spreader 4 includes: the reversible telescopic suction cup lifting appliance 41 and the crown block claw type lifting appliance 42 are used for lifting and placing the inverted piece to be insulated into the enclosure 13 by using the reversible telescopic suction cup lifting appliance 41. The to-be-assembled member includes: the outer package of the lower head heat-insulating material and the to-be-insulated piece, after the wrapping of the winding type heat-insulating material 3 on the outer wall of the to-be-insulated piece is completed, the crown block claw type lifting appliance 42 is used for grabbing the lower head heat-insulating material, for example, grabbing lower head rock wool, attaching the lower head rock wool to the lower head of the to-be-insulated piece, and then the outer package of the to-be-insulated piece is sleeved outside the to-be-insulated piece through the reversible telescopic sucker lifting appliance 41.

Taking the inner cylinder of the storage tank as an example, the working process of the winding type thermal insulation material construction device provided by the embodiment is as follows:

the inverted inner cylinder is hung above the support table 12 by the reversible telescopic suction cup hanger 41, the servo motor drives the first ball screw to drive the support table 12 to adjust the position, so that the support table 12 can just receive the inverted inner cylinder, the inverted inner cylinder is slowly placed in the enclosure 13 of the support table 12, the suction cup holder 14 sucks the upper end socket of the inner cylinder, and the suction cup holder 14 firmly fixes the inverted inner cylinder. When the outer wall of inner tube needs parcel rock wool, the second ball screw mechanism 212 motion of servo motor drive position control winding mechanism 2, send the reel formula rock wool in the dish 22 of loading to required high department, then, stand 211 begins to slide along slide rail 213, the dish 22 of loading that will load reel formula rock wool is close to the outer wall of inner tube, the rock wool that the tip scribbled the binder is on attached to the outer wall of inner tube, rotary support platform 1 begins to rotate this moment, and drive the inner tube together rotatory, and simultaneously, the dish 22 of loading drives the rock wool up-and-down motion, thereby wrap up in the one deck rock wool at the outer wall of inner tube. Then, the crane jaw type lifting appliance 42 takes the rock wool of the lower end enclosure, the jaw of the crane jaw type lifting appliance 42 is used for grabbing the rock wool, and the rock wool is attached to the upper surface of the lower end enclosure of the inner cylinder, so that the inner cylinder is wrapped by the heat insulation material. Finally, the reversible telescopic suction cup hanger 41 slowly wraps the outer package of the inner cylinder outside the inner cylinder.

To sum up, in this embodiment, send wound form insulation material 3 to preset position through position control winding mechanism 2, thereby make the tip adhesion of wound form insulation material 3 treat the outer wall of heat preservation piece, rethread rotary supporting platform 1 drives the heat preservation piece and rotates together, can realize wrapping up wound form insulation material 3 in the purpose of treating the heat preservation piece outer wall, whole process need not artifical the participation, the labour has been saved, and simultaneously, when treating the higher position of heat preservation piece and carrying out the heat preservation construction, also need not to set up the scaffold frame, a large amount of time has been saved, and the work efficiency is effectively improved, and, because the wound form insulation material construction device that this embodiment provided can treat the heat preservation piece automatically and twine, need not manual operation, has higher security.

The construction method comprises the following steps:

referring to fig. 6, fig. 6 is a flowchart of a method for constructing a winding type thermal insulation material according to the embodiment; as shown in the figure, the construction method comprises the following steps:

and step S610, adjusting the winding type heat insulation material to a preset position, so that the winding type heat insulation material is adhered to the outer wall of the inverted piece to be heat insulated.

Specifically, the wound thermal insulation material 3 may be constructed using the wound thermal insulation material construction apparatus provided in the embodiment of the construction apparatus. The tip of wound form insulation material 3 scribbles the binder, and position control winding mechanism 2 is bearing the motion of wound form insulation material 3 to send wound form insulation material 3 to preset position, this preset position is the position of treating that the heat preservation piece needs the parcel insulation material, and should preset the position and can make the tip adhesion of wound form insulation material 3 wait to keep warm the outer wall of piece.

And S620, rotating the to-be-insulated piece, and winding the wound heat-insulating material to the outer wall of the to-be-insulated piece according to the preset heat-insulating thickness.

Specifically, the rotary supporting platform 1 drives the to-be-insulated member to rotate synchronously by 360 degrees, so that the wound heat-insulating material 3 is wrapped on the outer wall of the to-be-insulated member. When the roller rotates to one circle, the roller is cut off by a cutter (not shown in the figure), if the design thickness is thicker, a second layer needs to be wound, and the like until the thickness meets the design requirement.

It should be noted that, the specific structure and implementation of the winding type thermal insulation material construction device may refer to the content of the construction device embodiment, and the description of this embodiment is not repeated herein.

It can be seen that, in this embodiment, send wound form insulation material to preset position through position control winding mechanism, thereby make wound form insulation material's tip adhesion treat the outer wall of heat preservation piece, rethread rotary supporting platform drives the heat preservation piece and rotates together, can realize wrapping up wound form insulation material in the purpose of treating the heat preservation piece outer wall, whole process need not artifical the participation, the labour is saved, and simultaneously, when treating the higher position of heat preservation piece and carrying out the heat preservation construction, also need not to set up the scaffold frame, a large amount of time has been saved, the work efficiency is effectively improved, and, because the wound form insulation material construction equipment that this embodiment provided can treat the heat preservation piece automatically and twine, need not manual operation, has higher security.

Referring to fig. 7, fig. 7 is a flowchart illustrating adjusting the winding type thermal insulation material to a predetermined position in the winding type thermal insulation material construction method provided in this embodiment. As shown in the figure, adjusting the wound insulation material to a predetermined position includes the steps of:

step S710, adjusting the wound thermal insulation material to a predetermined height.

Specifically, the loading tray 22 can be slid up and down and fixed at a certain height by the transmission of the second ball screw mechanism 212.

And S720, enabling the winding type heat insulation material to be close to the piece to be heat insulated so that the winding type heat insulation material is adhered to the outer wall of the piece to be heat insulated.

Specifically, the upright post 211 slides along the slide rail 213 toward the to-be-insulated member, and drives the wound insulation material 3 on the loading tray 22 to approach the to-be-insulated member until the end of the wound insulation material coated with the adhesive adheres to the outer wall of the to-be-insulated member.

It can be seen that, in this embodiment, the height of the loading disc can be adjusted by the second ball screw mechanism, and the loading disc can be adjusted by the slide rail to the horizontal position, so that the wound thermal insulation material can be accurately located at the construction height, and the end portion of the wound thermal insulation material can be adhered to the outer wall of the to-be-insulated member.

Referring to fig. 8, fig. 8 is another flowchart of the method for constructing a winding type thermal insulation material according to the embodiment; as shown in the figure, the construction method comprises the following steps:

and step S810, adsorbing the upper end enclosure of the piece to be insulated so as to fix the piece to be insulated.

Specifically, the reversible telescopic suction cup hanger 41 lifts the inverted to-be-insulated piece above the support table 12, and the first ball screw mechanism can drive the support table 12 to move up and down, so as to adjust the support table 12 to the optimal position for receiving the to-be-insulated piece. Then, the reversible telescopic sucking disc lifting appliance 41 lifts the to-be-insulated piece into the enclosure 13, and the sucking disc support 14 tightly sucks the upper end enclosure of the to-be-insulated piece so as to ensure the fixation of the position of the to-be-insulated piece.

Step S820, adjusting the winding type heat insulation material to a preset position, and enabling the winding type heat insulation material to be adhered to the outer wall of the inverted piece to be heat insulated.

Step S830, the piece to be insulated is rotated, and the wound insulation material is wound on the outer wall of the piece to be insulated.

It can be seen that, in this embodiment, before adjusting the position of wound form insulation material, will wait that the heat preservation puts to the station at first and fix it, makes it also keep the fixed state at the in-process that wound form insulation material wrapped up to the accuracy of wound form insulation material parcel has been guaranteed.

Referring to fig. 9, fig. 8 is another flowchart of the method for constructing a winding type thermal insulation material according to the embodiment; as shown in the figure, the construction method comprises the following steps:

step S910, adsorbing the upper end enclosure of the piece to be insulated so as to fix the piece to be insulated.

And step S920, adjusting the winding type heat insulation material to a preset position, so that the winding type heat insulation material is adhered to the outer wall of the inverted piece to be heat insulated.

Step S930, the to-be-insulated piece is rotated, and the wound heat-insulating material is wound on the outer wall of the to-be-insulated piece.

And S940, adhering the lower end enclosure heat insulation material to a lower end enclosure of the piece to be heat insulated.

Specifically, the crane claw type hanger 42 grabs the low head heat insulating material, for example, grabs the low head rock wool, and attaches the low head rock wool to the low head of the to-be-heat-insulated member.

It can be seen that, in this embodiment, after finishing the parcel of the insulation material of the outer wall of the piece of treating the heat preservation, the lower head of the piece of treating the insulation material carries out the laminating of insulation material again, can further guarantee the heat preservation effect of the piece of treating the heat preservation.

Referring to fig. 10, fig. 10 is another flowchart of the method for constructing a winding type thermal insulation material according to the embodiment; as shown in the figure, the construction method comprises the following steps:

and step S1010, adsorbing the upper end enclosure of the piece to be insulated so as to fix the piece to be insulated.

And step S1020, adjusting the winding type heat insulation material to a preset position, so that the winding type heat insulation material is adhered to the outer wall of the inverted piece to be heat insulated.

And step S1030, rotating the to-be-insulated member, and winding the wound heat-insulating material to the outer wall of the to-be-insulated member.

And step S1040, adhering the lower end enclosure heat insulation material to a lower end enclosure of the piece to be heat insulated.

And step S1050, sleeving the outer layer of the piece to be insulated outside the piece to be insulated.

Specifically, the reversible telescopic suction cup hanger 41 covers the outer layer of the to-be-insulated member outside the to-be-insulated member.

In this embodiment, after the heat-insulating material of the lower end enclosure of the to-be-heat-insulated piece is attached, the outer casing is sleeved outside the to-be-heat-insulated piece, so that the problem that the heat-insulating material is exposed and easily damaged can be solved.

To sum up, in this embodiment, send wound form insulation material to preset position through position control winding mechanism, thereby make wound form insulation material's tip adhesion treat the outer wall of heat preservation piece, rethread rotary supporting platform drives the heat preservation piece and rotates together, can realize wrapping up wound form insulation material in the purpose of treating the heat preservation piece outer wall, whole process need not artifical the participation, the labour is saved, and simultaneously, when treating the higher position of heat preservation piece and carrying out the heat preservation construction, also need not to set up the scaffold frame, a large amount of time has been saved, the work efficiency is effectively improved, and, because the wound form insulation material construction device that this embodiment provided can treat the heat preservation piece automatically and twine, need not manual operation, has higher security. The method is different from the traditional heat preservation mode of the heat preservation block, has better heat preservation effect due to the reduction of seams, and simultaneously reduces the labor.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (12)

1. The utility model provides a wound form insulation material construction equipment which characterized in that includes:

the rotary supporting platform (1) is used for placing an inverted piece to be insulated on the rotary supporting platform (1), and the rotary supporting platform (1) drives the piece to be insulated to rotate;

the position adjusting winding mechanism (2) is arranged on one side of the rotary supporting platform (1) and is used for bearing the winding type heat insulation material (3) and driving the bearing winding type heat insulation material (3) to move to a preset position;

the lifting appliance (4) is used for lifting the piece to be insulated to a preset station;

wherein,

the spreader (4) comprises:

the part to be insulated is hoisted to the rotary supporting platform (1), and a reversible telescopic sucker hoisting tool (41) is sheathed outside the part to be insulated;

and the crown block claw type lifting appliance (42) is used for grabbing the lower end socket heat insulation material of the piece to be heat insulated.

2. The wound insulation construction device according to claim 1, wherein the rotary support platform (1) comprises:

a rotating shaft (11);

the supporting table (12), the supporting table (12) is connected with the rotating shaft (11), and the rotating shaft (11) drives the supporting table (12) to rotate;

the enclosure (13) is arranged on the surface of the support platform (12) along the circumference of the support platform (12).

3. The wound insulation construction device according to claim 2, wherein the rotary support platform (1) further comprises:

the first ball screw mechanism is connected with the supporting table (12) and drives the supporting table (12) to move up and down along the direction of the rotation axis of the supporting table (12).

4. The wound insulation construction device according to claim 2, wherein the rotary support platform (1) further comprises:

the sucker support (14), the sucker support (14) is arranged in the enclosure (13) and is used for sucking the upper end socket of the piece to be insulated so as to prevent the piece to be insulated from toppling over.

5. The winding type thermal insulation material construction device according to claim 1, wherein the position adjusting winding mechanism (2) comprises:

a support mechanism (21);

a loading disc (22), wherein the loading disc (22) is connected with the supporting mechanism (21) in a sliding mode, and the loading disc (22) can slide along the direction of the rotation axis of the rotary supporting platform (1) and can be fixed when the loading disc slides to the preset height.

6. The wound insulation construction device according to claim 5, wherein the support mechanism (21) comprises:

the upright post (211) is provided with a concave part along the direction of the rotation axis of the rotary supporting platform (1);

and a second ball screw mechanism (212), wherein the second ball screw mechanism (212) is disposed in the recessed portion, and the loading tray (22) is connected to the second ball screw mechanism (212).

7. The winding type thermal insulation material construction device according to claim 5, wherein the position adjusting winding mechanism (2) further comprises:

the bottom of the supporting mechanism (21) is connected with the sliding rail (213) in a sliding mode, and the supporting mechanism (21) can slide along the sliding rail (213) to be close to or far away from the piece to be insulated.

8. A winding type heat insulating material construction method using the winding type heat insulating material construction device according to any one of claims 1 to 7, characterized by comprising the steps of:

adjusting the winding type heat insulation material to a preset position, so that the winding type heat insulation material is adhered to the outer wall of the inverted piece to be heat insulated;

and rotating the to-be-insulated piece, wherein the wound heat-insulating material is wound to the outer wall of the to-be-insulated piece in multiple layers according to the preset heat-insulating thickness.

9. The method of claim 8, wherein the adjusting the insulation material to a predetermined position comprises:

adjusting the wound heat-insulating material to a preset height;

and enabling the winding type heat insulation material to be close to the piece to be insulated so that the winding type heat insulation material is adhered to the outer wall of the piece to be insulated.

10. The method of claim 8, further comprising, before adjusting the insulation material to a predetermined position:

and adsorbing the upper end enclosure of the piece to be insulated so as to fix the piece to be insulated.

11. The method for constructing the winding type heat insulation material according to claim 8, further comprising the following steps after the winding type heat insulation material is wound on the outer wall of the member to be heat insulated:

and attaching the lower end enclosure heat insulation material to the lower end enclosure of the piece to be heat insulated.

12. The winding type heat insulation material construction method according to claim 11, wherein after the adhering of the heat insulation material of the lower end socket to the lower end socket of the member to be heat insulated, the method further comprises the following steps:

and sleeving the outer layer of the piece to be insulated outside the piece to be insulated.

Images