CN218378051U - Radial adjustable wall-through heat-insulation cover structure - Google Patents

Abstract

The utility model discloses a wall heat preservation cover structure is worn to radial adjustable aims at providing that the practicality is good, the installation is convenient radial adjustable wears wall heat preservation cover structure. Including wall body, pipeline and two bilateral symmetry's insulation cover, the insulation cover is the cover tubulose, the insulation cover includes dustcoat, heat preservation cover plate and adjusting part, the heat preservation cup joints on the lateral wall of pipeline, the dustcoat sets up the outside at the wall body, the heat preservation is connected with the dustcoat, adjusting part sets up the radial direction at the pipeline, adjusting part's side is connected with the dustcoat, adjusting part's bottom is connected with the heat preservation cover plate, the heat preservation cover plate cup joints with the lateral wall of heat preservation, adjusting part's top offsets with the wall body inside wall that the pipeline is relative and leans on. The beneficial effects of the utility model are that: the structure is simple, the applicability is good, and the purposes of good practicability and convenience in installation are achieved.

Description

Radial adjustable wall-penetrating heat-insulation cover structure

Technical Field

The utility model belongs to the technical field of the relevant technique of pipeline heat preservation and specifically relates to indicate a radial adjustable wears wall heat preservation cover structure.

Background

At present, enterprises in petroleum, chemical industry, natural gas and the like often need to transport liquid and gas fluids through pipelines, and the pipelines often need to penetrate through wall plates or floor slabs when being transported for long distance. Air-conditioning chilled water, refrigerant pipes, condenser pipes and pipelines required by freeze prevention and condensation prevention in the building field also need to penetrate through the wall boards or floor slabs. These pipelines are usually provided with thermal insulation materials attached to the pipelines, so that the temperature in the pipelines is maintained at the original temperature and is not changed due to the external environment. Due to the construction requirement, holes on the wall boards or floor slabs are usually reserved in advance, and the situation that the heat insulation material is not tightly coated or even falls off after the pipeline is used for a long time is considered because the pipeline is provided with the coating heat insulation material, the reserved holes are usually too large, so that the pipeline of the wall penetrating part is suspended, the heat insulation material is sleeved on the pipeline, and the heat insulation material is likely to lose from the pipeline part at the position.

Chinese patent publication no: CN203671041U, open day 2014 year 06 month 25, a simple structure, can effective heat retaining small-size wear wall pipeline safety cover is disclosed, including two cover each other close with the insulation cover of cladding pipeline, two covers locate on the pipeline and locate fixed disk, two safety covers that shroud two fixed disks of insulation cover both sides respectively, be equipped with the go-between to insulation cover one side on two fixed disks respectively, two go-between respectively with the both ends threaded connection of insulation cover and sink in among the wall body hole, the fixed disk passes through the bolt lock on the wall body, be equipped with ring groove on the circumference of fixed disk, each safety cover is formed by upper and lower two half cover connections respectively, be equipped with on each safety cover can with the ring groove joint's on each fixed disk ring groove.

The scheme has better heat preservation effect and longer service life, and the defects are as follows: the external fixing device is limited by the size of the hole and the texture of the wall, the external fixing device cannot be normally installed, the function of the external fixing device is infinitely reduced, and in the installation process, a fixing part is usually required to be installed on the surface of the wall in a punching mode, so that the installation is extremely inconvenient.

SUMMERY OF THE UTILITY MODEL

The utility model relates to a overcome among the prior art wear the wall to keep warm to cover the practicality poor, install inconvenient not enough, provide a practicality good, install convenient radial adjustable and wear wall to keep warm to cover the structure.

In order to realize the purpose, the utility model adopts the following technical scheme:

the utility model provides a radial adjustable wears wall heat preservation cover structure, includes wall body, pipeline and two bilateral symmetry's insulation cover, the insulation cover is the cover tubulose, the insulation cover includes dustcoat, heat preservation cover plate and adjusting part, the heat preservation cup joints on the lateral wall of pipeline, the dustcoat sets up the outside at the wall body, the heat preservation is connected with the dustcoat, adjusting part sets up the radial direction at the pipeline, adjusting part's side is connected with the dustcoat, adjusting part's bottom and heat preservation cover plate are connected, heat preservation cover plate cup joints with the lateral wall of heat preservation, adjusting part's top offsets with the wall body inside wall that the pipeline is relative and leans on.

The heat preservation cover is in a sleeve shape, the pipeline is convenient to wrap in an all-dimensional mode, the heat preservation covers are two, the heat preservation effect of the pipeline is convenient to install the heat preservation covers on two sides of the wall body, the heat preservation layers cover the outer side wall of the pipeline, the two heat preservation layers are tightly connected, the adjusting assembly is connected with the heat preservation cover plate, the heat preservation cover plate and the adjusting assembly are arranged in a hole between the wall body and the pipeline, the two heat preservation cover plates are connected in a matched mode, the heat preservation cover plate is connected with the heat preservation layers, the top end of the adjusting assembly abuts against the inner side wall of the wall body opposite to the pipeline, the adjusting assembly is adjusted according to the distance between the hole and the pipeline, the side end of the heat preservation cover plate, the side end of the adjusting assembly and the side edge of the heat preservation layer are connected with the outer cover, integral installation is completed, the heat preservation layer is used for heat preservation of the pipeline, the heat preservation cover plate is used for increasing the tightness of connection of the heat preservation layer and the pipeline, the adjusting assembly is matched with the heat preservation cover plate, radial adjustment assembly is adjusted according to the actual hole of the wall body, the hole is used for connection of all parts, the hole reservation, the outer wall body, the hole is smooth and the outer wall body, the outer wall body is convenient to install, the hole installation, the outer wall body is simple and the installation structure is achieved after the hole is installed, and the installation is simple installation.

Preferably, the outer axial end face of each heat-preserving cover plate is connected with the outer cover, a concave part is arranged on the inner axial end face of one heat-preserving cover plate, a convex part is arranged on the inner axial end face of the other heat-preserving cover plate, and the two heat-preserving cover plates are connected in a clamping manner. The concave part of the inner axial end face of one of the heat-insulation cover plates is in matched clamping connection with the convex part of the inner axial end face of the other heat-insulation cover plate, the tightness of connection of the two heat-insulation cover plates is increased, the protection strength of the heat-insulation cover plates to the heat-insulation layer is increased, the structure is simple, and the connection is simple and convenient.

Preferably, the adjusting component comprises a transverse rod, a sliding block and a longitudinal rod, the transverse rod is connected with the outer cover, the upper side and the lower side of the transverse rod are respectively connected with a supporting plate, the side end of each supporting plate is connected with the outer cover, the sliding block is arranged on the transverse rod and is in sliding connection with the transverse rod, the bottom end of the longitudinal rod is connected with a heat-insulating cover plate, and the top end of the longitudinal rod is abutted against the inner side wall of the wall body opposite to the pipeline after penetrating through the sliding block. The slider can freely slide on the horizontal pole, can drive the vertical pole when the slider is gliding and slide, and the adjusting part of being convenient for carries out the horizontal adjustment, can adjust the actual position of vertical pole according to the wall body thickness of difference, increases the suitability, and the backup pad with set up the upper and lower both sides at the horizontal pole for increase the intensity of horizontal pole, the holistic life of extension adjusting part.

As preferred, the top of vertical pole is connected with the fixing base, the top of fixing base is connected with the bolster, the bolster includes universal ball, mount pad and arc, universal ball includes seat end and bulb, seat end and mount pad threaded connection, the top of fixing base is equipped with the ball groove that matches with the bulb, the bulb is arranged in the ball inslot and is fixed connection with the fixing base, the medial surface and the arc fixed connection of arc are arranged in to the mount pad, the lateral surface and the wall body inside wall that the pipeline is relative of arc offset and lean on. Universal ball belongs to prior art, specific structure here is not repeated, universal ball divide into bulb and seat end, the bulb is arranged in the ball inslot of fixing base, fixed by the fixing base, universal ball's bulb is fixed, the ball of arranging the seat end in still can continue to be universal motion, the mount pad is connected with the seat end, adopt threaded connection to make things convenient for the dismantlement in later stage to change, universal motion is done under universal ball's effect to mount pad and arc, the arc is direct to lean on with the wall body, adaptable more irregular shape's hole, and the comparatively complicated condition of hole inner wall surface, increase whole practicality.

Preferably, the bottom of the fixing seat is connected with a fixing column, a column groove is formed in the top end of the longitudinal rod, the fixing column is arranged in the column groove, stop blocks are connected to two sides of the fixing column, a spring is sleeved on the outer side of the fixing column and arranged below the stop blocks, and one end, far away from the stop blocks, of the spring is connected with the column groove. The fixed column is arranged in the post groove and is connected with the vertical pole, and the spring between fixed column and the post groove is used for reducing the fixing base to and the universal ball in fixing base top and the arc are used for injecing the spring to the cushion effect of vertical pole, the life of extension vertical pole, the setting of dog is used for injecing the spring, and avoid the fixed column to break away from in the post groove, increase wholeness, simple structure.

Preferably, the heat-insulation cover plate comprises a heat-insulation cavity and a heat-insulation cavity, the heat-insulation cavity is arranged on the outer side of the heat-insulation cavity, the longitudinal rod is connected with the top of the heat-insulation cavity, the heat-insulation cavity and the heat-insulation cavity are connected into a whole, and heat-insulation materials are filled in the heat-insulation cavity. The heat preservation intracavity is filled with insulation material for further increase the thermal insulation performance of pipeline, insulation material adopt the common insulation material in market can, reduce cost expense, thermal-insulated chamber then is used for keeping warm thermal-insulated, avoids vertical pole and heat preservation chamber lug connection, prolongs the life of vertical pole.

The beneficial effects of the utility model are that: set up two cover tubulose insulation sleeves, can wear the wall to install simultaneously, reduce the engineering time, simple structure through setting up adjusting part, adaptable more irregular shape's hole to and the comparatively complicated condition in hole inner wall surface, the suitability is good, has reached the purpose that the practicality is good, the installation is convenient.

Drawings

FIG. 1 is a schematic view of the present invention;

FIG. 2 is a schematic perspective view of a part of the heat-insulating cover plate;

FIG. 3 is a schematic perspective view of the cross bar, the longitudinal bar and the slider;

FIG. 4 is a schematic view showing the internal structure of the vertical rod and the ball transfer unit;

fig. 5 is a perspective view of the curved plate.

In the figure: 1. wall, 2, thermal insulation sleeve, 3, pipeline, 4, outer cover, 5, thermal insulation layer, 6, thermal insulation cover plate, 61, thermal insulation cavity, 62, thermal insulation cavity, 63, concave part, 64, convex part, 7, adjusting component, 71, universal ball, 711, arc plate, 712, mounting seat, 713, seat end, 714, ball end, 72, longitudinal rod, 721, fixing seat, 722, ball groove, 723, fixing column, 724, stop, 725, column groove, 726, spring, 73, cross bar, 74, support plate, 75, slide block.

Detailed Description

The invention is further described with reference to the accompanying drawings and the detailed description.

As shown in fig. 1, a radial adjustable wear wall heat preservation cover structure, including wall body 1, pipeline 3 and two bilateral symmetry's insulation cover 2, insulation cover 2 is the sleeve pipe form, insulation cover 2 includes dustcoat 4, heat preservation 5, heat preservation cover plate 6 and adjusting part 7, heat preservation 5 cup joints on the lateral wall of pipeline 3, dustcoat 4 sets up the outside at wall body 1, heat preservation 5 is connected with dustcoat 4, adjusting part 7 sets up the radial direction at pipeline 3, adjusting part 7's side is connected with dustcoat 4, adjusting part 7's bottom is connected with heat preservation cover plate 6, heat preservation cover plate 6 cup joints with heat preservation 5's lateral wall, adjusting part 7's top offsets with 1 inside walls of the relative wall body of pipeline 3 and leans on.

As shown in fig. 2, the outer axial end face of the heat-insulating cover plate 6 is connected with the outer cover 4, the inner axial end face of one heat-insulating cover plate 6 is provided with a concave part 63, the inner axial end face of the other heat-insulating cover plate 6 is provided with a convex part 64, and the two heat-insulating cover plates 6 are jointed in a clamping manner.

As shown in fig. 3, the adjusting assembly 7 includes a cross bar 73, a slider 75 and a longitudinal bar 72, the cross bar 73 is connected with the outer cover 4, the upper and lower sides of the cross bar 73 are connected with support plates 74, the side ends of the support plates 74 are connected with the outer cover 4, the slider 75 is arranged on the cross bar 73 and is slidably connected with the cross bar 73, the bottom end of the longitudinal bar 72 is connected with the heat-insulating cover plate 6, and the top end of the longitudinal bar 72 abuts against the inner side wall of the wall 1 opposite to the pipeline 3 after passing through the slider 75.

As shown in fig. 4 and 5, the top end of the vertical rod 72 is connected with a fixed seat 721, a buffer is connected above the fixed seat 721, the buffer includes a universal ball 71, a mounting seat 712 and an arc-shaped plate 711, the universal ball 71 includes a seat end 713 and a ball end 714, the seat end 713 is in threaded connection with the mounting seat 712, a ball slot 722 matched with the ball end 714 is arranged at the top of the fixed seat 721, the ball end 714 is arranged in the ball slot 722 and is fixedly connected with the fixed seat 721, the mounting seat 712 is arranged on the inner side surface of the arc-shaped plate 711 and is fixedly connected with the arc-shaped plate 711, and the outer side surface of the arc-shaped plate 711 abuts against the inner side wall of the wall 1 opposite to the pipeline 3.

The bottom of the fixed seat 721 is connected with a fixed column 723, the top end of the vertical rod 72 is provided with a column groove 725, the fixed column 723 is arranged in the column groove 725, two sides of the fixed column 723 are connected with a stop 724, the outer side of the fixed column 723 is sleeved with a spring 726, the spring 726 is arranged below the stop 724, and one end, far away from the stop 724, of the spring 726 is connected with the column groove 725.

As shown in fig. 1, the heat-insulating cover plate 6 includes a heat-insulating chamber 61 and a heat-insulating chamber 62, the heat-insulating chamber 61 is disposed outside the heat-insulating chamber 62, the vertical rod 72 is connected to the top of the heat-insulating chamber 61, the heat-insulating chamber 61 is connected to the heat-insulating chamber 62 as a whole, and the heat-insulating chamber 62 is filled with heat-insulating material.

The two bilaterally symmetrical heat preservation sleeves 2 are in a sleeve shape, so that the pipeline 3 can be wrapped in an omnibearing manner conveniently, the two heat preservation sleeves 2 are convenient to install the heat preservation sleeves 2 on two sides of the wall body 1 at the same time, the heat preservation effect of the pipeline 3 is improved, the heat preservation layers 5 are covered on the outer side wall of the pipeline 3 and are tightly connected with each other, the universal ball 71 is connected with the installation seat 712 on the arc-shaped plate 711, then the universal ball 71 is connected with the fixed seat, after the longitudinal rod 72 is connected with the heat preservation cover plate 6, the heat preservation cover plate 6 and the adjusting component 7 are arranged in a hole between the wall body 1 and the pipeline 3, the sliding block 75 can freely slide on the transverse rod 73, the longitudinal rod 72 can be driven to slide when the sliding block 75 slides, and the heat preservation sleeves can be wrapped on the pipeline according to different thicknesses of the wall body 1, the actual position of the adjusting longitudinal rod 72 and the heat preservation cover plates 6 is adjusted, the arc plates 711 are abutted against the inner side wall of the wall body 1 relative to the pipeline 3 under the universal rolling action of the universal balls 71, radial adjustment is carried out according to the distance between the hole and the pipeline 3, after adjustment is finished, the concave portion 63 of the inner axial end face of one heat preservation cover plate 6 is matched and clamped with the convex portion 62 of the inner axial end face of the other heat preservation cover plate 6, the heat preservation cover plates 6 are connected with the heat preservation layers 5, the side ends of the heat preservation cover plates 6 and the side edges of the heat preservation layers 5 are connected with the outer cover 4, the side ends of the transverse rods 73 are connected with the outer cover 4, the supporting plates 74 are installed on the upper side and the lower side of the transverse rods 73, integral installation is completed, and the appearance is neat and flat after installation.

Claims (6)

1. The utility model provides a radial adjustable wear wall heat preservation cover structure, characterized by, including wall body (1), pipeline (3) and two bilateral symmetry's insulation cover (2), insulation cover (2) are the sleeve pipe form, insulation cover (2) include dustcoat (4), heat preservation (5), heat preservation cover plate (6) and adjusting part (7), heat preservation (5) are cup jointed on the lateral wall of pipeline (3), dustcoat (4) set up the outside at wall body (1), heat preservation (5) are connected with dustcoat (4), adjusting part (7) set up the radial direction at pipeline (3), the side and dustcoat (4) of adjusting part (7) are connected, the bottom and the heat preservation cover plate (6) of adjusting part (7) are connected, heat preservation cover plate (6) cup joint with the lateral wall of heat preservation (5), the top of adjusting part (7) offsets with wall body (1) inside wall relative of pipeline (3) and leans on.

2. A radially adjustable wall-penetrating heat-insulating cover structure as claimed in claim 1, wherein the outer axial end face of the heat-insulating cover plate (6) is connected with the outer cover (4), the inner axial end face of one heat-insulating cover plate (6) is provided with a concave part (63), the inner axial end face of the other heat-insulating cover plate (6) is provided with a convex part (64), and the two heat-insulating cover plates (6) are jointed in a clamping manner.

3. The radial adjustable wall-through heat-preservation cover structure as claimed in claim 1, wherein the adjusting assembly (7) comprises a cross rod (73), a sliding block (75) and a longitudinal rod (72), the cross rod (73) is connected with the outer cover (4), the upper side and the lower side of the cross rod (73) are connected with supporting plates (74), the side ends of the supporting plates (74) are connected with the outer cover (4), the sliding block (75) is arranged on the cross rod (73) and is in sliding connection with the cross rod (73), the bottom end of the longitudinal rod (72) is connected with the heat-preservation cover plate (6), and the top end of the longitudinal rod (72) penetrates through the sliding block (75) and abuts against the inner side wall of the wall body (1) opposite to the pipeline (3).

4. The radial adjustable through-wall heat preservation cover structure of claim 3, characterized in that the top of vertical rod (72) is connected with fixing base (721), the top of fixing base (721) is connected with the bolster, the bolster includes universal ball (71), mount pad (712) and arc (711), universal ball (71) includes seat end (713) and ball end (714), seat end (713) and mount pad (712) threaded connection, the top of fixing base (721) is equipped with ball groove (722) that matches with ball end (714), ball end (714) are arranged in ball groove (722) and are fixed connection with fixing base (721), the medial surface of arc (711) and arc (711) fixed connection are arranged in mount pad (712), the lateral surface of arc (711) and the wall (1) inside wall relative of pipeline (3) inside wall side wall portion (711) butt against.

5. The radially adjustable wall-through heat-insulating cover structure as claimed in claim 4, wherein a fixing post (723) is connected to the bottom of the fixing seat (721), a post groove (725) is formed in the top end of the vertical rod (72), the fixing post (723) is disposed in the post groove (725), stoppers (724) are connected to two sides of the fixing post (723), a spring (726) is sleeved on the outer side of the fixing post (723), the spring (726) is disposed below the stopper (724), and one end, away from the stopper (724), of the spring (726) is connected to the post groove (725).

6. The radially adjustable wall-through heat-preservation cover structure as claimed in claim 3, wherein the heat-preservation cover plate (6) comprises a heat-insulation cavity (61) and a heat-preservation cavity (62), the heat-insulation cavity (61) is arranged outside the heat-preservation cavity (62), the longitudinal rod (72) is connected with the top of the heat-insulation cavity (61), the heat-insulation cavity (61) and the heat-preservation cavity (62) are connected into a whole, and the heat-preservation cavity (62) is filled with heat-preservation materials.

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