CN210319383U - Winding tool support for thermal insulation material of thermal insulation layer outside tank container liner - Google Patents

Abstract

A winding tool support for a thermal insulation material of an outer thermal insulation layer of a tank container liner relates to a winding tool support for a thermal insulation material of an outer thermal insulation layer of a tank container liner. The tool is designed for mainly solving the problem that the clamping force of the heat-insulating material between the axial directions cannot be adjusted by the existing heat-insulating material winding tool. The wheel-mounted support comprises a support body, wherein wheels are arranged on the lower side of the support body, a strut I and a strut II are arranged on the support body, and hexagonal nuts are fixed at the upper end parts of the strut I and the strut II; a screw is arranged in the hexagon nut, one end of the screw at the inner side of the hexagon nut is sleeved with a supporting sleeve, the other end of the screw at the outer side is provided with a pin rod, and the supporting sleeve is provided with a positioning boss; the two end parts of the rotating handle are welded with the rotating sleeves and the rotating handle, the middle part of the rotating sleeve is processed with a pin rod notch, and the pin rod is exposed out of the pin rod notch. The beneficial effects are that solved thermal insulation material can't adjust the axial clamp force between the axis direction and because of the thermal insulation material width size change application range limited not enough.

Description

Winding tool support for thermal insulation material of thermal insulation layer outside tank container liner

The technical field is as follows:

the utility model relates to a tank container manufacturing technical field especially relates to a tank container inner bag outer insulating layer heat preservation heat insulating material winding frock support.

Background art:

the tank container is of a double-layer structure, belongs to one of low-temperature cryogenic containers, an inner layer is a stainless steel liner container generally and is used for storing low-temperature liquid such as liquefied natural gas, an outer shell is a carbon steel or stainless steel shell, and heat conduction, convection and radiation are reduced between the inner layer and the outer layer in a mode that a heat-preservation heat-insulation material is wound on the outer surface of the inner liner and an interlayer is vacuumized, so that the purposes of heat insulation and low-temperature liquid storage are achieved. Chinese grant bulletin number CN 205991322U, grant bulletin date 2017.03.01, utility model name: the winding frock of cryrogenic container heat preservation heat insulating material, this utility model's advantage lies in providing a brand-new heat preservation heat insulating material winding process scheme, has solved the heat transfer that exists among the current winding process scheme and has leaked heat big, the not high problem of thermal radiation reflection effect, has promoted the thermal insulation performance of cryrogenic container, has prolonged the life of product, has reduced the cost of after-sales maintenance. However, the utility model needs to manually rotate the deep cooling container to wind the heat-insulating material in the using process, which wastes time and labor, and has high labor intensity of operators and low winding efficiency; the utility model discloses a thermal insulation material does not have interval adjusting device in roller bearing axis direction, leads to thermal insulation material can't adjust its clamp force between the axial at the roller bearing axis direction, and thermal insulation material has the specification size change that the width size differs at its spool axial width size in addition, and this utility model only can use a specification thermal insulation material, makes its application range receive the restriction, and from this, the technical problem that the technical staff who adopts the affiliated technical field of this means is difficult to realize will solving.

The invention content is as follows:

the not enough of prior art more than, the utility model aims at providing a tank container inner bag outer insulating layer heat preservation heat insulating material winding frock support solves the not enough of prior art, guarantees that tank container heat insulating material winding production goes on smoothly.

In order to achieve the above object, the utility model adopts the following technical scheme:

the support comprises a support body, wherein the support body is arranged in a flat rectangular structure, the lower sides of the end corners of the support body are respectively connected with wheels, pillars I which are arranged in the vertical direction are respectively fixed at the transverse middle parts of the edges of the front side and the rear side of the support body, and hexagon nuts which are arranged in the vertical direction are welded at the upper end parts of the two pillars I;

a pair of supporting columns II which are arranged in the vertical direction are respectively fixed on the material support body on the left side and the right side of the supporting column I, one supporting column II of the supporting columns II which are arranged in pairs on the right side is fixedly welded at the right front end corner of the material support body, and the other supporting column II is fixedly welded at 2/3 of the longitudinal full length of the support body from front to back; one strut II of the struts II arranged in pairs on the left side is fixedly welded at 1/3 of the longitudinal full length of the material bracket body from front to back, the other strut II is fixedly welded at the left rear end of the material bracket body, and hexagonal nuts arranged in the vertical direction are fixedly welded at the upper end parts of the struts II; the height of the strut II is 1/2 of the height of the strut I;

threaded connection has the screw rod that is vertical coaxial setting in pairs respectively in every hexagon nut internal thread, the screw rod both ends are the step shaft tip respectively and set up, wherein: one end of the screw rod at the inner side of the hexagonal nut is respectively sleeved with a supporting sleeve in a clearance fit manner, the other end of the screw rod at the outer side of the hexagonal nut is respectively fixedly welded with a pin rod which is transversely arranged, the supporting sleeve is arranged in a sleeve shape, and the end part of the supporting sleeve, which is close to one side of the nut, is provided with a positioning boss;

the two end parts of the rotating handle are longitudinally parallel and are correspondingly fixedly welded with a rotating sleeve and a rotating handle respectively, the rotating sleeve is in a notch sleeve shape, an inner hole of the rotating sleeve can be in detachable clearance fit with the end part of the screw stepped shaft, a pin rod notch is machined in the middle of the rotating sleeve, the width of the pin rod notch is larger than the width of the rotating pin rod by 2 mm, and the pin rod is exposed out of the pin rod notch.

The utility model has the advantages that: as the body of the utility model is welded with the pillars I and II which are arranged in pairs, the upper end part of the body is welded with the hexagon nut, and the height of the pillar II is 1/2 that of the pillar I; the hexagonal nut is internally and respectively in threaded connection with screw rods coaxially arranged in pairs, one end of each screw rod on the inner side of the hexagonal nut is detachably sleeved with a support sleeve, the other end of each screw rod is welded with a rotating pin rod, heat-insulating materials I and II are respectively arranged and clamped in the middle of the corresponding support column I and II, the clamping force between the heat-insulating materials I and II in the axial direction is properly adjusted, and a brake motor is wound by a tool to drive the tank liner to rotate so as to drive the tank liner to rotate and wind the heat-insulating materials I and; the defects that the axial clamping force of the heat-insulating material in the axis direction cannot be adjusted and the application range is limited due to the width size change of the heat-insulating material in the prior art are overcome, a good application effect is achieved, and the method is suitable for being used in the winding process of various low-temperature deep cooling containers.

Description of the drawings:

fig. 1 is a front view of embodiment 1 of the present invention;

fig. 2 is a left side view of embodiment 1 of the present invention;

fig. 3 is a plan view of embodiment 1 of the present invention;

fig. 4 is a schematic structural view when winding according to embodiment 1 of the present invention;

fig. 5 is a schematic view of the winding overhead structure of embodiment 1 of the present invention;

fig. 6 is a front view of embodiment 2 of the present invention;

fig. 7 is a left side view of embodiment 2 of the present invention;

fig. 8 is a plan view of embodiment 2 of the present invention;

fig. 9 is a schematic structural view when winding according to embodiment 2 of the present invention;

fig. 10 is a schematic top view of the winding structure according to embodiment 2 of the present invention.

In the figure: 1-a support body, 2-wheels, 3-a pillar I, 4-a pillar II, 5-a support sleeve, 6-a hexagon nut, 7-a screw, 71-a rotating pin, 8-a rotating handle, 81-a rotating sleeve, 82-a pin notch, 83-a rotating handle, 9-a heat insulating material I, 91-a heat insulating material II and 10-a tank liner.

The specific implementation mode is as follows:

the present invention will be described in detail below with reference to the accompanying drawings, but it should be noted that the present invention is not limited to the following embodiments.

It should be noted that "up", "down", "left", "right", "front" and "back" are only exemplary directions defined for convenience of description of the present invention, and as shown in fig. 1, the upper side direction of the paper surface is "up", the lower side direction of the paper surface is "down", the left side direction of the paper surface is "front", the right side direction of the paper surface is "back", the rear side direction of the paper surface is "right", the front side direction of the paper surface is "left", the left and right directions of the paper surface are "longitudinal", and the front and back directions of the paper surface are "transverse". Of course, those skilled in the art will understand that other directions such as "left" and "right" may be defined in other ways, and the same fall into the protection scope of the present invention.

As shown in fig. 1-3, the support comprises a support body 1, the support body is arranged in a flat rectangular structure, the lower sides of the corners of the support body are respectively connected with wheels 2, the horizontal middle parts of the edges of the front side and the rear side of the support body are respectively fixed with a support column i 3 arranged in the vertical direction, and the upper end parts of the two support columns i are respectively welded with a hexagon nut 6 arranged in the vertical direction;

a pair of supporting columns II 4 which are arranged in the vertical direction are respectively fixed on the material support body on the left side and the right side of the supporting column I, one supporting column II of the supporting columns II which are arranged in pairs on the right side is fixedly welded at the right front end corner of the material support body, and the other supporting column II is fixedly welded at 2/3 of the longitudinal full length of the support body from front to back; one strut II of the struts II arranged in pairs on the left side is fixedly welded at 1/3 of the longitudinal full length of the material bracket body from front to back, the other strut II is fixedly welded at the left rear end of the material bracket body, and hexagonal nuts arranged in the vertical direction are fixedly welded at the upper end parts of the struts II; the height of the strut II is 1/2 of the height of the strut I;

threaded connection has screw rod 7 that is vertical coaxial setting in pairs respectively in every hexagon nut internal thread, the screw rod both ends are the step shaft tip respectively and set up, wherein: one end of the screw rod at the inner side of the hexagonal nut is respectively sleeved with a support sleeve 5 in a clearance fit manner, the other end of the screw rod at the outer side of the hexagonal nut is respectively fixedly welded with a pin rod 71 which is transversely arranged, the support sleeve is arranged in a sleeve shape, and the end part of the support sleeve, which is close to one side of the nut, is provided with a positioning boss;

it has changeing cover 81, commentaries on classics 83 to rotate 8 both ends of handle and be the corresponding fixed welding respectively of vertical parallel form, it is the setting of notch cover sleeve form, its hole can be with screw rod step shaft tip and can dismantle clearance fit to change set middle part processing and have a round pin pole incision 82, its round pin pole incision width is greater than and rotates round pin pole width 2 mm, and the round pin pole exposes from the round pin pole incision.

In the embodiment 1 of the present invention, as shown in fig. 1-5, first, the pin notch of the rotating handle is aligned with the horizontally arranged rotating pin, and then the rotating sleeve is inserted on the stepped shaft at the end of the screw to make the rotating pin contact and engage with the longitudinal root of the pin notch, and the rotating handle is rotated to make the screw spirally move towards the outer sides of the front and back sides under the driving of the rotating pin and the pin notch, so that the longitudinal distance between the ends of the screw coaxially arranged in pairs is greater than the longitudinal length of the mandrel of the heat insulating material i; secondly, inserting support sleeves into holes at two ends of a core shaft of the heat-insulating material I respectively, enabling positioning bosses of the support sleeves to lean against two ends of the core shaft of the heat-insulating material I, inserting an inner hole of one support sleeve into a stepped shaft at the end part of a screw rod, aligning the inner hole of the other support sleeve with the stepped shaft at the end part of the other side of the screw rod, and rotating a handle in a reverse direction to enable the screw rod to spirally move towards the inner sides of the front side and the rear side under the driving of rotating a; then, another rotating handle is sleeved on the stepped shaft at the end part of the screw at the other side, the rotating handles are respectively rotated, so that the heat insulation material I is clamped at the longitudinal middle part of the support columns I which are arranged in pairs, the clamping force between the axial directions of the heat insulation material I is properly adjusted, the heat insulation material I is in a circumferential rotatable state, the longitudinal end part of the heat insulation material I is fixedly lapped on the surface of the tank liner through a hook and an adhesive tape on the surface of the tank liner, the tank liner is driven to rotate through an external winding brake motor, so that the tank liner is driven to wind the heat insulation material I in a rotating mode, the heat insulation material I is cut off after winding is finished, and the cut end part of the heat insulation material I is fixed on the surface of the tank liner; longitudinal movement the utility model discloses, guarantee that I coincidence of heat-insulating material partially accords with winding technological requirement, continues to carry out next section winding.

In the embodiment 2 of the present invention, as shown in fig. 6 to 10, since the thermal insulation material has different width specifications, as in embodiment 1, the support sleeves are respectively inserted into the holes at the two ends of the mandrel of the thermal insulation material ii, and the thermal insulation material ii is sequentially and respectively mounted and clamped at the longitudinal middle parts of the pillars ii arranged in pairs at the left and right edges of the body, so as to properly adjust the clamping force between the axial directions thereof, so that the thermal insulation material ii is respectively in a circumferential rotatable state; then, the longitudinal end part of the right side heat-insulating material II is fixedly lapped on the surface of the tank container liner through a hook and an adhesive tape on the surface of the tank container liner, the longitudinal end part of the other roll of the left side heat-insulating material II is fixedly lapped on the surface of the tank container liner through a hook and an adhesive tape on the surface of the tank container liner, the tank container liner is driven to rotate through an external winding brake motor, so that the tank container liner is driven to rotate and simultaneously wind two rolls of heat-insulating materials II, the heat-insulating material II is respectively cut off after the winding is finished, and the cut-off end part of the heat-insulating material II is fixed on the surface of the tank container liner through the hook and the; the longitudinal movement of the utility model can ensure that the thermal insulation material II coincides with the winding process requirement and continues to wind the next section.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and the protection scope of the present invention can not be limited thereby, and all equivalent changes or modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims (1)

1. Insulating layer thermal insulation material winding frock support outside tank container inner bag, including support body (1), characterized by: the lower sides of the end corners of the bracket body are respectively connected with wheels (2), pillars I (3) arranged in the vertical direction are respectively fixed at the transverse middle parts of the edges of the front side and the rear side of the bracket body, and hexagon nuts (6) arranged in the vertical direction are welded at the upper end parts of the two pillars I;

a pair of pillars II (4) which are arranged in the vertical direction are respectively fixed on the material support body on the left side and the right side of the pillar I, one pillar II in the pillars II which are arranged in pairs on the right side is fixedly welded at the right front end corner of the material support body, and the other pillar II is fixedly welded at 2/3 of the longitudinal full length of the support body from front to back; one strut II of the struts II arranged in pairs on the left side is fixedly welded at 1/3 of the longitudinal full length of the material bracket body from front to back, the other strut II is fixedly welded at the left rear end of the material bracket body, and hexagonal nuts arranged in the vertical direction are fixedly welded at the upper end parts of the struts II;

threaded connection has screw rod (7) that are vertical coaxial setting in pairs respectively in every hexagon nut internal thread, the screw rod both ends are the setting of step shaft tip respectively, wherein: one end of the screw rod at the inner side of the hexagonal nut is respectively sleeved with a supporting sleeve (5) in a clearance fit manner, the other end of the screw rod at the outer side of the hexagonal nut is respectively fixedly welded with a pin rod (71) which is transversely arranged, the supporting sleeve is arranged in a sleeve shape, and the end part of the supporting sleeve, which is close to one side of the nut, is provided with a positioning boss;

rotating handle (8) both ends are vertical parallel form and correspond fixed welding respectively and have commentaries on classics cover (81), change handle (83), change the cover and be notch sleeve form setting, its hole can be detachable clearance fit with screw rod step shaft tip to change the processing of cover middle part and have pin rod incision (82), the pin rod exposes from the pin rod incision.

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