CN212002386U - Integral movable warm shed for dry dock corridor winter construction - Google Patents

Abstract

The utility model provides an integral movable warm shed for dry dock corridor winter construction, which comprises a heat preservation warm shed, a moving mechanism and a supporting channel, wherein the moving mechanism is arranged on the supporting channel; one side of the heat preservation greenhouse is arranged on the moving mechanism, the other side of the heat preservation greenhouse stretches across the dry dock corridor along the width direction of the dry dock corridor and extends towards the ground, and the moving mechanism drives the heat preservation greenhouse to move along the length direction of the dry dock corridor; part of the dry dock galleries are positioned above a dock wall, and the dock wall is erected on the ground; the supporting channel is hung on the side face of the dock wall. In winter in severe cold areas, the integral movable warm shed is adopted to ensure that the construction of the gallery of the dry dock is normally and orderly carried out. In the corridor work progress, the utility model discloses an integral removal warm shed mainly provides suitable thermometer humidity for corridor concrete placement and maintenance process to ensure that the corridor construction does not receive severe cold weather influence.

Description

Integral movable warm shed for dry dock corridor winter construction

Technical Field

The utility model relates to a construction field in winter especially relates to a dry dock corridor is under construction in winter with integral removal greenhouse.

Background

The construction of mass and large-volume concrete is not generally carried out under severe cold conditions in winter, and if the mass and large-volume concrete is poured as necessary, the environmental temperature of the concrete is ensured to meet the requirements of concrete pouring and maintenance.

In the prior construction technology, under the severe cold environment in winter, a greenhouse heating and heat preservation method is mainly adopted to provide necessary temperature conditions for concrete pouring and maintenance. The conventional greenhouse is mainly formed by splicing single unit plates, and the greenhouse is formed by dismantling and splicing the unit plates when moving. The dismantling and assembling of the unit plates consumes a great deal of time and labor in the conventional process, so that the construction progress is delayed.

The integral two problems of solution that remove the greenhouse can be fine not only can guarantee concrete placement and the required temperature of maintenance and humidity condition under the severe cold condition in winter, can eliminate the time that the greenhouse demolishd and set up simultaneously, and the integral removal is to the assigned position when needs use, greatly accelerates the construction progress.

SUMMERY OF THE UTILITY MODEL

The utility model provides a construction is with integral warm canopy of removing in dry dock corridor winter adopts integral warm canopy of removing to guarantee dry dock corridor construction in winter in severe cold area and normally goes on in order. In corridor construction process, the integral removal greenhouse mainly provides suitable thermometer humidity for corridor concrete placement and maintenance process to ensure that corridor construction does not receive severe cold weather influence.

In order to solve the technical problem, the utility model adopts the following technical scheme:

the integral type movable warm shed for the dry dock corridor winter construction comprises a heat preservation warm shed, a moving mechanism and a supporting channel, wherein the moving mechanism is arranged on the supporting channel;

one side of the heat preservation greenhouse is arranged on the moving mechanism, and the other side of the heat preservation greenhouse stretches across the dry dock corridor along the width direction of the dry dock corridor and extends towards the ground;

part of the dry dock galleries are positioned above a dock wall, and the dock wall is erected on the ground;

the supporting channel is hung on the side face of the dock wall.

In severe cold areas, the integral movable warm shed is adopted in winter to ensure that the construction of the gallery of the dry dock is normally and orderly carried out. In corridor work progress, the utility model discloses an integral removal warm shed mainly provides suitable thermometer humidity for corridor concrete placement and maintenance process to ensure that the corridor construction does not receive severe cold weather influence.

As a further improvement of the utility model, the heat-insulating greenhouse is composed of a framework and a plurality of heat-insulating plates arranged on the framework, wherein the framework is provided with a suspension position at one side in the width direction and extends to the ground at the other side in the width direction;

the framework spans the dry dock corridor along the width direction of the dry dock corridor and covers the heat preservation shed on partial sections of the dry dock corridor.

As the utility model discloses a further improvement, dry dock corridor is under construction above the dock wall, and the height of dry dock corridor distance ground is close 10 m.

As a further improvement of the present invention, the supporting channel is a triangular supporting channel, and a right-angle surface of the triangular supporting channel is in contact with the side surface of the dock wall and is fixed to the side surface through the right-angle surface;

the other right-angle surface of the triangular support channel is a horizontal surface, and the moving mechanism is installed on the other right-angle surface.

As a further improvement, the moving mechanism is installed on the framework of the heat preservation greenhouse, the channel steel is installed on the supporting channel, and the moving mechanism moves along the length direction of the channel steel.

The utility model has the advantages that:

1. in severe cold areas, the integral movable warm shed is adopted in winter to ensure that the construction of the gallery of the dry dock is normally and orderly carried out. In corridor work progress, the utility model discloses an integral removal warm shed mainly provides suitable thermometer humidity for corridor concrete placement and maintenance process to ensure that the corridor construction does not receive severe cold weather influence.

2. Under the severe cold condition in winter, adopt the utility model discloses an integral removal greenhouse can satisfy required stability of corridor concrete construction and humidity requirement, guarantees that concrete placement and maintenance quality meet the demands. Meanwhile, the working procedures of dismantling and erecting the greenhouse are reduced, the corridor construction speed is accelerated, and the normal and orderly progress of the project is ensured.

Drawings

FIG. 1 is a schematic structural view of an integrated mobile greenhouse;

FIG. 2 is a schematic structural view of a support channel;

FIG. 3 is a first perspective view of the integrated mobile greenhouse;

fig. 4 is a second perspective view of the integrated mobile greenhouse.

In the figure, 1, a dock wall; 2. a dry dock corridor; 21. a partially dry dock gallery; 22. another part of the dry dock gallery; 3. a heat preservation greenhouse; 4. a support channel; 41. a right-angle surface; 42. the other right-angle surface; 5. and a moving mechanism.

Detailed Description

The utility model provides a construction is with integral warm canopy of removing in dry dock corridor winter adopts integral warm canopy of removing to guarantee dry dock corridor construction in winter in severe cold area and normally goes on in order. In corridor construction process, the integral removal greenhouse mainly provides suitable thermometer humidity for corridor concrete placement and maintenance process to ensure that corridor construction does not receive severe cold weather influence.

The first implementation mode comprises the following steps:

an integral type movable warm shed for dry dock corridor winter construction is shown in figures 1-3 and comprises a heat preservation warm shed 3, a moving mechanism 5 and a supporting channel 4, wherein the moving mechanism 5 is arranged on the supporting channel 4; one side of the heat preservation greenhouse 3 is arranged on the moving mechanism 5, and the other side of the heat preservation greenhouse stretches across the dry dock corridor 2 along the width direction of the dry dock corridor 2 and extends towards the ground; part of the dry dock galleries 21 are positioned above the dock wall 1, and the dock wall 1 is erected on the ground; the supporting channel 4 is hung on the side of the dock wall 1. In severe cold areas, the integral movable warm shed is adopted in winter to ensure that the construction of the dry dock gallery 2 is normally and orderly carried out.

In corridor construction process, the integral removal greenhouse of this embodiment mainly provides suitable thermometer humidity for corridor concrete placement and maintenance process to ensure that corridor construction does not receive severe cold weather influence.

Under the severe cold condition in winter, adopt the integral removal greenhouse of this embodiment, can satisfy required stability of corridor concrete construction and humidity requirement, guarantee that concrete placement and maintenance quality meet the demands. Meanwhile, the working procedures of dismantling and erecting the greenhouse are reduced, the corridor construction speed is accelerated, and the normal and orderly progress of the project is ensured.

The second embodiment:

the embodiment provides an integral type movable warm shed for dry dock corridor winter construction, as shown in figures 1-3, comprising a heat preservation warm shed 3, a moving mechanism 5 and a supporting channel 4, wherein the moving mechanism 5 is arranged on the supporting channel 4; one side of the heat preservation greenhouse 3 is arranged on the moving mechanism 5, and the other side of the heat preservation greenhouse stretches across the dry dock corridor 2 along the width direction of the dry dock corridor 2 and extends towards the ground; part of the dry dock galleries 21 are positioned above the dock wall 1, and the dock wall 1 is erected on the ground; the supporting channel 4 is hung on the side of the dock wall 1.

In severe cold areas, the integral movable warm shed is adopted in winter to ensure that the construction of the dry dock gallery 2 is normally and orderly carried out. In corridor construction process, the integral removal greenhouse of this embodiment mainly provides suitable thermometer humidity for corridor concrete placement and maintenance process to ensure that corridor construction does not receive severe cold weather influence.

The preferable heat preservation greenhouse 3 consists of a framework and a plurality of heat preservation plates arranged on the framework, wherein one side of the framework in the width direction is used for processing a suspension position, and the other side of the framework in the width direction extends to the ground; the framework spans the dry dock corridor 2 along the width direction of the dry dock corridor 2, and the heat preservation greenhouse 3 covers the partial section of the dry dock corridor 2. The dry dock gallery 2 is constructed above the dock wall 1, and the height of the dry dock gallery 2 from the ground is close to 10 m.

As shown in fig. 2, the support channel 4 is preferably a triangular support channel, and a right-angle surface 41 of the triangular support channel is in contact with and fixed with the side surface of the dock wall 1 through the right-angle surface; the other right-angled surface 42 of the triangular support channel is a horizontal surface, and the moving mechanism 5 is arranged on the other right-angled surface 42. Preferably, the moving mechanism 5 is installed on a framework of the heat-preservation greenhouse 3, the supporting channel 4 is provided with a channel steel, and the moving mechanism 5 moves along the length direction of the channel steel.

In severe cold areas, the integral movable warm shed is adopted in winter to ensure that the construction of the dry dock gallery 2 is normally and orderly carried out. In corridor construction process, the integral removal greenhouse of this embodiment mainly provides suitable thermometer humidity for corridor concrete placement and maintenance process to ensure that corridor construction does not receive severe cold weather influence.

Under the severe cold condition in winter, adopt the integral removal greenhouse of this embodiment, can satisfy required stability of corridor concrete construction and humidity requirement, guarantee that concrete placement and maintenance quality meet the demands. Meanwhile, the working procedures of dismantling and erecting the greenhouse are reduced, the corridor construction speed is accelerated, and the normal and orderly progress of the project is ensured.

Claims (5)

1. The integral type movable warm shed for the dry dock corridor winter construction is characterized by comprising a heat preservation warm shed, a moving mechanism and a supporting channel, wherein the moving mechanism is arranged on the supporting channel;

one side of the heat preservation greenhouse is arranged on the moving mechanism, the other side of the heat preservation greenhouse stretches across the dry dock corridor along the width direction of the dry dock corridor and extends towards the ground, and the moving mechanism drives the heat preservation greenhouse to move along the length direction of the dry dock corridor;

part of the dry dock galleries are positioned above a dock wall, and the dock wall is erected on the ground;

the supporting channel is hung on the side face of the dock wall.

2. The integral movable warm shed for the dry dock corridor winter construction according to claim 1, wherein the heat preservation warm shed is composed of a framework and a plurality of heat preservation plates installed on the framework, the framework is provided with a suspension position at one side in the width direction, and extends to the ground at the other side in the width direction;

the framework spans the dry dock corridor along the width direction of the dry dock corridor and covers the heat preservation shed on partial sections of the dry dock corridor.

3. The integrated mobile greenhouse for dry dock gallery winter construction according to claim 1, wherein the dry dock gallery is constructed above a dock wall, and the height of the dry dock gallery from the ground is approximately 10 m.

4. The integral type mobile warm shed for the dry dock corridor winter construction according to any one of claims 1 to 3, wherein the supporting channel is a triangular supporting channel, and a right-angle surface of the triangular supporting channel is in contact with the side surface of the dock wall and is fixed with the side surface through the right-angle surface;

the other right-angle surface of the triangular support channel is a horizontal surface, and the moving mechanism is installed on the other right-angle surface.

5. The integral type mobile greenhouse for the dry dock corridor in winter construction according to claim 1, wherein the moving mechanism is installed on a framework of the thermal insulation greenhouse, a channel steel is installed on the supporting channel, and the moving mechanism moves along the length direction of the channel steel.

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