CN214941057U - Container prefabricated house and container prefabricated house elevation adjusting device that distributes in bank - Google Patents

Abstract

The utility model discloses a container prefabricated house and in bank distribution container prefabricated house elevation adjusting device, this container prefabricated house elevation adjusting device includes: the container mobile house is arranged on the terrace; the embedded box is embedded downwards along the upper surface of the terrace and is arranged in the terrace, and part of the embedded box is positioned below the container prefabricated house and part of the embedded box extends to the outer side of the container prefabricated house; and the jack is arranged between the embedded box and the lower surface of the container prefabricated house. The utility model discloses can realize the accurate regulation to the elevation of container prefabricated house to and realize the purpose of adjusting the elevation uniformity of arranging the container prefabricated house that distributes.

Description

Container prefabricated house and container prefabricated house elevation adjusting device that distributes in bank

Technical Field

The utility model relates to an elevation regulation field of container prefabricated house, in particular to container prefabricated house, row's distribution container prefabricated house elevation adjusting device.

Background

The container prefabricated house is the most representative one of temporary buildings, and is widely applied due to the advantages of simple construction technology, short period, easy disassembly, low cost and the like. The plurality of container mobile homes are generally distributed in a matrix, wherein the matrix distribution can be one row and multiple columns, multiple rows and one column or multiple rows and multiple columns. The container room has no integral foundation relative to other permanent structures, which results in the fact that the level of each container may not be consistent during construction. This problem can be more outstanding especially under the construction condition of building site unevenness, and on the container prefabricated house was in soft soil foundation, the inconsistent problem of elevation between the container prefabricated house also can be made more serious to subsequent subside. Aiming at the problem of inconsistent elevation among container mobile houses, the conventional method is that constructors make up for the height difference by measuring a way of adding steel plates at the lower part. The defect that the lifting height of the container cannot be accurately controlled when the steel plate is lifted, and deviation exists between the lifting height and a preset elevation; the excessive concentration of the stress in the steel plate part can cause excessive settlement in the steel plate part. In addition, when the number of container houses is too large and the building area is too large, the method consumes a lot of time and energy and is inconvenient to adjust.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a container prefabricated house, row distribution container prefabricated house elevation adjusting device is provided to realize the accurate regulation to the elevation of container prefabricated house, and realize the purpose of adjusting to the elevation uniformity of the container prefabricated house that row distributes.

In order to solve the technical problem, the utility model provides a pair of technical scheme is: a container prefabricated house elevation adjusting device comprises:

the container mobile house is arranged on the terrace;

the embedded box is embedded downwards along the upper surface of the terrace and is arranged in the terrace, and part of the embedded box is positioned below the container prefabricated house and part of the embedded box extends to the outer side of the container prefabricated house;

and the jack is arranged between the embedded box and the lower surface of the container prefabricated house.

Further, the utility model provides a container prefabricated house elevation adjusting device, pre-buried case includes the bottom of the case board, follows the case riser, the case swash plate that the border of bottom of the case board upwards extended the setting and the case curb plate of two relative settings.

Further, the utility model provides a container prefabricated house elevation adjusting device, pre-buried case still includes the perpendicular to the horizontal support board that the case riser set up, be connected with the stiffening plate between case riser and the horizontal support board, the horizontal support board flushes with the upper surface of terrace.

Further, the utility model provides a container prefabricated house elevation adjusting device, after the predetermined elevation through upwards jacking jack to container prefabricated house, gap department between container prefabricated house and terrace is provided with steel tie plate and/or fills the bed course.

Compared with the prior art, the utility model provides a container prefabricated house elevation adjusting device's beneficial effect is:

the utility model provides a container prefabricated house elevation adjusting device can make the container prefabricated house raise predetermined elevation position through making up the jacking jack, and because the jack is continuous jacking to make the container prefabricated house highly can obtain accurate control by the height of raising, realize that the elevation of container prefabricated house reaches the purpose of accurate regulation. The pre-buried box is arranged in the terrace, so that the structure of the pre-buried box is stable, and the jacking operation is performed by the supporting jack. Wherein, the embedded box extends to the outer side of the container prefabricated house for facilitating the dismounting of the jack, and the embedded box has the convenience of dismounting operation. One part of the embedded box is positioned below the container prefabricated house, so that the container prefabricated house can be supported through the embedded box, and the other part of the embedded box is used for providing a foundation for the installation position of the jack.

The utility model provides a container prefabricated house elevation adjusting device comprises terrace, pre-buried case and jack, and it has simple structure's advantage.

The utility model provides a container prefabricated house elevation adjusting device after raising predetermined elevation through the jack, after the container prefabricated house is raised the gap department between back and the terrace and fills thick liquids and form and fill the bed course to after preventing that the jack from removing, the gravity of container prefabricated house pushes down the soil body production of terrace and its below and subsides and cause the elevation position to change. The construction of the embedded box of landfill can make the terrace surface even, avoids the edge of container prefabricated house to appear the pothole and influence the current condition and reduction safety risk when container prefabricated house uses as the house.

In order to solve the above technical problem, the utility model provides a further technical scheme is: the utility model provides a arrange distribution container prefabricated house elevation adjusting device, includes:

the container mobile houses are distributed on the terrace in rows;

pre-buried boxes which are arranged in the terrace along the upper surface of the terrace downwards are arranged at the column edge of the outer side surface of the container prefabricated houses in the first and the last columns and the adjacent column edge of the container prefabricated houses in the adjacent columns, and the pre-buried boxes are partially positioned below the container prefabricated houses and partially extend to the outer sides of the container prefabricated houses;

jacks are arranged between the pre-buried boxes on the outer side surfaces of the container prefabricated houses in the first row and the last row and the lower surfaces of the container prefabricated houses in the first row and the last row, one jack for jointly supporting two rows of container prefabricated houses is arranged between the pre-buried box between the container prefabricated houses in the adjacent row and the lower surfaces of the container prefabricated houses in the adjacent row, or two jacks for respectively supporting two rows of container prefabricated houses are arranged between the pre-buried box between the container prefabricated houses in the adjacent row and the lower surfaces of the container prefabricated houses in the adjacent row.

Further, the utility model provides a arrange distribution container prefabricated house elevation adjusting device is connected with the square steel sheet between the row corner of first and last row container prefabricated house lower surface and between the adjacent row corner of adjacent row container prefabricated house lower surface, the square steel sheet is located the terrace top and extends to pre-buried incasement, the jack passes through the square steel sheet setting between the lower surface of container prefabricated house and its pre-buried case that corresponds.

Further, the utility model provides a row distribution container prefabricated house elevation adjusting device, the pre-buried box is the pre-buried box in the container prefabricated house elevation adjusting device; the embedded box is arranged on the outer side surface of the first and last rows of container moving houses, the box vertical plates, the box side plates on one side and part of the box bottom plates are positioned below the first and last rows of container moving houses, part of the box vertical plates extend to the outer side of the first and last rows of container moving houses, and the box inclined plates of the embedded box are positioned on the outer side of the first and last rows of container moving houses.

Further, the utility model provides a row distribution container prefabricated house elevation adjusting device, the pre-buried box is the pre-buried box in the container prefabricated house elevation adjusting device; when the embedded box is arranged at the adjacent row corners of the adjacent rows of the movable houses for the containers, the box vertical plate is positioned below the space between the adjacent rows of the movable houses for the containers, the box side plates and part of the box bottom plate at two sides are positioned below the space between the adjacent rows of the movable houses for the containers, part of the box side plates and part of the box bottom plate extend to the outer sides of the adjacent rows of the movable houses for the containers, and the box inclined plates of the embedded box are positioned at the outer sides of the adjacent rows of the movable houses for the containers.

Further, the utility model provides a arrange distribution container prefabricated house elevation adjusting device, after jack to the predetermined elevation of container prefabricated house in each pre-buried incasement of jacking through upwards, great gap department is provided with the steel backing plate and/or fills the bed course between container prefabricated house and terrace.

Compared with the prior art, the utility model provides a arrange distribution container prefabricated house elevation adjusting device's beneficial effect:

the utility model provides a arrange distribution container prefabricated house elevation adjusting device can make at least one of two rows of edges of the lateral surface of first and last row of container prefabricated houses raise to the predetermined elevation position through the upward jacking jack, so that the edges of the first and last whole row are raised integrally to the predetermined elevation, which improves the construction efficiency of elevation adjustment; the lifting jack can enable at least one side corner of two container prefabricated houses in two adjacent rows of container prefabricated houses to be lifted to a preset elevation synchronously, so that the construction efficiency of elevation adjustment is improved. The device is particularly suitable for the elevation adjusting device of the container mobile house with double rows and multiple columns in row distribution.

The utility model provides a arrange distribution container prefabricated house elevation adjusting device after the container prefabricated house is raised predetermined elevation, passes through the lower surface of steel backing plate stopper welding at the container prefabricated house in great gap department, then all the other gap departments fill thick liquids and form and fill the bed course. The steel backing plate can be used for supporting the container, and stress support of the container prefabricated house is improved. Wherein the filling bed course is the replenishment to the steel backing plate, prevents on the one hand that the container prefabricated house from probably producing the settlement and leading to the elevation change after the jack removes, and on the other hand can prevent that the steel backing plate from being buckled the influence of the settlement that produces to the elevation of container prefabricated house.

The utility model provides a arrange distribution container prefabricated house elevation adjusting device still has the same beneficial effect of above-mentioned container prefabricated house elevation adjusting device.

Drawings

FIG. 1 is a schematic structural diagram of a single-row distributed container mobile house and embedded boxes;

FIG. 2 is a schematic top view of the node E1 in FIG. 1;

FIG. 3 is a schematic top view of the node E2 in FIG. 1;

FIG. 4 is a schematic cross-sectional view taken along line A-A in FIG. 2 or line B-B in FIG. 3;

FIG. 5 is a schematic structural diagram of a double row container prefabricated house and embedded tanks;

FIG. 6 is a schematic top view of the node E3 in FIG. 5;

FIG. 7 is a schematic top view of the node E4 in FIG. 5;

FIG. 8 is a schematic cross-sectional view at C-C in FIG. 6 or D-D in FIG. 7;

shown in the figure:

100. the container prefabricated house comprises a container prefabricated house body, 200 parts of terrace, 300 parts of embedded box, 310 parts of box bottom plate, 320 parts of box vertical plate, 330 parts of box inclined plate, 340 parts of box side plate, 350 parts of horizontal supporting plate, 360 parts of stiffening plate, 400 parts of jack, 500 parts of filling cushion layer, 600 parts of steel base plate, 700 parts of square steel plate.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings:

example one

Referring to fig. 4, an embodiment of the present invention provides a container mobile home elevation adjustment apparatus, including a terrace 200, a built-in box 300 and a jack 400.

Referring to fig. 4, the container house 100 is installed on a floor 200.

Referring to fig. 4, the embedded tank 300 is embedded in the floor 200 along the upper surface of the floor 200, and the embedded tank 300 is partially located below the container mobile house 100 and partially extends to the outside of the container mobile house 100.

Referring to fig. 4, a jack 400 is disposed between the embedded box 300 and the lower surface of the container mobile house 100.

Referring to fig. 2 to 4, in the elevation adjustment device for a container mobile home according to an embodiment of the present invention, the embedded box 300 includes a box bottom plate 310, a box vertical plate 320, a box inclined plate 330, and two box side plates 340, which are oppositely disposed, and extend upward along the edge of the box bottom plate 310; the embedded tank 300 may further include a horizontal support plate 350 perpendicular to the tank vertical plate 320, a stiffening plate 360 is connected between the tank vertical plate 320 and the horizontal support plate 350, and the horizontal support plate 350 is flush with the upper surface of the floor 200. Wherein the horizontal support plate 350 may be disposed on an upper end surface of the tank vertical plate 320. Wherein the base plate 310 includes, but is not limited to, a rectangular shape, and the base plate 320 is disposed perpendicular to the base plate 310 for supporting the container mobile house 100. When the horizontal support plate 350 is provided, it can increase a contact area with the container mobile house 100, thereby improving a support surface thereof. The tank inclined plate 330 is provided to make the embedded tank 300 have an inclined surface, so that the jack 400 can be inserted into and extended out of the embedded tank 300 in an inclined manner, and the jack 400 can be conveniently disassembled and assembled. Wherein the stiffener plate 360 serves to keep the horizontal support plate 350 in a horizontal state, preventing it from being inclined downward.

Referring to fig. 2 to 4, an embodiment of the present invention further provides a method for adjusting an elevation of a container mobile room, which may include the following steps:

step S1, lift the jack 400 upwards in the embedded box 300 to a predetermined elevation of the container house 100.

Step S2, pouring slurry into the gap between the container prefabricated house 100 and the floor 200 after being lifted to form a filling cushion 500; wherein the filling pad layer 500 may be cement mortar or epoxy mortar. The positional relationship of the filling mat 500 is not limited to the example relationship in fig. 4. The filling pad 500 is mainly to prevent sinking after the lifting jack 400 is removed.

Step S3, retracting the jack 400 downward and removing the jack 400 from the embedment box 300.

Step S4, the embedded box 300 is buried to the upper surface of the floor 200 by other embedded bodies such as concrete.

The embodiment of the utility model provides a container prefabricated house elevation adjusting device and method can make container prefabricated house 100 raise predetermined elevation position through upwards jacking jack 400, and because jack 400 is continuous jacking to make container prefabricated house 100 can obtain accurate control by the height of being raised, realize that the elevation of container prefabricated house 100 reaches the purpose of accurate regulation. The embedded tank 300 is disposed in the floor 200, and the embedded tank 300 is structurally stable to support the jack 400 for jacking. A part of the embedded tank 300 extends to the outside of the container mobile home 100 to facilitate the assembly and disassembly of the jack 400, and the assembly and disassembly operations are convenient. Wherein a portion of the pre-buried box 300 is located below the container mobile room 100, on one hand, in order to support the container mobile room 100 through the pre-buried box 300, and on the other hand, to provide a foundation for the installation position of the jack 400.

The embodiment of the utility model provides a container prefabricated house elevation adjusting device comprises terrace 200, pre-buried case 300 and jack 400, has simple structure, adjusts convenient advantage.

The embodiment of the utility model provides a container prefabricated house elevation adjusting method, after raising predetermined elevation through jack 400, fill thick liquids in gap department between container prefabricated house 100 after lifting and terrace 200 and form and fill bed course 500 to after preventing that jack 400 from removing, container prefabricated house 100's gravity pushes down terrace 200 and the soil body below produces and subsides and cause the elevation position to change. The construction of the embedded box 300 can make the surface of the floor 200 flat, and avoid the condition that the corners of the container mobile house 100 are holed to influence the traffic of the container mobile house 100 when used as a house and reduce the safety risk.

Example two

Referring to fig. 1 to 4 and 5 to 8, a second embodiment of the present invention provides a device for adjusting elevation of a movable room with distributed containers, including:

referring to fig. 1, 4, 5 and 8, the floor 200 is provided with the row of container mobile rooms 100 arranged on the floor 200 in rows. Wherein, fig. 1 is a container mobile house distributed in single row and multiple rows, and fig. 5 is a container mobile house distributed in double row and multiple rows.

Referring to fig. 1 to 8, the embedded boxes 300 disposed in the terrace 200 along the upper surface of the terrace 200 are disposed at the column corners of the outer side surfaces of the container living rooms 100 in the first and last columns and the adjacent column corners of the container living rooms 100 in the adjacent columns, and the embedded boxes 300 are partially disposed below the container living rooms 100 and partially extend to the outer sides of the container living rooms 100.

Referring to fig. 2 to 4 and 6 to 8, a jack 400 is disposed between the pre-buried box 300 on the outer side of the first and last columns of container mobile houses 100 and the lower surface of the first and last columns of container mobile houses 100, and a jack 400 is disposed between the pre-buried box 300 between adjacent columns of container mobile houses 100 and the lower surface of the adjacent columns of container mobile houses 100 to support two columns of container mobile houses 100 together. Of course, two jacks 400 for supporting two rows of container houses 100 are provided between the built-in box 300 between the adjacent rows of container houses 100 and the lower surface of the adjacent row of container houses 100.

Please refer to fig. 5 to 8, embodiment two of the present invention provides a row distribution container prefabricated house elevation adjusting device, wherein a square steel plate 700 is connected between the row corners of the lower surfaces of the first and last row of container prefabricated houses 100 and between the adjacent row corners of the lower surfaces of the adjacent row of container prefabricated houses 100, the square steel plate 700 is located above the terrace 200 and extends to the embedded box 300, and the jack 400 is disposed between the lower surface of the container prefabricated house 100 and the embedded box 300 corresponding thereto through the square steel plate 700. Wherein the square steel plate 700 is capable of connecting two columns of container houses 100 in adjacent columns. At the row distribution container prefabricated house elevation adjusting device of double multiseriate, please refer to fig. 5, a square steel sheet 700 can be connected adjacent 4 rows of container prefabricated houses into a whole, in the container prefabricated house of arranging and distributing in the first and last row, a square steel sheet 700 can be connected the lateral surface of the container prefabricated house of the row of place as a whole to carry out the integral regulation elevation to the row edge of whole row. Namely, when the container mobile houses are distributed in rows of two rows and multiple columns, the elevation at the corners of the two container mobile houses in each row is integrally adjusted, so that the construction efficiency of elevation adjustment is improved.

Referring to fig. 1, the container mobile houses 100 are distributed in a single row and multiple columns, each column is a container mobile house 100, and the corner of each container mobile house 100 is a column corner.

Referring to fig. 5, the container prefabricated houses 100 are arranged in two rows and multiple columns, each column includes two container prefabricated houses 100, and the column edge of each column of container prefabricated houses 100 is the outermost edge of two container prefabricated houses 100. I.e., four corners of each row of containerized mobile homes 100, instead of four corners of each containerized mobile home 100, the four corners in the middle are provided without the embedment boxes 300 and jacks 400. That is, fig. 5 illustrates that the same row of container houses 100 is maintained at the same horizontal plane by using one square steel plate 700 for the multiple rows of container houses 100, and the elevation of each row of container houses 100 is adjusted by jacking the square steel plate 700 with the jacks 400, that is, the container houses 100 in the same row are integrated and modularized to adjust the overall elevation. Both fig. 1 and 5 enable the problem of adjusting the level consistency of the container booths 100 distributed in rows. The core technology is that the integral elevation of the container mobile houses 100 in the same row is adjusted through a jack, the container mobile houses are continuously adjusted row by row or randomly adjusted row by row, and the optimal mode is continuous adjustment row by row, so that the continuous adjustment of the container mobile houses 100 distributed in rows is realized, and the problem that the elevation is possibly subjected to height difference due to random adjustment is solved. For container houses 100 above three rows, the scheme of fig. 5 may be employed when there are an even number of rows of container houses. For the container type mobile house with odd number rows, the scheme of combining a single row in fig. 1 and a double row in fig. 5 can be adopted.

Referring to fig. 2 and fig. 6, in the elevation adjustment device for a row-distribution container mobile house according to the second embodiment of the present invention, the embedded box 300 is the embedded box 300 according to the first embodiment; the embedded box 300 is arranged on the outer side surface of the first and last rows of container moving houses 100, the box vertical plate 320, the box side plate 340 on one side and part of the box bottom plate 310 are positioned below the first and last rows of container moving houses 100 and partially extend to the outer side of the first and last rows of container moving houses 100, and the box inclined plate 330 of the embedded box 300 is positioned on the outer side of the first and last rows of container moving houses 100.

Referring to fig. 3 and 7, in the second embodiment of the present invention, an elevation adjustment device for a movable room with distributed containers is provided, in which the embedded box 300 is the embedded box 300 of the first embodiment; when the embedded box 300 is arranged at the corners of adjacent rows of container moving rooms 100, the box vertical plate 320 is located below the space between the container moving rooms 100 in the adjacent rows, the box side plates 340 and part of the box bottom plates 310 on both sides are partially located below the space between the container moving rooms 100 in the adjacent rows and partially extend to the outer sides of the container moving rooms 100 in the adjacent rows, and the box inclined plates 330 of the embedded box 300 are located on the outer sides of the container moving rooms 100 in the adjacent rows.

Referring to fig. 4 and 8, the terrace 200 may be of a concrete structure or a reinforced concrete structure.

Referring to fig. 1 to 8, a second embodiment of the present invention further provides a method for adjusting elevation of a container mobile house with distributed rows, where the apparatus for adjusting elevation of a container mobile house with distributed rows comprises:

step S910, referring to fig. 1 and 5, plan the positions of the container mobile homes 100 and the positions of the corresponding embedded boxes 300 in rows in the planning area.

Step S920, please refer to fig. 2 to 4 and fig. 6 to 8, construct the floor 200 in the planning area and pre-embed the embedded box 300 constructed in the floor 200.

Step S930, referring to fig. 1 to 8, the container mobile homes 100 are distributed in rows on the terrace 200, and the column corners of the container mobile homes 100 are disposed in the area of the embedded box 300.

In step S940, referring to fig. 4 and 8, a jack 400 is disposed between the embedded box 300 and the lower surface of the container mobile house 100.

In step S950, please refer to fig. 4 and 8, the jacks 400 in the embedded boxes 300 are lifted up to a predetermined elevation of the container mobile house 100. Wherein, the lifting heights of the jacks 400 are different because the height differences at the corners of the container mobile house 100 are different.

Step S960, referring to fig. 4 and 8, when a large gap exists between the raised container mobile house 100 and the floor 200, the steel backing plate 600 is plug-welded to the lower surface of the container mobile house 100, and slurry is poured into the remaining gap to form a filling cushion 500; wherein the filling pad layer 500 may be cement mortar or epoxy mortar. The steel tie plate 600 may be welded to the horizontal support plate 350 of the embedded box 300 at the same time, so as to improve the structural stability of the container prefabricated house 100 and the embedded box 300, and prevent the container prefabricated house 100 from being affected by external forces such as wind force and the like to generate position deviation. When a small gap exists between the container mobile house 100 and the floor 200 after being lifted, slurry is directly poured into the gap to form a filling cushion 500. Wherein the steel pallet 600 can be entirely inserted into the lower surface of the container mobile room 100 or the square steel plate 700 for supporting the square steel plate 700 or the container mobile room 100. Of course, the steel tie plate 600 may also partially extend into the area of the embedded tank 300 to facilitate the stuffing welding operation of the construction worker. Wherein the purpose of both the steel shim plate 600 and the filling shim 500 is to maintain the adjusted level.

Step S970, the jack 400 is retracted downward and the jack 400 is removed from the embedment box 300.

Step S980, the embedded tank 300 is buried to the upper surface of the floor 200 by an embedding body such as a concrete material.

Referring to fig. 4 to 8, a second method for adjusting elevation of container mobile rooms distributed in rows according to an embodiment of the present invention may further include, before step 930, that is, before container mobile rooms 100 are distributed in rows on terrace 200:

and step 921, arranging the square steel plate 700 on the floor 200 according to the position of the planned embedded box 300.

Step 922, connecting the square steel plate 700 with the lower surface of the container prefabricated house 100; wherein the connection of the square steel plate 700 to the container prefabricated house 100 can be welding or bolting. The purpose is to prevent the square steel plate 700 and the container prefabricated house 100 from generating position movement to influence the accuracy of elevation adjustment when the elevation adjustment is performed on the container prefabricated house 100 in the corresponding row. Fig. 5 shows the overall position relationship of the square steel plates 700, that is, the square steel plates 700 are disposed on the sides of all the container mobile homes 100 in each row, taking two rows as an example, 4 adjacent container mobile homes 100 are located on one square steel plate 700, and the first and last rows of the square steel plates 70 have 2 container mobile homes 100, and one side in the same direction is located on the first and last rows of the square steel plates 700 because there is no adjacent container mobile home 100.

And step 923, supporting the jacks 400 in the embedded box 300 on the square steel plate 700.

Step 924, the jack 400 is lifted upwards to lift the container prefabricated house 100 to a predetermined elevation through the square steel plate 700. Wherein the elevation is based on the upper surface or the lower surface of the container mobile house 100.

The second embodiment of the present invention provides a device and a method for adjusting elevation of a container prefabricated house with distributed rows, which can raise at least one of two rows of corners of the outer side surfaces of the first and last rows of container prefabricated houses 100 to a predetermined elevation position by the upward jacking jack 400, so that the whole rows of corners are raised to a predetermined elevation, and the construction efficiency of elevation adjustment is improved; at least one side corner of two container houses 100 of adjacent rows of container houses 100 can be synchronously lifted to a preset elevation by lifting the jack 400 upwards, so that the construction efficiency of elevation adjustment is improved. The device is particularly suitable for the elevation adjusting device of the container mobile house with double rows and multiple columns in row distribution.

The embodiment of the utility model provides a row's distribution container prefabricated house elevation adjusting device and method, after container prefabricated house 100 is raised predetermined elevation, pass through the lower surface of steel backing plate 600 plug welding at container prefabricated house 100 in great gap department, then all the other gap departments fill thick liquids and form and fill bed course 500. Wherein the steel backing plate 600 can be used for supporting the container, thereby improving the stress support of the container prefabricated house 100. The filling cushion layer 500 is a supplement to the steel tie plate 600, on one hand, the container mobile house 100 is prevented from possibly sinking after the jack 400 is removed to cause elevation change, and on the other hand, the influence of the sinking generated by the steel tie plate 600 being bent on the elevation of the container mobile house 100 can be prevented.

The embodiment of the utility model provides a second row's distribution container prefabricated house elevation adjusting device and method that provides still have the same beneficial effect of the container prefabricated house elevation adjusting device and method of above-mentioned embodiment one.

The utility model discloses above-mentioned embodiment one, two, its predetermined elevation can be measured through measuring equipment such as total powerstation measurement, and its regulation order can be that elevation is adjusted once in every installation container prefabricated house.

The utility model discloses in above-mentioned embodiment one, two, optimized the regulation technology in container prefabricated house, elevation that can every or every row of container prefabricated house of accurate, convenient regulation. Compared with the traditional adjusting technology, the construction efficiency of elevation adjustment is improved, the adjusting precision is improved, and the convenience of adjustment is improved. Additionally, the embodiment of the present invention provides a second method and device for adjusting the elevation of a single-row distributed container house 100 without a square steel plate, which aims to reduce the cost and save the material.

The embodiment of the utility model provides a row's distribution container prefabricated house elevation adjusting device and method that provide is applicable to interim or urgent medical treatment building.

The present invention is not limited to the above embodiments, and various changes and decorations made within the scope of the present invention are all within the protection scope of the present invention.

Claims (9)

1. The utility model provides a container prefabricated house elevation adjusting device which characterized in that includes:

the container mobile house is arranged on the terrace;

the embedded box is embedded downwards along the upper surface of the terrace and is arranged in the terrace, and part of the embedded box is positioned below the container prefabricated house and part of the embedded box extends to the outer side of the container prefabricated house;

and the jack is arranged between the embedded box and the lower surface of the container prefabricated house.

2. The container mobile home elevation adjusting device as claimed in claim 1, wherein the embedded tank comprises a tank bottom plate, a tank vertical plate, a tank inclined plate and two tank side plates, wherein the tank vertical plate, the tank inclined plate and the two tank side plates are arranged along the edge of the tank bottom plate in an upward extending manner.

3. The container mobile home elevation adjusting device of claim 2, wherein the embedded tank further comprises a horizontal support plate arranged perpendicular to the tank vertical plate, a stiffening plate is connected between the tank vertical plate and the horizontal support plate, and the horizontal support plate is flush with the upper surface of the floor.

4. The elevation adjustment device for the container mobile house according to claim 1, comprising:

after the jack is lifted upwards to the preset elevation of the container prefabricated house, a steel base plate and/or a filling cushion layer are/is arranged at the gap between the container prefabricated house and the floor.

5. The utility model provides a arrange distribution container prefabricated house elevation adjusting device which characterized in that includes:

the container mobile houses are distributed on the terrace in rows;

pre-buried boxes which are arranged in the terrace along the upper surface of the terrace downwards are arranged at the column edge of the outer side surface of the container prefabricated houses in the first and the last columns and the adjacent column edge of the container prefabricated houses in the adjacent columns, and the pre-buried boxes are partially positioned below the container prefabricated houses and partially extend to the outer sides of the container prefabricated houses;

jacks are arranged between the pre-buried boxes on the outer side surfaces of the container prefabricated houses in the first row and the last row and the lower surfaces of the container prefabricated houses in the first row and the last row, one jack for jointly supporting two rows of container prefabricated houses is arranged between the pre-buried box between the container prefabricated houses in the adjacent row and the lower surfaces of the container prefabricated houses in the adjacent row, or two jacks for respectively supporting two rows of container prefabricated houses are arranged between the pre-buried box between the container prefabricated houses in the adjacent row and the lower surfaces of the container prefabricated houses in the adjacent row.

6. The elevation adjustment device for the container prefabricated house according to claim 5, wherein a square steel plate is connected between the row corners of the lower surfaces of the container prefabricated houses in the first and last rows and between the adjacent row corners of the lower surfaces of the container prefabricated houses in the adjacent rows, the square steel plate is located above the floor and extends into the embedded box, and the jack is arranged between the lower surface of the container prefabricated house and the corresponding embedded box through the square steel plate.

7. The elevation adjustment device for the movable container house according to claim 5, wherein the pre-buried box is the pre-buried box in the elevation adjustment device for the movable container house according to claim 2 or 3; the embedded box is arranged on the outer side surface of the first and last rows of container moving houses, the box vertical plates, the box side plates on one side and part of the box bottom plates are positioned below the first and last rows of container moving houses, part of the box vertical plates extend to the outer side of the first and last rows of container moving houses, and the box inclined plates of the embedded box are positioned on the outer side of the first and last rows of container moving houses.

8. The elevation adjustment device for the movable container house according to claim 5, wherein the pre-buried box is the pre-buried box in the elevation adjustment device for the movable container house according to claim 2 or 3; when the embedded box is arranged at the adjacent row corners of the adjacent rows of the movable houses for the containers, the box vertical plate is positioned below the space between the adjacent rows of the movable houses for the containers, the box side plates and part of the box bottom plate at two sides are positioned below the space between the adjacent rows of the movable houses for the containers, part of the box side plates and part of the box bottom plate extend to the outer sides of the adjacent rows of the movable houses for the containers, and the box inclined plates of the embedded box are positioned at the outer sides of the adjacent rows of the movable houses for the containers.

9. The elevation adjustment device for the mobile house with the row distribution container as claimed in claim 5, comprising: after the jacks in the pre-buried boxes are jacked upwards to the preset elevation of the container prefabricated house, a gap exists between the container prefabricated house and the floor, and a steel base plate and/or a filling cushion layer are/is arranged at the position of the larger gap.

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