CN115199137B - Winter construction enclosure device - Google Patents

Abstract

The application relates to a winter construction enclosure, which comprises a first baffle plate, a second baffle plate and a first baffle plate, wherein the first baffle plate is used for forming a main body part of a wind-shielding wall surface; the plate body of the second baffle is L-shaped, and the second baffle is used for connecting the first baffle adjacent to the second baffle at the corner of the wall surface; the connecting mechanism is arranged on the first baffle plate and the second baffle plate and is used for connecting two adjacent first baffle plates or connecting the first baffle plates and the second baffle plates in the horizontal direction so as to form a layer of wall surface in the horizontal direction; the fastening mechanism is arranged on the first baffle and the second baffle and used for fixing two adjacent layers of wall surfaces in the vertical direction, so that the wall surfaces of the multiple layers in different vertical directions are fixed. The method has the effect of enhancing the wind shielding effect of the enclosure device on the construction site in winter.

Description

Winter construction enclosure device

Technical Field

The application relates to the field of building construction, in particular to a containment device for winter construction.

Background

In the daily building construction process, the construction site needs to be surrounded, the functions of defining the site, isolating construction and protecting the site are achieved, and the surrounding is simply achieved by wrapping the site by using the coaming.

In practical application, workers usually connect construction wastes such as iron plates and wood plates and the like left on a construction site together through steel wires when enclosing the construction site.

With respect to the related art, the inventor considers that the existing enclosure device cannot effectively play a role in wind shielding in the actual application process, and particularly in winter, the winter cold air passing through the existing enclosure device is not beneficial to the construction of workers on the construction site and the maintenance of the poured concrete on the construction site.

Disclosure of Invention

In order to enhance the wind shielding effect on a construction site enclosure in winter, the present application provides a winter construction enclosure.

The application provides a winter construction enclosure adopts following technical scheme:

a winter construction enclosure comprising: a first baffle for constituting a main body portion of a wind shielding wall surface; the plate body of the second baffle is L-shaped, and the second baffle is used for connecting the first baffle adjacent to the second baffle at the corner of the wall surface; the connecting mechanism is arranged on the first baffle plate and the second baffle plate and is used for connecting two adjacent first baffle plates or connecting the first baffle plates and the second baffle plates in the horizontal direction so as to form a layer of wall surface in the horizontal direction; the fastening mechanism is arranged on the first baffle and the second baffle and used for fixing two adjacent layers of wall surfaces in the vertical direction, so that the wall surfaces of the multiple layers in different vertical directions are fixed.

Through adopting above-mentioned technical scheme, when needs are enclosing construction area, splice a plurality of first baffles together through coupling mechanism to choose to splice first baffle and second baffle in the corner, thereby accomplish the assembly to the wind-break wall face of one deck, afterwards the accessible fastening mechanism is fixed the top at first layer wind-break wall face with next layer wind-break wall face, thereby realize assembling with wind-break wall face, and then strengthen the wind-break effect to the containment device of job site in winter.

Optionally, the connecting mechanism includes a first plugging slot disposed on one of vertical side walls of the first baffle or the second baffle perpendicular to the wall surface, a first plugging block is disposed on the other vertical side wall of the first baffle or the second baffle perpendicular to the wall surface, and the first plugging block on one of the first baffle or the second baffle can be plugged into the first plugging slot on the other of the first baffle or the second baffle.

Through adopting above-mentioned technical scheme, when splice first baffle and second baffle, the first grafting piece of first baffle or second baffle is pegged graft with the first grafting groove of next first baffle or second baffle, so end to end, and then finishes the assembly of wind-break wall.

Optionally, locking mechanisms for fixing two adjacent first baffles or the first baffle and the second baffle are arranged on the side walls of the first baffle and the second baffle

By adopting the technical scheme, the setting of the locking mechanism enhances the stability of connection between two adjacent first baffles or the first baffle and the second baffle which are positioned on the same height layer.

Optionally, the locking mechanism includes and offers first screw hole on the vertical lateral wall that first baffle and second baffle are parallel with the wall, first screw hole with first spliced groove intercommunication, offer on the first spliced block with the second screw hole of first screw hole intercommunication, first screw hole internal thread has the first bolt of same and second screw hole threaded connection.

By adopting the technical scheme, when two adjacent first baffles or first baffles and second baffles are required to be fixed, first the first inserting block of one first baffle or second baffle is inserted into the first inserting groove of the other first baffle or second baffle adjacent to the first baffle or second baffle, and then the first bolt is inserted into the first threaded hole and the second threaded hole, so that the two adjacent first baffles or first baffles and second baffles are fixed.

Optionally, the fastening mechanism includes respectively with first baffle with the vertical lateral wall bottom fixed connection of second baffle and wall parallel, first baffle with the vertical lateral wall top equal fixedly connected with second connecting plate of second baffle and wall parallel, third screw hole has inwards been seted up to first connecting plate upper surface, fourth screw hole has inwards been seted up to second connecting plate upper surface, third screw hole internal thread connection has the fastening bolt of same and fourth screw hole threaded connection.

Through adopting above-mentioned technical scheme, when needs are in different vertical direction with the multilayer and go on fixing, at first with the first connecting plate laminating that is in the upper strata and the second connecting plate that is in the lower floor together to make third screw hole and fourth screw hole align, then insert fastening bolt in follow third screw hole and the fourth screw hole, fix first connecting plate and second connecting plate, thereby make the wall that is in the top and the wall that is in the below link together.

Optionally, the connecting mechanism includes setting up first baffle or second baffle and the vertical lateral wall on one of them vertical lateral wall of wall, the second spliced groove is "T" groove, be provided with the second grafting piece on the vertical lateral wall of first baffle or second baffle and wall, the second grafting piece is "T" shape setting.

Through adopting above-mentioned technical scheme, through setting up second jack groove and second grafting piece to "T" shape, reduced the probability that two adjacent first baffles or first baffle and second baffle are installed together after breaking away from.

Optionally, a support component for supporting the first baffle or the second baffle is further arranged on one side of the construction area where the first baffle or the second baffle is close to.

Through adopting above-mentioned technical scheme, the setting of supporting component has supported the wall of keeping out the wind from the wall of keeping out the wind near one side of construction area, has reduced the stability that the wall of keeping out the wind erects subaerial.

Optionally, the supporting component includes the first backup pad of being connected with second connecting plate lower surface, the second connecting plate upper surface inwards has seted up the fifth screw hole with fourth screw hole intercommunication, first backup pad lower surface fixedly connected with bracing piece, first backup pad one end fixedly connected with second backup pad is kept away from to the bracing piece, second backup pad upper surface inwards is provided with the sixth screw hole, sixth screw hole internal thread connection has the first rag bolt that carries out the fixation with second backup pad and ground.

Through adopting above-mentioned technical scheme, when needs support first baffle or second baffle, at first support the lower surface with first backup pad and second connecting plate tightly, make fifth screw hole and fourth screw hole align simultaneously, make fastening bolt pass fifth screw hole when passing third screw hole and fourth screw hole to fix first backup pad and second connecting plate, then make first rag bolt pass sixth screw hole, thereby fix second backup pad and ground, the supporting rod supports first backup pad, and then supports first baffle or second baffle.

Optionally, a plurality of supporting component can splice together thereby support the wall that is in higher layer, and wherein threaded connection has the second bolt between fifth screw hole and the sixth screw hole, is located the bottommost second backup pad below is provided with the backing plate, the backing plate upper surface has seted up the confession the seventh screw hole that first rag bolt passed.

Through adopting above-mentioned technical scheme, when the baffle of the high-rise of needs to splice supports, can splice a plurality of supporting components together to realize supporting the wall from higher department, when needs splice a plurality of supporting components together, at first align the fifth screw hole on the second backup pad of one supporting component with another supporting component with the sixth screw hole on, and insert the second bolt along fifth screw hole and sixth screw hole, thereby link together two supporting components.

Optionally, a seventh threaded hole is formed in the vertical side wall, far away from the construction area, of the second baffle, and a screw is connected to the seventh threaded hole in an internal thread mode.

By adopting the technical scheme, the screws at four corners of the wind-shielding wall enclosed by the construction area are convenient for binding materials such as plastic cloth at the top, so that the influence of external climate on the internal construction area is reduced.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when a construction area is required to be enclosed, a plurality of first baffles are spliced together through a connecting mechanism, the first baffles and the second baffles are spliced together at corners, so that the assembly of the wind-shielding wall surface of one layer is completed, then the next wind-shielding wall surface can be fixed above the first wind-shielding wall surface through a fastening mechanism, the assembly of the wind-shielding wall surface is realized, and the wind-shielding effect of an enclosure device on a construction site is further enhanced in winter;

2. when the wall surfaces of the layers in different vertical directions are required to be fixed, the first connecting plate in the upper layer is attached to the second connecting plate in the lower layer, the third threaded hole is aligned with the fourth threaded hole, and then fastening bolts are inserted into the third threaded hole and the fourth threaded hole to fix the first connecting plate and the second connecting plate, so that the wall surface in the upper layer is connected with the wall surface in the lower layer.

Drawings

FIG. 1 is a schematic structural view of embodiment 1 of the present application;

fig. 2 is a schematic structural view of a second baffle plate in embodiment 1 of the present application;

FIG. 3 is a schematic view showing the structure of a pad in embodiment 1 of the present application;

fig. 4 is a schematic structural view of embodiment 2 of the present application.

Reference numerals illustrate: 1. a first baffle; 11. a second anchor bolt; 2. a second baffle; 21. an eighth threaded hole; 22. a screw; 3. a connecting mechanism; 31. a first socket groove; 32. a first plug block; 33. a second insertion groove; 34. a second plug block; 4. a fastening mechanism; 41. a first connection plate; 42. a second connecting plate; 43. a third threaded hole; 44. a fourth threaded hole; 45. a fastening bolt; 5. a locking mechanism; 51. a first threaded hole; 52. a second threaded hole; 53. a first bolt; 6. a support assembly; 61. a first support plate; 611. a support rod; 63. a second support plate; 64. a sixth threaded hole; 65. a first anchor bolt; 66. a second bolt; 67. a backing plate; 68. and a seventh threaded hole.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-4.

The embodiment of the application discloses a winter construction enclosure device.

Example 1

Referring to fig. 1 and 2, a winter construction containment device includes: a first baffle 1, a second baffle 2, a connecting mechanism 3 and a fastening mechanism 4. The first baffle 1 is a main body part forming a wind-shielding wall, the second baffle 2 is L-shaped, and the second baffle 2 is arranged at the corner of the assembled wind-shielding wall and is used for connecting the first baffles 1 on two adjacent wall surfaces. Wherein the connecting mechanism 3 is arranged on the first baffle plate 1 and the second baffle plate 2 and is used for connecting two adjacent first baffle plates 1 in the horizontal direction or connecting the first baffle plates 1 and the second baffle plates 2 so as to form a layer of wall surface in the horizontal direction.

When the working area is smaller, the four or two second baffles 2 can be connected end to end, the participation of the first baffle 1 is not needed when the four second baffles 2 are connected end to form the wind screen wall, and when the two second baffles 2 are connected, the enclosure of the working area with smaller width can be realized. In addition, the staff can also assemble the first baffle plate 1 independently, so that a single-face wind-shielding wall is formed, the single-face wind-shielding wall does not need the composition of the second baffle plate 2, and the staff can select a proper combination mode according to the actual situation of the site.

Referring to fig. 1, a fastening mechanism 4 is provided on a first barrier 1 and a second barrier 2 for fixing two adjacent wall surfaces in a vertical direction, thereby fixing the wall surfaces of the multiple layers in different vertical directions.

When the construction area is required to be enclosed, the plurality of first baffles 1 are spliced together through the connecting mechanism 3, the first baffles 1 and the second baffles 2 are spliced together at corners, so that the assembly of the wind-shielding wall surface of one layer is completed, the next wind-shielding wall surface is fixed above the first wind-shielding wall surface through the fastening mechanism 4, the assembly of the wind-shielding wall surface is realized, and the wind-shielding effect of the enclosure device on the construction site is further enhanced in winter.

Referring to fig. 1, the connection mechanism 3 includes a first insertion groove 31 provided on one of vertical side walls of the first or second barrier 1 or 2 perpendicular to the wall surface, and a first insertion block 32 fixedly connected to the other vertical side wall of the first or second barrier 1 or 2 perpendicular to the wall surface, and the first insertion block 32 on one of the first or second barriers 1 or 2 can be inserted into the first insertion groove 31 on the other first or second barrier 1 or 2 so as to connect two adjacent first or second barriers 1 or 2 together. The side walls of the first baffle plate 1 and the second baffle plate 2 are respectively provided with a locking mechanism 5 for fixing two adjacent first baffle plates 1 or the first baffle plates 1 and the second baffle plates 2.

When the first baffle plate 1 and the second baffle plate 2 are spliced, the first plug-in block 32 of the first baffle plate 1 or the second baffle plate 2 is plugged with the first plug-in groove 31 of the next first baffle plate 1 or the second baffle plate 2, and the first plug-in blocks and the second plug-in groove are sequentially connected according to the method, so that the wind shielding wall is assembled, the construction area is enclosed, and the influence of external wind on the construction area is reduced. The provision of the locking mechanism 5 further enhances the stability of the connection between two adjacent first baffles 1 or first baffles 1 and second baffles 2 at the same level.

Referring to fig. 1, the locking mechanism 5 includes a first threaded hole 51 formed in a vertical sidewall of the first and second shutters 1 and 2 parallel to the wall surface, the first threaded hole 51 is communicated with the first insertion groove 31, a second threaded hole 52 communicated with the first threaded hole 51 is formed in the first insertion block, and a first bolt 53 which is also in threaded connection with the second threaded hole 52 is threaded in the first threaded hole 51.

When two adjacent first baffles 1 or two adjacent first baffles 1 and 2 are required to be fixed, first, a first inserting block of one first baffle 1 or two adjacent second baffles 2 is inserted into a first inserting groove 31 of the other first baffle 1 or two adjacent second baffles 2, and then a first bolt 53 is inserted into a first threaded hole 51 and a second threaded hole 52, so that the two adjacent first baffles 1 or 1 and 2 are fixed.

Referring to fig. 1, the fastening mechanism 4 is used for fixing two adjacent layers of wall surfaces in the vertical direction, the fastening mechanism 4 comprises a first connecting plate 41 fixedly connected with the bottoms of vertical side walls parallel to the wall surfaces of the first baffle plate 1 and the second baffle plate 2 respectively, a second connecting plate 42 is fixedly connected with the tops of the vertical side walls parallel to the wall surfaces of the first baffle plate 1 and the second baffle plate 2 respectively, a third threaded hole 43 is formed in the upper surface of the first connecting plate 41 inwards, a fourth threaded hole 44 is formed in the upper surface of the second connecting plate 42 inwards, and a fastening bolt 45 which is also in threaded connection with the fourth threaded hole 44 is connected in the third threaded hole 43.

When the multi-layer wall surfaces in different vertical directions are selected to be fixed, the first connecting plate 41 in the upper layer and the second connecting plate 42 in the lower layer are attached together, the third threaded hole 43 and the fourth threaded hole 44 are aligned, and then the fastening bolt 45 is inserted into the third threaded hole 43 and the fourth threaded hole 44 to fix the first connecting plate 41 and the second connecting plate 42, so that the upper wall surface and the lower wall surface are connected together.

The side of the construction area where the first baffle plate 1 or the second baffle plate 2 is close to is also provided with a supporting component 6 which plays a supporting role on the first baffle plate 1 or the second baffle plate 2. The arrangement of the support assembly 6 supports the wind-blocking wall surface from the side thereof close to the construction area, and reduces the stability of the wind-blocking wall surface standing on the ground.

Referring to fig. 1, the support assembly 6 includes a first support plate 61 connected to the lower surface of the second connection plate 42, a fifth screw hole communicating with the fourth screw hole 44 is formed in the upper surface of the first support plate 61, a support rod 611 is fixedly connected to the lower surface of the first support plate 61, a second support plate 63 is fixedly connected to one end of the support rod 611, which is far away from the first support plate 61, a sixth screw hole 64 is formed in the upper surface of the second support plate 63, and a first anchor bolt 65 for fixing the second support plate 63 to the ground is connected to the sixth screw hole 64.

When the first or second barrier 1 or 2 is to be supported, the lower surfaces of the first and second support plates 61 and 42 are first abutted while the fifth and fourth screw holes 44 are aligned, the fastening bolts 45 are passed through the fifth screw holes while passing through the third and fourth screw holes 43 and 44, thereby fixing the first and second support plates 61 and 42, and then the first anchor bolts 65 are passed through the sixth screw holes 64, thereby fixing the second support plate 63 and the ground, and the support rods 611 support the first support plate 61, and thus the first or second barrier 1 or 2.

Referring to fig. 1 and 3, when the support assembly 6 is required to support, a plurality of support assemblies 6 can be spliced together to support a wall surface at a higher level, wherein a second bolt 66 is connected between a fifth threaded hole and a sixth threaded hole 64 in a threaded manner, a backing plate 67 is arranged below the second support plate 63 at the bottommost portion, and a seventh threaded hole 68 for the first anchor bolt 65 to pass through is formed in the upper surface of the backing plate 67.

When the spliced baffle plates on the high layers are required to be supported, a plurality of support assemblies 6 can be spliced together so as to realize the support of the wall surface from a higher position, and when the plurality of support assemblies 6 are required to be spliced together, the sixth threaded holes 64 on the second support plate 63 of one support assembly 6 are aligned with the fifth threaded holes on the other support assembly 6, and the second bolts 66 are inserted along the fifth threaded holes and the sixth threaded holes 64 so as to connect the two support assemblies 6 together.

The first support plate 61 not only can be used for connecting with the second support plate 63 on the other support assembly 6, but also can serve to connect the support assembly 6 with the second connection plate 42, and meanwhile, the surface contact between the first support plate 61 and the second support plate 63 also enhances the stability of the support assembly 6 in the support process. The second support plate 63 can be used not only for connection with the first support plate 61 on the other support assembly 6, but also for fixation to the ground by means of the first anchor bolts 65. In addition, the arrangement of the first support plate 61 and the second support plate 63 makes the connection between the first support plate 61 and the second connection plate 42 and between the second support plate 63 and the bottom surface more stable.

Referring to fig. 1 and 2, a seventh screw hole 68 is provided in a vertical sidewall of the second barrier 2 remote from the construction area, and a screw 22 is internally screw-coupled to the seventh screw hole. The arrangement of the screw 22 enables a constructor to cover plastic cloth or other wind and rain shielding parts above the enclosed construction area when the wind-proof front wall encloses the construction area, thereby forming a relatively closed environment at the construction area, reducing the influence of external weather in winter on the internal construction area and facilitating the maintenance of concrete products in the construction area in winter.

The implementation principle of the embodiment 1 is as follows: when the first baffle plate 1 and the second baffle plate 2 are spliced, the first plug-in block 32 of the first baffle plate 1 or the second baffle plate 2 is plugged with the first plug-in groove 31 of the next first baffle plate 1 or the second baffle plate 2, so that the wind screen wall is assembled end to end; when two adjacent first baffles 1 or first baffles 1 and second baffles 2 need to be fixed, first, a first inserting block 32 of one first baffle 1 or second baffle 2 is inserted into a first inserting groove 31 of the other first baffle 1 or second baffle 2 adjacent to the first baffle 1 or second baffle 2, and then a first bolt 53 is inserted into a first threaded hole 51 and a second threaded hole 52, so that the two adjacent first baffles 1 or first baffles 1 and second baffles 2 are fixed; when multiple layers of wall surfaces in different vertical directions are required to be fixed, firstly, attaching a first connecting plate 41 in an upper layer and a second connecting plate 42 in a lower layer together, aligning a third threaded hole 43 with a fourth threaded hole 44, and then inserting a fastening bolt 45 along the third threaded hole 43 and the fourth threaded hole 44 to fix the first connecting plate 41 and the second connecting plate 42; when the first or second barrier 1 or 2 is to be supported, the lower surfaces of the first and second support plates 61 and 42 are first abutted while the fifth and fourth screw holes 44 are aligned, the fastening bolts 45 are passed through the fifth screw holes while passing through the third and fourth screw holes 43 and 44, thereby fixing the first and second support plates 61 and 42, and then the first anchor bolts 65 are passed through the sixth screw holes 64, thereby fixing the second support plate 63 and the ground, and the support rods 611 support the first support plate 61, and thus the first or second barrier 1 or 2.

Example 2

Referring to fig. 4, the present embodiment is different from embodiment 1 in that the connection mechanism 3 includes a second insertion groove 33 provided on one of the vertical side walls of the first baffle plate 1 or the second baffle plate 2 perpendicular to the wall surface, the second insertion groove 33 is a "T" groove, a second insertion block 34 is provided on the other vertical side wall of the first baffle plate 1 or the second baffle plate 2 perpendicular to the wall surface, and the second insertion block 34 is provided in a "T" shape. The second insertion groove 33 can also be provided in other shapes, and the second insertion block 34 is provided in a shape matching the second insertion groove 33. As long as the width of the bottom of the second insertion groove 33 is smaller than the width of the opening of the second insertion groove 33, the second insertion block 34 is not slid out of the second insertion groove 33 from the horizontal direction after being inserted into the second insertion groove 33, and is selected to be "T" shape.

By setting the second insertion groove 33 and the second insertion block 34 to be "T" shape, the probability of detachment after the adjacent two first barriers 1 or the first barriers 1 and the second barriers 2 are mounted together is reduced, and the stability of the adjacent two first barriers 1 or the first barriers 1 and the second barriers 2 being mounted together is increased.

In this application, unless specifically stated and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (5)

1. A winter construction enclosure, comprising:

a first baffle (1), wherein the first baffle (1) is used for forming a main body part of a wind-shielding wall surface;

the second baffle (2) is arranged in an L shape, and the second baffle (2) is used for connecting the first baffle (1) adjacent to the second baffle at the corner of the wall surface;

the connecting mechanism (3) is arranged on the first baffle plate (1) and the second baffle plate (2) and is used for connecting two adjacent first baffle plates (1) in the horizontal direction or connecting the first baffle plates (1) and the second baffle plates (2) so as to form a layer of wall surface in the horizontal direction;

the fastening mechanism (4) is arranged on the first baffle (1) and the second baffle (2) and is used for fixing two adjacent layers of wall surfaces in the vertical direction, so that the wall surfaces of multiple layers in different vertical directions are fixed;

the fastening mechanism (4) comprises a first connecting plate (41) fixedly connected with the bottoms of vertical side walls parallel to the wall surfaces of the first baffle (1) and the second baffle (2), a second connecting plate (42) is fixedly connected to the tops of the vertical side walls parallel to the wall surfaces of the first baffle (1) and the second baffle (2), a third threaded hole (43) is formed in the upper surface of the first connecting plate (41) inwards, a fourth threaded hole (44) is formed in the upper surface of the second connecting plate (42) inwards, and a fastening bolt (45) which is also in threaded connection with the fourth threaded hole (44) is connected with the inner threads of the third threaded hole (43);

a supporting component (6) which is used for supporting the first baffle (1) or the second baffle (2) is arranged on one side of the construction area, which is close to the first baffle (1) or the second baffle (2);

the support assembly (6) comprises a first support plate (61) connected with the lower surface of a second connecting plate (42), a fifth threaded hole communicated with a fourth threaded hole (44) is formed in the upper surface of the first support plate (61) inwards, a support rod (611) is fixedly connected to the lower surface of the first support plate (61), a second support plate (63) is fixedly connected to one end, far away from the first support plate (61), of the support rod (611), a sixth threaded hole (64) is formed in the upper surface of the second support plate (63) inwards, and a first foundation bolt (65) for fixing the second support plate (63) and the ground is connected to the inner threads of the sixth threaded hole (64);

an eighth threaded hole (21) is formed in the vertical side wall, far away from the construction area, of the second baffle (2), and a screw rod (22) is connected with the eighth threaded hole (21) in a threaded manner;

the support assembly (6) is provided with a plurality of, and a plurality of thereby support assembly (6) can splice together and support being in the wall of higher floor, wherein threaded connection has second bolt (66) between fifth screw hole and the sixth screw hole (64), is located bottommost second backup pad (63) below is provided with backing plate (67), the confession has been seted up to backing plate (67) upper surface first rag bolt (65) pass seventh screw hole (68).

2. The winter construction containment device of claim 1, wherein: the connecting mechanism (3) comprises a first inserting groove (31) formed in one of vertical side walls of the first baffle (1) or the second baffle (2) perpendicular to the wall surface, a first inserting block (32) is arranged on the other vertical side wall of the first baffle (1) or the second baffle (2) perpendicular to the wall surface, and the first inserting block (32) on the first baffle (1) or the second baffle (2) can be inserted into the first inserting groove (31) on the other first baffle (1) or the second baffle (2).

3. A winter construction containment device as claimed in claim 2, wherein: the side walls of the first baffle plate (1) and the second baffle plate (2) are respectively provided with a locking mechanism (5) for fixing two adjacent first baffle plates (1) or the first baffle plates (1) and the second baffle plates (2).

4. A winter construction containment device according to claim 3, wherein: the locking mechanism (5) comprises a first threaded hole (51) formed in the vertical side wall, parallel to the wall, of the first baffle (1) and the second baffle (2), the first threaded hole (51) is communicated with the first inserting groove (31), a second threaded hole (52) communicated with the first threaded hole (51) is formed in the first inserting block (32), and a first bolt (53) which is connected with the second threaded hole (52) in a threaded mode is connected in the first threaded hole (51) in an internal threaded mode.

5. The winter construction containment device of claim 1, wherein: the connecting mechanism (3) comprises a second inserting groove (33) arranged on one of the vertical side walls of the first baffle (1) or the second baffle (2) perpendicular to the wall surface, the second inserting groove (33) is a T-shaped groove, a second inserting block (34) is arranged on the other vertical side wall of the first baffle (1) or the second baffle (2) perpendicular to the wall surface, and the second inserting block (34) is arranged in a T-shaped mode.