KR102524225B1 - Truss girder deck panel combined with insulator - Google Patents

Abstract

In the present invention, in the truss girder-type deck panel configured by combining the truss girder 40 with a method such as welding to the upper part of the deck plate 10 and the insulator 60 to the lower part of the deck plate 10,
The deck plate 10 is formed with plate parts 16 at the left and right ends so that when the deck panels in the state in which the heat insulating material is coupled are arranged left and right, they are coupled to each other, but one plate part of the left and right plate parts 16 (16A) (right side in the drawing) is formed with a coupling protrusion 18, and the other side plate portion (16B) (left side in the drawing) has a coupling protrusion ( 18) forms a coupling groove 70 so that it is fitted,
The coupling protrusion 18 of the one side plate portion 16A forms an inclined connection portion 18a extending obliquely from the end of the bottom portion 11 of the deck plate 10 toward the inside of the upper portion (toward the main body portion of the deck plate), ,
The coupling groove portion 70 of the other plate portion 16B is formed by sequentially forming an inner wall portion 76, an upper connection portion 72, and an outer wall portion 74 from the end of the bottom portion 11 to the upper outer side, thereby opening to the lower portion. The coupling protrusion 18 is inserted and hooked to have a shape, but a stepped portion 76a is formed at the lower end of the inner wall portion 76, that is, a portion in contact with the bottom portion 11, and the outer wall portion 74 is Formed inclined from the upper connection part 72 to the lower inner side (in the direction of the body part of the deck plate), the hook-shaped upper hanging part 77 is formed at the contact part between the outer wall part 74 and the connecting part 72,
When installing the deck panel array, place the deck panel (defined as B deck panel) to be installed next to it in the direction to be installed based on the deck panel (defined as A deck panel) installed first, but one side plate belonging to A deck panel (16A) And the B deck panel B by the operation of lifting the part where the one side plate 16A of the B deck panel is formed in a state where the other side plate 16B belonging to the B deck panel is in close proximity to each other as well as the heat insulating material 60 side to each other. By the operation of lifting the opposite part of the deck panel, that is, the part where the one side plate 16A is formed, the coupling groove 70 of the other side plate 16B of the B deck panel is naturally opened on one side of the A deck panel ( 16A) is engaged with the coupling protrusion 18,
In the above state, when the part lifted to the top of the B deck panel is lowered again, the coupling between the plate parts 16A and 16B is automatically performed, and the B deck panel rotates in the opposite direction with the plate parts 16A and 16B as the central axis In this process, the upper end 18b of the inclined connection part 18a constituting the one side plate part 16A is fitted into the upper hanging part 77 of the other side plate part 16B, and the inclined connection part 18a The lower end (18c) of the is fitted to the stepped portion (76a) of the other side plate (16B) so that they are tightly coupled to each other.

Description

Truss girder deck panel combined with insulation {TRUSS GIRDER DECK PANEL COMBINED WITH INSULATOR}

The present invention relates to a truss girder-type deck panel, and in particular, in a state where a heat insulator is attached to a deck plate by wire attachment, when the deck panels are coupled together, the adjacent insulators are closely bonded to each other so as to enhance the insulation effect and smooth construction It relates to a truss girder type deck panel.

The construction method of the ceiling constituting the building has repeatedly developed, and now the construction method using the deck plate is widely used.

1 shows an integrated deck panel (DP) using a truss girder-type deck plate, and is a structure in which a truss girder 300 is integrally coupled to the top of a knurled deck plate 100 by welding or the like.

These truss girder-type deck panels (DP) are constructed between beams and beams, which are structures for constructing buildings, and concrete casting and curing processes are performed thereon.

As described above, if the ceiling construction is performed using the truss girder type deck panel (DP), the formwork for floor concrete construction is not required, so the time and cost required for temporary construction can be reduced, and only the continuous mounting and fixing of unit products is possible. Since the construction is carried out, the construction can be done quickly and easily.

Recently, a truss girder-type deck panel construction method in which an insulating material is coupled to a truss girder-type deck panel (DP) has been proposed. Insulation combined deck panels can be divided into pre-attached and post-attached depending on the way the insulation is combined. It is cumbersome even though it requires concentration because you have to attach it one by one toward the . However, even if an attempt is made to stick tightly in the cutting or attaching process, as a result, there is a problem in that many gaps occur between the insulation materials, and a large amount of waste is generated at the site, resulting in an increase in processing cost.

On the other hand, the applicant of the present application has been registered for Korean Patent Registration No. 10-1706086 “A deck plate with an insulation material and a truss girder type deck panel with an insulation material using the same” (prior literature).

2 is a drawing (corresponding to FIG. 8 of the publication) described in the publication of the prior art document. Referring to the drawing, the insulation integrated truss girder type deck panel 2 is coupled to the deck plate by welding, etc., and the truss girder is A state in which the heat insulating material 60 is integrally coupled to the lower portion of the plate 10 with an adhesive or the like is shown.

However, when the insulation-integrated deck panel 2 shown in the prior art document is connected left and right, the deck panel 2 to be installed with respect to the first installed deck panel 2 is moved from the top to the bottom or pushed sideways to combine. If it is moved from the top to the bottom, damage may occur due to friction between the sides of the insulator 60 when coupled, and a gap may occur when coupled by moving to the side. However, the thermal insulation effect is increased only when close bonding between the insulation materials (60) occurs. problems can arise.

The applicant of the present application has discovered the following problems when arranging and combining the deck panel 2 to which the heat insulating material is coupled to the top of the beam. That is, the deck panel 2 to which the heat insulating material is coupled is formed to have a long length, and its weight is also quite heavy. The method of lifting the entire deck panel 2, which is a weight body, and moving it from the top to the bottom when combining it increases the fatigue of the work.

In addition, the required amount of the deck combined with the heat insulating material is relatively small compared to the general integrated deck in which the heat insulating material is not combined. In addition, it could not be used for common use because the plate of the insulation deck and the plate of the integrated deck were different, and accordingly, the steel plate for the insulation deck with a relatively small amount of production had to be produced in a separate facility, resulting in low economic feasibility.

Korean Registered Patent No. 10-1706086 “Deck plate with insulation and truss girder type deck panel with insulation using the same”

Therefore, in the present invention, in constructing a heat insulating material-integrated deck panel, the heat insulating material is configured in a pre-attached manner, and the bonding between the deck panels is easily performed, and in particular, the heat insulating effect is increased and the pouring down of the concrete pouring liquid is achieved It is to provide a deck panel that can prevent.

In addition, the present invention is to provide a deck panel that can be used in common because the integrated deck and the insulation deck have the same plate part, enabling production in the same facility to improve economic efficiency.

In the present invention for achieving the above object, the truss girder 40 is coupled to the upper part of the deck plate 10 by a method such as welding, and the insulator 60 is coupled to the lower part of the deck plate 10. In the type deck panel,

The deck plate 10 is formed with plate parts 16 at the left and right ends so that when the deck panels in the state in which the heat insulating material is coupled are arranged left and right, they are coupled to each other, but one plate part of the left and right plate parts 16 (16A) (right side in the drawing) is formed with a coupling protrusion 18, and the other side plate portion (16B) (left side in the drawing) has a coupling protrusion ( 18) forms a coupling groove 70 so that it is fitted,

The coupling protrusion 18 of the one side plate portion 16A forms an inclined connection portion 18a extending obliquely from the end of the bottom portion 11 of the deck plate 10 toward the inside of the upper portion (toward the main body portion of the deck plate), ,

The coupling groove portion 70 of the other plate portion 16B is formed by sequentially forming an inner wall portion 76, an upper connection portion 72, and an outer wall portion 74 from the end of the bottom portion 11 to the upper outer side, thereby opening to the lower portion. The coupling protrusion 18 is inserted and hooked to have a shape, but a stepped portion 76a is formed at the lower end of the inner wall portion 76, that is, a portion in contact with the bottom portion 11, and the outer wall portion 74 is Formed inclined from the upper connection part 72 to the lower inner side (in the direction of the body part of the deck plate), the hook-shaped upper hanging part 77 is formed at the contact part between the outer wall part 74 and the connecting part 72,

When installing the deck panel array, place the deck panel (defined as B deck panel) to be installed next to it in the direction to be installed based on the deck panel (defined as A deck panel) installed first, but one side plate belonging to A deck panel (16A) And the B deck panel B by the operation of lifting the part where the one side plate 16A of the B deck panel is formed in a state where the other side plate 16B belonging to the B deck panel is in close proximity to each other as well as the heat insulating material 60 side to each other. By the operation of lifting the opposite part of the deck panel, that is, the part where the one side plate 16A is formed, the coupling groove 70 of the other side plate 16B of the B deck panel is naturally opened on one side of the A deck panel ( 16A) is engaged with the coupling protrusion 18,

In the above state, when the part lifted to the top of the B deck panel is lowered again, the coupling between the plate parts 16A and 16B is automatically performed, and the B deck panel rotates in the opposite direction with the plate parts 16A and 16B as the central axis In this process, the upper end 18b of the inclined connection part 18a constituting the one side plate part 16A is fitted into the upper hanging part 77 of the other side plate part 16B, and the inclined connection part 18a The lower end (18c) of the is fitted to the stepped portion (76a) of the other plate (16B) characterized in that it is coupled closely with each other.

In the present invention, when combining truss girder-type deck panels to which insulators are coupled, it is possible to combine deck panels without lifting the entire deck panel, reducing work fatigue, and preventing damage due to friction between insulators by making it happen in a pivoting manner when closely coupling between insulators In particular, there is an advantage in that close bonding between the insulation materials is performed to increase the insulation effect and to prevent the leakage of condensed moisture due to dew condensation.

1 is a configuration diagram of a general truss girder-type integrated deck panel;
2 is a configuration diagram of a truss girder-type deck panel to which a conventional heat insulating material is coupled;
3 is a configuration diagram of a truss girder-type deck panel to which a heat insulating material is coupled according to an embodiment of the present invention;
4 is a front configuration view of FIG. 3;
5 (Fig. 5a and 5b) is a front configuration diagram showing the arrangement process between the heat insulating material integrated truss girder type deck panels of the present invention;
6 (Fig. 6a and 6b) is a view showing other embodiments of the plate opening of the deck plate constituting the heat insulating material integrated truss girder type deck panel of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIG. 3, a truss girder-type deck panel 2 (hereinafter simply referred to as a 'deck panel') to which a heat insulating material is coupled according to an embodiment of the present invention is provided with a deck plate 10 to The truss girder 40 is coupled to the upper part by a method such as welding, and the heat insulating material 60 is coupled to the lower part of the deck plate 10.

The deck plate 10 is formed by multi-stage bending, and reinforcement parts 12 protruding upward with respect to the bottom part 11 are arranged on the left and right, and a plurality of bottom parts 11 partitioned by the reinforcement parts 12 is flattened as a whole, the insulating material 60 is bonded to the lower part of the bottom part 11 by an adhesive, and the truss girder 40 is raised to the upper part of the reinforcing part 12 and fixed by welding. When the embossing (M) is formed on the bottom portion 11 of the deck plate 10, rigidity is imparted.

Since the deck panel 2 includes the insulator 60 having a certain height at the lower part of the deck plate 10, it is important to prevent the occurrence of gaps in the contact side parts between the insulators 60 when the deck panels 2 are coupled. In the process of coupling, damage caused by friction between the sides should also be prevented. In addition, the deck panel 2 is a metal material except for the heat insulating material 60, and considering the long shape of the deck panel 2, the weight body, and the heat insulating material 60 can also ignore the weight of the whole when considering the thickness. can't

Considering this point, when arranging the deck panels (2), the operator must have two or more people to lift and arrange the entire deck panel (2), and when the deck panel (2) is lifted, it can be bent. Arrangement between the panels 2 is not easy.

Therefore, in order to solve this problem, the present invention gives a feature to the plate part 16 formed at the left and right ends of the deck plate 10, which is the shape of the plate part 16 and the heat insulator 60 having a certain height. In association with the shape, while making the coupling between the deck panels 2 easy, as the coupling is performed, the close coupling between the insulators 60 is naturally made.

A more detailed description of this is as follows.

Referring to FIG. 4, in the present invention, the deck plate 10 is configured so that the left and right plate portions 16 correspond to each other, of which one side plate portion 16A (right side in the drawing) forms a coupling protrusion 18. And, in the other side plate 16B (left side in the drawing), a coupling groove 70 is formed so that the coupling protrusion 18 of one side plate 16A of the adjacent deck plate 10 is fitted. (FIG. The identification number '18' described in 2 is different as 'vertical extension')

The coupling protrusion 18 of the one side plate 16A forms an inclined connection portion 18a extending obliquely from the end of the bottom portion 11 of the deck plate 10 toward the inside of the upper portion (toward the body portion of the deck plate). .

In addition, the coupling groove 70 of the other plate 16B is opened downward by sequentially configuring the inner wall portion 76, the top connection portion 72, and the outer wall portion 74 from the end of the bottom portion 11 to the upper outer side. It is inserted into the coupling protrusion 18 to have a groove shape to be engaged. At this time, a stepped portion 76a is formed at the lower end of the inner wall portion 76, that is, a portion in contact with the bottom portion 11, and the outer wall portion 74 extends from the top connection portion 72 to the lower inner side (toward the body portion of the deck plate). It is formed to be inclined so that the upper hanging part 77 of the hook shape is configured at the contact part between the outer wall part 74 and the connection part 72. In the present invention, the outer wall portion 74 includes both a shape including a portion indicated by a dotted line and a shape not including a portion as shown in the enlarged view of FIG. 4 .

According to the above configuration, the arrangement of the deck panels 2 is easily installed while the close coupling between the heat insulators 60 is implemented.

That is, FIG. 5 (FIG. 5a and FIG. 5b) is a front configuration diagram showing the arrangement process between the heat insulating material integrated truss girder type deck panels 2 of the present invention. Referring to the drawings,

① Based on the first installed deck panel (defined as A deck panel), place the deck panel (defined as B deck panel) to be installed next to it in the direction to be installed. At this time, one side plate part 16A belonging to deck panel A and the other plate part 16B belonging to deck panel B are brought into a state in which the sides of the heat insulating material 60 are in close proximity to each other, including between each other. ) → As in (b), do not lift the entire deck panel B, which is a heavy body, but push it into position.

② Next, by the operation of lifting the opposite part of the B deck panel, that is, the part where the one side plate 16A is formed, the coupling groove 70 of the other side plate 16B of the B deck panel naturally moves to the A deck panel. The engaging protrusion 18 of one side plate 16A of the is made.

In this process, the reason why the opposite part of deck panel B can be smoothly lifted upward is possible because the heat insulator 60 has a certain height. That is, even if the opposite part of the B deck panel is lifted, the side end surface of the insulation 60 is caught in contact with the A deck panel one side pannel 16A, so that it is not pushed toward the A deck panel, so one side pannel portion 16A of the A deck panel Since the rotation is made around the center, it can be lifted smoothly. In this process, compared to the process of lifting the existing deck panel as a whole, the force can be reduced to less than half, which can greatly affect the fatigue of the work.

③ In the above state, when the opposite part of deck panel B is lowered again (At this time, if the force is removed from the opposite part of deck panel B, it is naturally lowered to the floor by the load of deck panel). As it is done automatically, the B deck panel is in a horizontal state while turning with the plate parts 16A and 16B as the central axis. In this process, the upper end 18b of the inclined connection part 18a constituting the one side plate part 16A is inserted into the upper hanging part 77 of the other side plate part 16B, and the lower end part 18c of the inclined connection part 18a is fitted into the stepped portion 76a of the other plate portion 16B and is closely coupled to each other.

As such, in the present invention, when combining the deck panel B with respect to the deck panel A, since it is made in such a way that the plate parts 16A and 16B are pivoted around the central axis, friction does not occur between the heat insulators 60 in this process. breakage is prevented. In addition, in the process of combining the B deck panel, the opposite part of the B deck panel is turned by gravity around the central axis of the plate parts 16A and 16B to become horizontal, as well as between the plate parts 16A and 16B, as well as the insulation 60 ), a stronger adhesion is also made between the liver. In addition, in the present invention, since the integral deck and the insulator deck have the same plate parts 16A and 16B, they can be used in common, so that they can be produced in the same facility, thereby improving economic feasibility.

On the other hand, when combining deck panel B with respect to deck panel A, a separate fitting material such as a sealing material such as a sponge can be easily coupled between the heat insulating materials 60 by the method of turning the plate parts 16A and 16B around the central axis. This fitting material can implement a higher level of close bonding between the heat insulating materials 60, thereby increasing the insulating effect and preventing the leakage of condensed moisture due to dew condensation.

6 ( FIGS. 6A and 6B ) is a view showing other embodiments of the deck plate openings 16A and 16B constituting the insulator-integrated truss girder deck panel of the present invention.

Referring to the drawing, the coupling protrusion 18 of one side plate 16A extends an inclined connection portion 18a inclined from the end of the bottom portion 11 to the inside of the top (toward the main body of the deck plate) to extend the other side plate. After forming the upper end (18b) hooked to the upper end hooking part (77) of (16B), it extends back to the lower side in succession so that the inclined connection part (18a) is composed of two layers. In addition, a horizontal extension portion 18d extending horizontally from the outer lower end of the inclined connection portion 18a has a height corresponding to that of the bottom portion 11. Subsequently, a lower end portion 18c is formed at the outer end of the horizontal extension portion 18d to be fitted into the stepped portion of the other plate opening 16B.

Furthermore, the lower part 18c of one side plate 16A extends horizontally from the outer end of the horizontal extension part 18d to the inner side again as in (a) to form two layers, or as in (b) to (d) It is formed to have a certain height by extending vertically or obliquely. In addition, the shape of the stepped portion 76a of the other plate portion 16B is formed to correspond to the height and inclination of the lower portion 18c. In this way, according to the shape of the plate-opening part of FIG. 6 , the coupling between the plate-opening parts 16A and 16B can be made more stably.

In particular, as shown in (d) of FIG. 6B, the lower end 18c of the inclined connection portion 18a constituting the one side plate 16A is inclined outward, and the stepped portion 76a of the other plate 16B is formed accordingly. When formed correspondingly, binding between the plate portions 16A and 16B may be more firmly performed when coupling between the deck panels.

In the above description of the present invention, specific embodiments have been described, but various modifications can be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be determined by the described embodiments, but should be defined by the claims and their equivalents.

(2)--truss girder type deck panel combined with insulation
(10)--deck plate (11)--bottom
(12)-reinforcement part (16A) (16B)-plate part
(18)--Coupling protrusion (18a)--Inclined connection part
(18b)--upper part (18c)--lower part
(18d)--horizontal extension
(40)--truss girder (60)--insulation
(70)-Coupling groove (72)-Upper connection
(74)--Outside wall part (76)--Inner wall part
(76a)--stepped part (77)--upper hanging part

Claims (3)

In the truss girder-type deck panel configured by combining the truss girder 40 with a method such as welding to the upper part of the deck plate 10 and the insulating material 60 to the lower part of the deck plate 10,
The deck plate 10 is formed with plate parts 16 at the left and right ends so that when the deck panels in the state in which the heat insulating material is coupled are arranged left and right, they are coupled to each other, but one plate part of the left and right plate parts 16 (16A) (right side in the drawing) is formed with a coupling protrusion 18, and the other side plate portion (16B) (left side in the drawing) has a coupling protrusion ( 18) forms a coupling groove 70 so that it is fitted,
The coupling protrusion 18 of the one side plate 16A extends an inclined connecting portion 18a that is inclined from the end of the bottom part 11 to the inside of the top (in the direction of the main body of the deck plate) to extend the other side plate 16B. After forming the upper end (18b) hooked to the upper hanging part (77), it is continuously extended to the outer side of the lower part so that the inclined connecting part (18a) is composed of two layers, and horizontally at the outer lower end of the inclined connecting part (18a) It extends to form a horizontal extension portion 18d having a height corresponding to the bottom portion 11, and a lower end portion 18c is formed at the outer end of the horizontal extension portion 18d to be inserted into the stepped portion of the other plate portion 16B. The lower end 18c extends horizontally from the outer end of the horizontal extension 18d back to the inner side to form two layers or extends vertically or obliquely to have a certain height,
The coupling groove portion 70 of the other plate portion 16B is formed by sequentially forming an inner wall portion 76, an upper connection portion 72, and an outer wall portion 74 from the end of the bottom portion 11 to the upper outer side, thereby opening to the lower portion. It has a groove shape and is inserted into the coupling protrusion 18 to be hooked, but the outer wall portion 74 is inclined from the upper end connection portion 72 to the lower inner side (toward the main body of the deck plate) to form an outer wall portion 74 The hook-shaped top hanging portion 77 is formed at the contact portion between the and the connecting portion 72, and a stepped portion 76a is formed at the lower end of the inner wall portion 76, that is, at the portion in contact with the bottom portion 11, but the above Formed to correspond to the height and inclination of the lower end 18c,
When installing the deck panel array, place the deck panel (defined as B deck panel) to be installed next to it in the direction to be installed based on the deck panel (defined as A deck panel) installed first, but one side plate belonging to A deck panel (16A) And the other side plate (16B) belonging to the B deck panel Natural by the operation of lifting the part where the one side plate (16A) of the B deck panel is formed in a state in which the side of the heat insulating material 60 is close to each other, including each other. As a result, the coupling groove 70 of the other side plate 16B of the B deck panel is engaged with the coupling protrusion 18 of the one side plate 16A of the A deck panel,
In the above state, when the part lifted to the top of the B deck panel is lowered again, the coupling between the plate parts 16A and 16B is automatically performed, and the B deck panel rotates with the plate parts 16A and 16B as the central axis. In this process, the upper end 18b constituting the coupling protrusion 18 of the one side plate 16A is fitted into the upper hanging part 77 of the other plate 16B, and the lower end 18c is the other plate. A truss girder-type deck panel coupled with a heat insulating material, characterized in that it is fitted into the stepped portion (76a) of the opening (16B) so that they are closely coupled to each other. delete delete

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