CN210050876U

CN210050876U - Indoor floor heating pipeline fixing device

Info

Publication number: CN210050876U
Application number: CN201920561698.2U
Authority: CN
Inventors: 惠群; 李中政; 张兴书; 王宝龙; 魏雪娇
Original assignee: JILIN PROVINCE JIANYUAN DESIGN GROUP Co Ltd
Current assignee: JILIN PROVINCE JIANYUAN DESIGN GROUP Co Ltd
Priority date: 2019-04-24
Filing date: 2019-04-24
Publication date: 2020-02-11
Anticipated expiration: 2029-04-24

Abstract

The utility model discloses an indoor heat supply pipeline fixing device that falls to ground, including base, heating supply pipe support and heat supply pipeline, the heating supply pipe support sets up on the base, and heat supply pipeline sets up on the heating supply pipe support, and this heat supply pipeline fixing device is through the combination that adopts shaped steel, with on the fixed bolster of pipeline, can be in being suitable for all installation heat supply pipelines that fall to the ground to there is good compensation effect to the pipeline inflation, the device design atress is reasonable, easily is under construction, and the cost is lower.

Description

Indoor floor heating pipeline fixing device

Technical Field

The patent of the utility model relates to a fixing device for building, in particular to indoor heat supply pipeline fixing device that falls to the ground.

Background

At present, the national standard 05R417-1 indoor pipeline fixing support is suitable for pipeline application with the pipe diameter of DN300 and the pipe diameter below, and can be fixed on a wall or a column only through a single pipe or a double pipe, and when the pipe diameter exceeds DN300, only one method is adopted, namely the single pipe is fixed on the wall or the column, and the supports are fixedly connected with the wall or the column by section steel, so that the fixing performance is poor, and the purpose of compensating pipeline expansion cannot be well realized.

The existing large buildings such as office buildings, hospitals, teaching buildings, factories and the like have more and more situations relating to heat supply pipelines with multiple pipes and large pipe diameters, the straight pipe sections of the internal heat supply pipelines are usually longer, and compensation devices such as corrugated pipe expanders and the like are arranged in the middle positions of the straight pipe sections and used for absorbing expansion of the pipelines caused by the temperature rise of media in the pipelines. The two ends of the compensating device are arranged on the fixed bracket, so that the pipeline is ensured to extend towards the middle compensating device and is absorbed by the middle compensating device, and therefore, the fixed bracket bears larger horizontal load, for example, when the temperature of supply water and return water is 60-50 ℃, the horizontal thrust of the pipeline of DN450 is about 20 tons. Therefore, the application range is limited according to the national standard method, a single or a plurality of indoor heat supply pipelines need to be installed, fixed supports cannot be arranged on walls or columns according to the national standard method, and pipelines need to be installed on the ground when more pipelines exist.

Disclosure of Invention

The utility model discloses a solve the problem among the above-mentioned background art, can realize fixing the purpose with the compensation to the pipeline of heavy-calibre, and provide an indoor heat supply pipeline fixing device that falls to the ground.

The utility model provides an indoor heat supply pipeline fixing device that falls to ground, includes base, heating supply pipe support and heating supply pipeline, and the heating supply pipe support sets up on the base, and heating supply pipeline sets up on the heating supply pipe support.

The base comprises 4 supporting legs, 2 first longitudinal beams, 2 cross beams, a second longitudinal beam, 4 top reinforcing beams, 4 auxiliary reinforcing beams, 4 first side reinforcing beams, 2 side longitudinal beams, 4 second side reinforcing beams and 4 positive reinforcing beams, wherein the 4 supporting legs are distributed in a rectangular manner at four corners of the base, the first longitudinal beams are arranged at the top ends of the supporting legs and serve as short sides of a rectangular frame, the cross beams are arranged at the top ends of the supporting legs and serve as long sides of the rectangular frame, the second longitudinal beams are arranged at the middle parts of the cross beams, the first longitudinal beams, the cross beams and the second longitudinal beams form a rectangular frame, the top reinforcing beams are obliquely connected with the first longitudinal beams and the cross beams, the top reinforcing beams, the first longitudinal beams and the cross beams form a triangular frame, the 4 top reinforcing beams are uniformly distributed at the four corners of the rectangular frame formed by the first longitudinal beams and the cross beams, 4 same triangular frames are formed at the four corners, the included angles of the top reinforcing beams and the first longitudinal, the auxiliary stiffening beam is arranged outside a rectangular frame consisting of a first longitudinal beam and a cross beam, the auxiliary stiffening beam is obliquely connected with the first longitudinal beam and the cross beam, the included angle between the triangular frame auxiliary stiffening beam consisting of the auxiliary stiffening beam, the first longitudinal beam and the cross beam and the first longitudinal beam is 45 degrees, the side longitudinal beam is arranged at the lower part of the first longitudinal beam and is connected with 2 support legs, the side longitudinal beam, the first longitudinal beam and the 2 support legs connected with the first longitudinal beam form a rectangular frame, the first side stiffening beam is obliquely connected with the first longitudinal beam and the support legs, the first side stiffening beam, the first longitudinal beam and the support legs form a triangular frame, the 2 first side stiffening beams, the first longitudinal beam and the side longitudinal beam also form a trapezoidal frame, the included angle between the first side stiffening beam and the first longitudinal beam is 50-60 degrees, the second side stiffening beam, the side longitudinal beam, the support legs, the second side stiffening beam, the side longitudinal beam and the support legs form a triangular frame, the right reinforcing beam is obliquely connected with the cross beam and the supporting legs, the right reinforcing beam, the cross beam and the supporting legs form a triangular frame, and the included angle between the right reinforcing beam and the cross beam is 60-70 degrees;

the landing leg includes landing leg trunk and concrete reinforcement bolt group, and concrete reinforcement bolt group sets up in landing leg trunk bottom.

The heat supply pipe support comprises a first long beam, 6 short beams, a second long beam, 4 first diagonal draw beams, 4 second diagonal draw beams and 24 first flitch plates, wherein the first long beam is arranged on a rectangular frame consisting of the first longitudinal beam and the transverse beam, is parallel to the transverse beam and bisects the first longitudinal beam, the short beams are arranged on the first long beam, the second long beam is arranged on the short beams, the 6 short beams are divided into 3 groups, each two short beams, the first long beam and the second long beam form a square frame, four sides of the square frame are tangent to the heat supply pipe, 3 square frames formed by the 6 short beams, the first long beam and the second long beam are uniformly distributed on a base, the first diagonal draw beams are obliquely connected with the first longitudinal beam and the second long beam to form a triangular frame, the first diagonal draw beams are symmetrically distributed on two sides of the first long beam, the first diagonal draw beams and the first longitudinal beam are 30-40 degrees, and the second diagonal draw beams are connected with the transverse beam and the second long beam, and the second diagonal draw beams are symmetrically distributed on two sides of the first long beam, the included angle between the second diagonal draw beams and the horizontal plane is 35-45 degrees, and the first flitch is respectively arranged on two sides of the first long beam, the short beam and the second long beam and is positioned on the middle point of four sides of the square frame formed by the first flitch.

The heating pipeline comprises a heating pipe, 16 reinforcing ribs and 8 second flitch plates, wherein the second flitch plates are arranged on the heating pipe, the positions of the second flitch plates correspond to the positions of the first flitch plates on the heating pipe support one by one, one end of each reinforcing rib is welded on the heating pipe, the other end of each reinforcing rib is welded on the corresponding reinforcing rib, and every two reinforcing ribs correspond to one second flitch plate.

The utility model discloses a theory of operation and process:

when the device is used, a concrete foundation is arranged in a ground building, 4 supporting legs are poured in the concrete foundation, and the concrete reinforcing bolt groups on the 4 supporting legs strengthen the foundation connection with concrete, so that the device is more firmly fixed in the ground building. The heating pipeline is arranged on the heating pipeline support, the heating pipeline is provided with a second flitch and a reinforcing rib, as shown in figure 10, the heating pipeline support is provided with a first flitch, the first flitch and the heating pipeline are correspondingly pasted together, when the heating pipeline supplies heat, the heating pipeline expands when heated, because the reinforcing rib and the second flitch are rigidly connected on the heating pipeline, the expansion of the heating pipeline drives the reinforcing rib and the second flitch to move together, the second flitch and the first flitch are correspondingly pasted together, the expansion force generated on the heating pipeline acts on the first flitch through the second flitch and further acts on the whole indoor floor heating pipeline fixing device, the action of the force is mutual, the device simultaneously also applies a reverse action force to the second flitch through the first flitch, the reverse action force compensates the expansion of the pipeline, the special design of the device ensures that the device can continuously and stably output reverse acting force when the device is subjected to the expansion force of the heat pipeline, and can ensure the stability of the device.

The utility model has the advantages that: this heat supply pipeline fixing device is through the combination that adopts shaped steel, with on the pipeline fixed stay, can be in being suitable for all to fall to the ground installation heat supply pipeline to there is good compensation effect to the pipeline inflation, the device design atress is reasonable, easily is under construction, and the cost is lower.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a partial enlarged view of the position a of the present invention.

Fig. 3 is a partial perspective view of the present invention.

Fig. 4 is a top view of the present invention.

Fig. 5 is a top view of the present invention.

Fig. 6 is a side view of the present invention.

Fig. 7 is a side view of the present invention.

Fig. 8 is a front view of the present invention.

Fig. 9 is a front view of the present invention.

Fig. 10 is a partial perspective view of the present invention.

Detailed Description

The above-described scheme is further illustrated below with reference to specific examples. It should be understood that these examples are intended to illustrate the invention and are not intended to limit the scope of the invention. The conditions used in the examples may be further adjusted according to the conditions of the particular manufacturer, and the conditions not specified are generally the conditions in routine experiments.

Referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9 and 10, an indoor floor heating pipeline fixing device includes a base 1, a heating pipe support 2 and a heating pipeline 3, the heating pipe support 2 is disposed on the base 1, and the heating pipeline 3 is disposed on the heating pipe support 2.

The base 1 comprises 4

support legs

11, 2 first

longitudinal beams

12, 2 cross beams 13, a second

longitudinal beam

14, 4 top

reinforcing beams

15, 4

auxiliary reinforcing beams

16, 4 first

side reinforcing beams

17, 2 side

longitudinal beams

18, 4 second

side reinforcing beams

19 and 4 positive reinforcing beams 110, wherein the 4 support legs 11 are distributed at four corners of the base 1 in a rectangular distribution, the first longitudinal beams 12 are arranged at the top ends of the support legs 11 and serve as short sides of a rectangular frame, the cross beams 13 are arranged at the top ends of the support legs 11 and serve as long sides of the rectangular frame, the second longitudinal beams 14 are arranged in the middle of the cross beams 13, the first longitudinal beams 12, the cross beams 13 and the second longitudinal beams 14 form a rectangular frame, the top reinforcing beams 15 are obliquely connected with the first longitudinal beams 12 and the cross beams 13, the top reinforcing beams 15, the first longitudinal beams 12 and the cross beams 13 form a triangular frame, and the 4 top reinforcing beams 15 are uniformly distributed at four corners of the rectangular frame formed by the first longitudinal beams 12 and the

cross beams

13, 4 identical triangular frames are formed at four corners, the included angle between the top reinforcing beam 15 and the first longitudinal beam 12 is 50-60 degrees, the auxiliary reinforcing beam 16 is arranged at the outer side of the rectangular frame formed by the first longitudinal beam 12 and the cross beam 13, the auxiliary reinforcing beam 16 is obliquely connected with the first longitudinal beam 12 and the cross beam 13, the included angle between the auxiliary reinforcing beam 16 and the first longitudinal beam 12, which is formed by the auxiliary reinforcing beam 16, the first longitudinal beam 12 and the cross beam 13, is 45 degrees, the side longitudinal beam 18 is arranged at the lower part of the first longitudinal beam 12 and is connected with 2 landing legs 11, the side longitudinal beam 18, the first longitudinal beam 12 and the 2 landing legs 11 connected with the first longitudinal beam 12 form a rectangular frame, the first side reinforcing beam 17 is obliquely connected with the first longitudinal beam 12 and the landing legs 11, the first side reinforcing beam 17, the first longitudinal beam 12 and the landing legs 11 form a triangular frame, the 2 first side reinforcing beams 17, the first longitudinal beam 12 and the side longitudinal beam 18 also form a trapezoidal frame, the included angle between the, the second side reinforcing beam 19 is obliquely connected with the side longitudinal beam 18 and the supporting leg 11, the second side reinforcing beam 19, the side longitudinal beam 18 and the supporting leg 11 form a triangular frame, the included angle between the second side reinforcing beam 19 and the side longitudinal beam 18 is 50-60 degrees, the positive reinforcing beam 110 is obliquely connected with the cross beam 13 and the supporting leg 11, the positive reinforcing beam 110, the cross beam 13 and the supporting leg 11 form a triangular frame, and the included angle between the positive reinforcing beam 110 and the cross beam 13 is 60-70 degrees;

the support leg 11 comprises a support leg main body 111 and a concrete reinforcing bolt group 112, wherein the concrete reinforcing bolt group 112 is arranged at the bottom of the support leg main body 111.

The heat supply pipe support 2 comprises a first long beam 21, 6 short beams 22, a second

long beam

23, 4 first

diagonal beams

24, 4 second

diagonal beams

25 and 24 first attachment plates 26, the first long beam 21 is arranged on a rectangular frame formed by the first longitudinal beam 12 and the cross beam 13, the first longitudinal beam 12 is parallel to the cross beam 13 and is divided into two halves, the short beams 22 are arranged on the first long beam 21, the second long beam 23 is arranged on the short beams 22, the 6 short beams 22 are divided into 3 groups, each two short beams 22, the first long beam 21 and the second long beam 23 form a square frame, four sides of the square frame are tangent with the heat supply pipe, 3 square frames formed by the 6 short beams 22, the first long beam 21 and the second long beam 23 are uniformly distributed on the base 1, the first diagonal beams 24 are obliquely connected with the first longitudinal beam 12 and the second long beam 23 to form a triangular frame, the first diagonal beams 24 are symmetrically distributed on two sides of the first long beam 21, the included angle between the first inclined drawing beam 24 and the first longitudinal beam 12 is 30-40 degrees, the second inclined drawing beam 25 is obliquely connected with the cross beam 13 and the second long beam 23 to form a triangular frame, the second inclined drawing beams 25 are symmetrically distributed on two sides of the first long beam 21, the included angle between the second inclined drawing beams 25 and the horizontal plane is 35-45 degrees, and the first pasting plates 26 are respectively arranged on two sides of the first long beam 21, the short beam 22 and the second long beam 23 and are positioned on the middle points of four sides of the square frame formed by the first inclined drawing beams.

The heating pipeline 3 comprises a

heating pipe

31, 16 reinforcing ribs 32 and 8 second flitch plates 33, the second flitch plates 33 are arranged on the heating pipe 31, the positions of the second flitch plates 33 correspond to the positions of the first flitch plates 26 on the heating pipe support 2 one by one, one end of each reinforcing rib 32 is welded on the heating pipe 31, the other end of each reinforcing rib 32 is welded on the corresponding reinforcing rib 32, and every two reinforcing ribs 32 correspond to one second flitch plate 33.

The utility model discloses a theory of operation and process:

referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9 and 10, in use, a concrete foundation 4 is arranged in a ground 5 building, 4 legs 11 are poured into the concrete foundation 4, and the concrete reinforcing bolt groups 112 on the 4 legs 11 reinforce the foundation connection with the concrete, so that the device is more firmly fixed in the ground 5 building. The heating pipeline 3 is arranged on the heating pipeline support 2, the heating pipeline 3 is provided with a second flitch 33 and a reinforcing rib 32, as shown in figure 10, the heating pipeline support 2 is provided with a first flitch 26, the first flitch 26 and the heating pipeline 3 are correspondingly adhered together, when the heating pipeline 3 supplies heat, the heating pipeline 31 is heated and expanded, because the reinforcing rib 32 and the second flitch 33 are rigidly connected on the heating pipeline 31, the expansion of the heating pipeline 31 drives the reinforcing rib 32 and the second flitch 33 to move together, the second flitch 33 and the first flitch 26 are adhered together correspondingly, the expansion force generated on the heating pipeline 31 acts on the first flitch 26 through the second flitch 33 and further acts on the whole indoor floor heating pipeline fixing device, the force action is mutual, and the device simultaneously applies a reverse acting force to the second flitch 33 through the first flitch 26, this reverse acting force will compensate the pipeline inflation, and the special design of this device has guaranteed that this device can last stable output reverse acting force when receiving the expansive force of hot line 3 to can guarantee the stability of self.

Claims

1. The utility model provides an indoor heat supply pipeline fixing device that falls to the ground which characterized in that: the heat supply device comprises a base (1), a heat supply pipe support (2) and a heat supply pipeline (3), wherein the heat supply pipe support (2) is arranged on the base (1), and the heat supply pipeline (3) is arranged on the heat supply pipe support (2);

the base (1) comprises 4 support legs (11), 2 first longitudinal beams (12), 2 cross beams (13), a second longitudinal beam (14), 4 top reinforcing beams (15), 4 auxiliary reinforcing beams (16), 4 first side reinforcing beams (17), 2 side longitudinal beams (18), 4 second side reinforcing beams (19) and 4 positive reinforcing beams (110), wherein the 4 support legs (11) are distributed at four corners of the base (1) in a rectangular distribution, the first longitudinal beams (12) are arranged at the top ends of the support legs (11) and serve as short sides of a rectangular frame, the cross beams (13) are arranged at the top ends of the support legs (11) and serve as long sides of the rectangular frame, the second longitudinal beams (14) are arranged in the middle of the cross beams (13), the first longitudinal beams (12), the cross beams (13) and the second longitudinal beams (14) form a reinforcing frame in a shape like a Chinese character ' ri ', the top's beam (15) is obliquely connected with the first longitudinal beams (12) and the cross beams (13), the top reinforcing beam (15), the first longitudinal beam (12) and the cross beam (13) form a triangular frame, 4 top reinforcing beams (15) are uniformly distributed at four corners of the rectangular frame formed by the first longitudinal beam (12) and the cross beam (13), 4 identical triangular frames are formed at the four corners, the included angle between the top reinforcing beam (15) and the first longitudinal beam (12) is 50-60 degrees, the auxiliary reinforcing beam (16) is arranged at the outer side of the rectangular frame formed by the first longitudinal beam (12) and the cross beam (13), the auxiliary reinforcing beam (16) is obliquely connected with the first longitudinal beam (12) and the cross beam (13), the auxiliary reinforcing beam (16) of the triangular frame formed by the auxiliary reinforcing beam (16) and the first longitudinal beam (12) and the cross beam (13) is 45 degrees, the side longitudinal beam (18) is arranged at the lower part of the first longitudinal beam (12), 2 supporting legs (11) are connected, the side longitudinal beam (18) and the first longitudinal beam (12) and the 2 supporting legs (11) connected with the first longitudinal beam (12) form a rectangular frame, the first side reinforcing beam (17) is obliquely connected with the first longitudinal beam (12) and the supporting legs (11), the first side reinforcing beam (17), the first longitudinal beam (12) and the supporting legs (11) form a triangular frame, the 2 first side reinforcing beams (17), the first longitudinal beam (12) and the side longitudinal beam (18) further form a trapezoidal frame, the included angle between the first side reinforcing beam (17) and the first longitudinal beam (12) is 50-60 degrees, the second side reinforcing beam (19) is obliquely connected with the side longitudinal beam (18) and the supporting leg (11), the second side reinforcing beam (19), the side longitudinal beam (18) and the supporting leg (11) form a triangular frame, the included angle between the second side reinforcing beam (19) and the side longitudinal beam (18) is 50-60 degrees, the positive reinforcing beam (110) is obliquely connected with the cross beam (13) and the supporting leg (11), the positive reinforcing beam (110), the cross beam (13) and the supporting leg (11) form a triangular frame, and the included angle between the positive reinforcing beam (110) and the cross beam (13) is 60-70 degrees;

the supporting leg (11) comprises a supporting leg main body (111) and a concrete reinforcing bolt group (112), and the concrete reinforcing bolt group (112) is arranged at the bottom of the supporting leg main body (111).

2. The indoor floor heating pipeline fixing device of claim 1, wherein: the heat supply pipe support (2) comprises a first long beam (21), 6 short beams (22), a second long beam (23), 4 first diagonal draw beams (24), 4 second diagonal draw beams (25) and 24 first flitch plates (26), the first long beam (21) is arranged on a rectangular frame formed by the first longitudinal beam (12) and the transverse beam (13) and is parallel to the transverse beam (13) and bisects the first longitudinal beam (12), the short beams (22) are arranged on the first long beam (21), the second long beam (23) is arranged on the short beams (22), the 6 short beams (22) are divided into 3 groups, each two short beams (22) and the first long beam (21) and the second long beam (23) form a square frame, the four sides of the square frame are tangent to the longitudinal beam, the 6 short beams (22) and the 3 square frames formed by the first long beam (21) and the second long beam (23) are uniformly distributed on the base (1), and the first diagonal draw beams (24) and the second diagonal draw beams (23) are connected with the first diagonal draw beams (12), a triangular frame is formed, first oblique tension beams (24) are symmetrically distributed on two sides of a first long beam (21), the included angle between each first oblique tension beam (24) and a first longitudinal beam (12) ranges from 30 degrees to 40 degrees, second oblique tension beams (25) are obliquely connected with a cross beam (13) and a second long beam (23) to form the triangular frame, the second oblique tension beams (25) are symmetrically distributed on two sides of the first long beam (21), the included angle between each second oblique tension beam (25) and a horizontal plane ranges from 35 degrees to 45 degrees, and first attaching plates (26) are respectively arranged on two sides of the first long beam (21), the short beam (22) and the second long beam (23) and are positioned on the middle points of four sides of the square frame formed by the first oblique tension beams.

3. The indoor floor heating pipeline fixing device of claim 1, wherein: the heat supply pipeline (3) comprises a heat supply pipe (31), 16 reinforcing ribs (32) and 8 second flitch plates (33), wherein the second flitch plates (33) are arranged on the heat supply pipe (31), the positions of the second flitch plates (33) correspond to the positions of the first flitch plates (26) on the heat supply pipe support (2) one by one, one end of each reinforcing rib (32) is welded on the heat supply pipe (31), the other end of each reinforcing rib (32) is welded on the corresponding reinforcing rib (32), and every two reinforcing ribs (32) correspond to one second flitch plate (33).