Disclosure of Invention
Aiming at the existing situation, the invention provides the heating coil fixing module with the nails, the heating auxiliary construction module can be used for floor heating construction and wall surface heating construction, has strong adhesive force to plaster and the like, is flexible in construction, and can be conveniently fixed with a wall body by the attached fixing nails, thereby improving the construction efficiency and the heating construction level.
In order to achieve the purpose, the invention adopts the following technical scheme:
a heating coil fixing module with nails is a hollow square plate, is formed by plastic injection molding, and is provided with a # -shaped straight channel and a coil channel sharing a channel with the # -shaped straight channel; the middle and four corners of the plate body are provided with fixing holes, the plate body is also provided with fixing nails matched with the fixing holes in an injection molding mode, and the fixing nails are connected with the plate body into a whole through auxiliary water gaps of which the head parts or/and the tail parts are easy to break.
The scheme of the invention can also be as follows:
the fixing nail and the horizontal surface are sunk in the plate body, and the upper surface and the lower surface are hollowed-out surfaces.
One or more fixing nails are arranged in the plate body, so that the plate body is not disassembled and the splicing and heating construction are not influenced.
The middle of the plate body is provided with a cylinder, the opposite sides are provided with four semi-cylinder structures, and the opposite corners are provided with four quarter-cylinder structures.
The cylinder, the semi-cylinder and the quarter cylinder are all hollow structures with reinforcing ribs.
The shared channel is provided with a buckle structure for fixing the heating pipe.
The plate body is also provided with an internal buckling groove and an external buckling groove protruding out of the plate body; the internal catching grooves and the external catching grooves are matched to realize the fixation of the plate bodies.
And the outer catching groove is provided with a groove structure matched with the edge thickness of the quarter cylinder.
The number and the positions of the external catching grooves are different in arrangement at four corners of the plate body, two external catching grooves are arranged at one corner, and no external catching groove is arranged at the opposite corner.
The plate body between all can realize that the cooperation of more than 2 inside catching grooves is fixed with outside catching groove.
According to the heating coil fixing module with the nails, the material is plastic and has a hollow structure, so that the module is light in weight and easy to fix plaster, is suitable for laying pipes and routing on the ground and is convenient for the fixed construction of the routing on the wall surface; the splicing structure between the fixed modules has unique design and convenient and firm fixation; especially, the fixing nails and the modules are integrated into a whole innovatively, the convenience and the construction efficiency of construction are improved, the innovation is realized, the product is favorable for assisting in heating construction, the structure is novel and practical, and the market popularization value is realized.
Detailed Description
The preferred embodiments of the present invention will be further described with reference to the accompanying drawings.
Referring to fig. 1 to 3, in a first preferred embodiment, a nailed heating coil fixing module is a hollow square plate, which is formed by plastic injection molding, and a plate body 1 is provided with a straight channel 10 shaped like a Chinese character jing and a coil channel 12 partially sharing a channel 11 with the straight channel 10 shaped like a Chinese character jing; fixing holes 13 are formed in the middle and four corners of the plate body 1, fixing nails 14 matched with the fixing holes 13 are further molded on the plate body 1 in an injection mode, and the fixing nails 14 are connected with the plate body 1 into an integral structure through auxiliary water gaps 15, wherein the head portion or/and the tail portion of each auxiliary water gap are easy to break.
The heating coil pipe fixing module is used for fixing the routing of the heating pipe and fixing the plaster. The wiring of the heating pipe is generally straight line or bending, and the wiring can be conveniently realized in the fixed module. The board body 1 is formed by plastic injection molding, and the wiring distance and the bending curvature of the same module are fixed. The pipe 3 for heating generally adopts a high temperature resistant flexible pipe, such as a crosslinked polyethylene pipe, a high temperature resistant polyethylene pipe, a polybutylene pipe, an aluminum plastic pipe and the like. The flexible pipe is tough, the bending radius of the pipe is required, the smaller complete-radius pipe is easy to bend, the flow is affected, the service life of the pipe is shortened, the pipe bending pipe can be protected by the better coil pipe channel 12, and the pipe routing is convenient. On the plate body 1, the straight channel 10 of well style of calligraphy and coil pipe channel 12 distribute rationally, have the line mode of walking of a plurality of directions and positions, and the symmetrical distribution, tubular product 3 can be directly bent at plate body 1, walk the line nimble convenient.
In the heating construction, in order to prevent heat loss, a bottom plate such as foam, a foam board, an air hole brick or a gypsum board is generally arranged below the plate body 1, and the plate body 1 and the bottom plate are fixed together by fixing nails 14 penetrating through fixing holes 13; when the construction surface is a hard concrete bottom plate or a red brick wall, the fixing nail 14 can be driven into the hole after drilling. The fixing nail 14 can prevent the plate body 1 from being warped or falling off. During construction, constructors can detach the fixing nails 14 from the plate body 1 at any time, fix the plate body 1 through the fixing holes 13, reduce the movement of construction stations, reduce construction materials and improve the construction efficiency. The auxiliary water gap 15 is a tiny plastic connecting piece, and can also be an easy-to-break structure with a notch, and can be taken out by hands or pliers.
The fixing nails 14 are horizontally sunk in the plate body 1, the upper surface and the lower surface are hollow surfaces 16, and the hollow surfaces 16 are designed up and down, so that fingers can be conveniently stretched into and taken out of the plate body. The front sharp corner of the fixing nail 14, the middle section of the fixing nail is of a barbed structure, and the head of the fixing nail is a cylindrical cap or other fixing structure nails.
In this embodiment, the bottom surface 28 of the plate body 1 is flush with the fixing hole 13, as shown in fig. 2.
In this embodiment, one or more fixing nails 14 may be provided in the panel body 1, and the splicing and heating operation of the panel body 1 are not affected without being disconnected.
The middle of the plate body 1 is provided with a cylinder 17, the opposite sides are provided with four semi-cylinder 18 structures, and the opposite corners are provided with four quarter-cylinder 19 structures. The cylinder 17, the semi-cylinder 18 and the quarter-cylinder 19 are all hollow structures with reinforcing ribs 20.
Two ends of the auxiliary water gap 15 of the fixing nail 14 are fixed on the reinforcing rib 20, and can also be fixed on the cylindrical barrel 17 and the semi-cylindrical barrel 18; the fixing position does not interfere with the straight well-shaped passage 10 and the coiled tube passage 12.
The outside walls of the cylindrical barrel 17, the semi-cylindrical barrel 18 and the quarter-cylindrical barrel 19 are the contact surfaces or channel components of the coil channel 12. The well-shaped straight channel 10 is provided with support columns 25, and the support columns 25 limit the straight-through pipes 3 by taking four uniformly distributed support columns 25 as a group. One plate body 1 is provided with 4 groups of supporting columns 25.
The inside and outside two side surfaces of the supporting column 25 can respectively limit and fix the tubular product 3 which passes through the straight channel 10 in the shape of the Chinese character jing and the coil pipe channel 12.
The common channel 11 is provided with a buckle structure 21 for fixing the heating pipe 3 and preventing the pipe from jumping out of the straight channel 10 in the shape of a Chinese character 'jing' or fixing the coil channel 12. The snap-in formation 21 is a formation block projecting over the channel, the snap-in formation 21 fixing the tube 3 by dimensional definition. Because the plate body 1 is made of plastic material and the periphery is a hollow structure, the buckle structure 21 has elasticity. The buckling structure 21 is expanded when the pipe 3 is pressed in, and the pipe 3 is rebounded and firmly clamped after the pipe 3 is pressed in.
As shown in fig. 1 to 5, the plate body 1 is further provided with an inner catching groove 22 and an outer catching groove 23 protruding out of the plate body 1; the inner catching groove 22 and the outer catching groove 23 cooperate to fix the plate body 1. The internal catching grooves 22 are two rows of internal reinforcing ribs, and the internal reinforcing ribs are provided with fixing convex portions 26; the external catching grooves 23 are also two rows of external reinforcing ribs, and the external reinforcing ribs are provided with pit parts 27; the inner reinforcing ribs are matched with the outer reinforcing ribs in size, and the convex parts 26 are matched with the concave parts 27 in position and size to form a limiting structure in front, back, left and right.
The inner and outer locking grooves 22 and 23 are fixed by being placed in and out of each other, as shown in fig. 5, and the section line is the upper plane of one plate body 1 and is clamped into the other plate body from bottom to top.
The outer catching groove 23 is provided with a groove structure 24 which is matched with the edge thickness of the quarter-cylinder 19, and the plate body 1 can be further limited to rock back and forth after being clamped and matched. The multiple position limitation of the external catching groove 23 and the internal catching groove 22 makes the fixing between the plate bodies 1 firm and convenient.
In order to solve the splicing and extension among the plate bodies 1, the number and the positions of the external catching grooves 23 are different in arrangement at four corners of the plate bodies 1, two external catching grooves 23 are arranged at one corner, and no external catching groove 23 is arranged at the opposite corner. When splicing is carried out, referring to fig. 4, the angles of the four plate bodies 1 are different, referring to the position of the upper left first plate body 1, the upper right second plate body 1 horizontally rotates clockwise by 90 degrees relative to the upper left first plate body, the lower right third plate body 1 horizontally rotates clockwise by 180 degrees relative to the upper left first plate body, and the lower left fourth plate body 1 horizontally rotates clockwise by 270 degrees relative to the upper left first plate body, so that the four plate bodies can be connected; and then the blocks are spliced in a group of four blocks at the same angle, which is the design point of the structure of the external catching groove 23 in the application.
Through the mosaic structure design for the concatenation can not appear the problem of concatenation conflict again between the plate body 1 many, and the homoenergetic realizes between the plate body 1 that more than 2 inside catching grooves 22 and outside catching grooves 23 cooperate fixedly, and the implementation effect is as shown in fig. 6. Two internal catching grooves 22 and external catching grooves 23 are formed between the two plate bodies 1 and are matched and fixed, four internal catching grooves 22 and external catching grooves 23 are formed in the middle of the four plate bodies 1 and are matched and fixed, and the fixing property is good.
Fig. 6 shows, the heating coil pipe fixing module with nails of this embodiment, the module is a hollow square board in general, including a cylinder 17, a semi-cylinder 18 and a quarter cylinder 19, all hollow reinforcing ribs 20, the installation is light and easy, and the leveling or floating of the module plate body 1 is also facilitated. The troweling layer 29 is combined with the plate body 1, so that better partition and support are realized, when the plate body 1 is fixed in a vertical wall body, the troweling layer 29 made of cement or gypsum and the like can be prevented from sagging due to gravity, and construction is facilitated; when the ground is horizontally fixed, the partition can be realized, the cold and hot cracking of the ground is prevented, and the construction quality is improved.
The second preferred embodiment is substantially the same as the first embodiment, with modifications in detail. A heating coil fixing module with nails is a hollow square plate, is formed by plastic injection molding, and is provided with a well-shaped straight channel 10 and a coil channel 12 which shares a channel 11 with the well-shaped straight channel 10; fixing holes 13 are formed in the middle and four corners of the plate body 1, fixing nails 14 matched with the fixing holes 13 are further molded on the plate body 1 in an injection mode, and the fixing nails 14 are connected with the plate body 1 into an integral structure through auxiliary water gaps 15 which are easy to break at the head end and the tail end.
The fixing nails 14 are provided with 5 fixing holes 13 corresponding to the plate body 1 in the plate body 1. When the plate body 1 is smaller, the number of the fixing holes 13 and the fixing nails 14 can be 1; when the plate body 1 is larger in size, the number of the fixing holes 13 can be more than 5, such as 7 or 9; 5 or 9 are symmetrically distributed according to the middle one and the rest periphery; the fixing pins 14 may be the same number as the fixing holes 13 or less than the fixing holes 13.
The position of the fixing nail 14 protrudes out of the outer frame of the plate body 1, and one end of the fixing nail is fixed with the plate body 1, so that the fixing nail is convenient to fold and take. This may affect the splice between the panels 1. The combination position of the fixing nail 14 and the plate body 1 can also be upward.
The cylindrical barrel 17, the semi-cylindrical barrel 18 and the quarter cylindrical barrel 19 are of non-hollow structures, and groove holes or convex thorns are arranged on the cylindrical barrel, so that the slurry is convenient to fix and support.
The common channel 11 is provided with a buckle structure 21 for fixing the heating pipe 3. The buckle structure 21 can also be changed into an adhesive structure, and an adhesive layer is attached to the buckle structure, so that the process is relatively complex; or alternatively through a slot in the tie by which the tube 3 is secured.
The fixing between the plate bodies 1 can also adopt other structures for splicing, such as ribbon splicing and adhesive layer fixing, or the bottom surface 28 is adhered to the ground or the wall surface, and the splicing positions of the plate bodies 1 are not fixed.
According to the fixing module for the heating coil pipe with the nails, the fixing module is made of plastic materials and has a hollow structure, the weight is light, the plaster is easy to fix, and the fixing module is suitable for laying pipes and routing on the ground and is convenient for pipeline routing and fixing construction of the wall surface; the splicing structure between the fixed modules has unique design and convenient and firm fixation; especially, the fixing nails and the modules are innovatively integrated, so that the convenience and the construction efficiency of construction are improved, the device is innovative, the product is favorable for assisting in heating construction, the structure is novel and practical, and the device has market popularization value.