CN215442876U - Keel system - Google Patents

Abstract

The utility model relates to the field of decoration, in particular to a keel system. The keel clamp comprises a main keel, wherein the main keel is provided with inner connecting grooves along the side surfaces of the main keel, inner connecting pieces are arranged in the inner connecting grooves, outer connecting surfaces I used for being connected with keel clamps are arranged on two outer side edges of the side walls of the keel provided with the inner connecting grooves and towards the inner direction of the keel, and the shape of each outer connecting surface corresponds to the shape of a clamping surface of each keel clamp; the keel clamp comprises two parallel clamping plates, the two clamping plates are symmetrically arranged, each clamping plate is polygonal, the edges of the side edges of the clamping plates are provided with clamping surfaces, a clamping groove for clamping the keel is formed between each opposite clamping surfaces of the two clamping plates, and each corresponding angular point of the two clamping plates is connected through a connecting piece. The connection mode can be flexibly selected in the process of realizing connection of the keels, so that the rapid construction is realized, the building speed of the keel system is greatly improved, and the strength of the keel system is ensured.

Description

Keel system

Technical Field

The utility model relates to the field of decoration, in particular to a keel system.

Background

In the existing keel system, each keel is usually connected by welding, bolting or riveting in the building process. When the keels are connected in a welding mode, firstly, the keels connected in a welding mode are not detachable, and secondly, the field welding process is greatly influenced by the external environment, so that the welding construction is limited by the external environment; in addition, welding also has a certain effect on the strength of the keel. When the keels are connected in a bolt connection mode, a large number of holes must be drilled in the keels to achieve bolt connection, so that installation workload is large, special drilling equipment is needed for drilling, field drilling must depend on the drilling equipment, and normal construction cannot be performed otherwise. When the keels are connected in a riveting mode, the problems existing in the method are similar to those of bolt connection, and firstly, a large number of holes need to be punched in the keels; second the perforation must rely on specialized perforation equipment. In conclusion, in the building process of the conventional keel system, a large amount of manpower and material resources are consumed, the building cost is high, and the building efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects in the prior art, and provides the keel system, which can flexibly select a connection mode in the process of connecting each keel, realize quick construction, greatly improve the building speed of the keel system and ensure the strength of the keel system.

The technical scheme of the utility model is as follows: a keel system comprises a main keel, wherein the main keel is provided with inner connecting grooves along the side surfaces of the main keel, inner connecting pieces are arranged in the inner connecting grooves, outer connecting surfaces I for connecting keel clamps are arranged on two outer side edges of the side walls of the keel, which are provided with the inner connecting grooves, and face the inner direction of the keel, and the shapes of the outer connecting surfaces correspond to the shapes of clamping surfaces of the keel clamps;

the keel clamp comprises two parallel clamping plates, the two clamping plates are symmetrically arranged, each clamping plate is polygonal, the edges of the side edges of the clamping plates are provided with clamping surfaces, a clamping groove for clamping the keel is formed between each opposite clamping surfaces of the two clamping plates, and each corresponding angular point of the two clamping plates is connected through a connecting piece.

In the utility model, the inner connecting groove is an inner inclined groove, an inclined groove surface is arranged in the inner inclined groove, one side of the inclined groove surface is connected with the side surface of the main keel, the other side of the inclined groove surface is connected with the side surface of the main keel through an inner groove wall, the inclined groove surface and the side surface of the main keel are arranged in an inclined manner, and the inner inclined groove is formed by surrounding the side surface of the main keel, the inclined groove surface and the inner groove wall.

An outer groove is arranged between every two adjacent inner connecting grooves, buckles are arranged on two inner side groove walls of the outer groove respectively, clamping grooves are arranged at two ends of the clamping plate respectively, the buckles are clamped into the clamping grooves respectively, the clamping plate is fixedly connected with the inner groove walls of the outer groove, and wiring grooves are formed between the clamping plate and the two groove walls.

Still include horizontal keel, horizontal keel includes plane I and plane II, and plane I and plane II are located horizontal keel's both sides, plane I and groove connection, and two outsides of plane II are equipped with respectively and are used for pressing from both sides the outer joint face II of being connected with fossil fragments, and the outside of plane I is connected with the dress lateral wall of hanging, hangs the dress lateral wall and forms with plane I and hangs the dress groove.

The transverse keel or the main keel is connected with a target object through the elastic hanging piece, the elastic hanging piece comprises a connecting plate fixedly connected with the target object, a positioning plate and an elastic connecting plate, one side of the connecting plate is connected with the positioning plate and the elastic connecting plate, one end of the elastic connecting plate is fixedly connected with the connecting plate, the bottom of the other end of the elastic connecting plate is provided with a pressing plate inclining towards the direction of the target object, the bottom of the elastic connecting plate is lower than the lower surface of the positioning plate, and the elastic connecting plate is arc-shaped and protrudes towards the upper surface of the positioning plate.

The bottom of fossil fragments system is equipped with the base fossil fragments, and two outsides in the top of base fossil fragments are equipped with respectively and are used for the outer joint face III of being connected with the fossil fragments clamp, and the outer shape of connecting face III and the clamping face that the fossil fragments pressed from both sides corresponds the setting, and the base fossil fragments pass through the bottom fixed connection of fossil fragments clamp with the main joist.

The top of fossil fragments system is equipped with the top fossil fragments, and the outside of top fossil fragments is equipped with the crest line. Two outsides in the bottom of top fossil fragments are equipped with respectively and are used for the outer joint face IV of being connected with the fossil fragments clamp, and the outer shape of connecting face IV and the clamping face of fossil fragments clamp corresponds the setting, and top fossil fragments pass through fossil fragments clamp and main joist fixed connection.

The outer side of the base keel is provided with a skirting line, the side of the skirting line facing the base keel is fixedly provided with an inserting strip, a slot is arranged in the corresponding base keel, and the inserting strip is arranged in the slot in a sliding manner; an upper groove is formed in the top end of the skirting line, an adhesive tape is arranged in the upper groove, and the adhesive tape is located between the skirting line and a target object.

The utility model has the beneficial effects that:

(1) the main keel and a target object, such as a plate, a section or other keels, can be connected through the inner connecting piece of the inner chute and can also be connected through the keel clamp matched with the outer connecting surface by arranging the inner chute and the outer connecting surface on the keels with various shapes and sizes, and in the actual construction process, the connection mode is flexibly selected according to the specific conditions of the connection part, so that the flexibility of connection between the main keel and the target object is greatly improved;

(2) the keel clamp can realize the fixed connection of at least two keels with different intersection angles;

(3) the elastic hanging piece is used for realizing the quick fixed connection between the transverse keel or the main keel and a target object, can be hung and installed as well as horizontally pushed and installed, is suitable for different field conditions, is easy to detach, and realizes the repeated use of the elastic hanging piece;

(4) the keel system utilizes the universal connecting piece keel clamp and sets the inner and outer grooves with the same size for the keels with different shapes and sizes, thereby realizing the mutual quick connection of the keels with various sizes and shapes, fixing various target objects such as plates, section bars and the like with the keels, and greatly improving the building efficiency of the keel system; meanwhile, the keel system does not need procedures such as welding, bolt connection and the like in the building process, construction is fast, and the connection strength of the keel and a target object is guaranteed.

Drawings

FIG. 1 is a schematic cross-sectional structural view of the present invention;

fig. 2 is a schematic structural view of the vertical main keel, the horizontal main keel and the oblique main keel which are connected through keel clamps;

figure 3 is a cross-sectional schematic view of the main runner;

FIG. 4 is a schematic structural view of the elastic nut;

FIG. 5 is a perspective view of the keel clip;

FIG. 6 is a schematic perspective view of the elastic suspension member;

FIG. 7 is a cross-sectional view of a base skirting line.

Figure 8 is a schematic structural view of a second main runner;

figure 9 is a schematic structural view of a third main runner;

figure 10 is a perspective view of the cross runners.

In the figure: 1, wallboard; 2, vertical main keels; 3, base type skirting lines; 4, section bar; 5, elastic hanging parts; 6, adhesive tape I; 7, a top line; 8, top keel; 9, keel clips; 10, transverse main keels I; 11, inclining the main keel I; 12, inclining the main keel II; 13 a transverse main keel II; 14 a beveled groove surface; 15 an inner chute; 16 outer connecting surface I; 17 an outer tank; 18, buckling I; 19 a pinch plate; 20, clamping plates; 21, clamping a groove; 22 inward bending edge; 23, flanging; 24 connecting pieces; 25 springs; 26 screw rods; 27 a connecting plate; 28, positioning a plate; 29 reinforcing ribs; 30 connecting holes; 31 an arc-shaped plate; 32 an elastic pressure plate; 33, pressing the edges; 34 plane I; 35 grooves; 36 outer connecting surface II; 37 hanging the side wall; 38 hanging grooves; 39 bottom wall of the groove; 40 plane II; 41 skirting lines; 42 a base keel; 43 cutting; 44 slot; 45, an outer connecting surface III; 46, buckling II; 47 adhesive tape II; 48 top grooves; 49 nuts; 50 elastic sheets; 51 inner groove wall.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

In the following description, specific details are set forth in order to provide a thorough understanding of the present invention. The utility model can be implemented in a number of ways different from those described herein and similar generalizations can be made by those skilled in the art without departing from the spirit of the utility model. Therefore, the present invention is not limited to the specific embodiments disclosed below.

The keel system comprises main keels which can be transversely arranged, vertically arranged or obliquely arranged, and the main keels are connected with objects such as plates, profiles or other keels.

The main joist is equipped with the interior connecting slot that link up along its several side along its direction of height, is equipped with the interior connecting piece in the interior connecting slot, through the interior connecting piece, can realize being connected between main joist and the target object. The both sides outside limit, and the inside direction towards fossil fragments of setting up the fossil fragments lateral wall of in-connection connecting groove are equipped with external connection face I, and the shape of external connection face I corresponds the setting with the shape of the clamping face that fossil fragments pressed from both sides, have realized that fossil fragments press from both sides the inseparable centre gripping of external connection face. Because each side of the keel clamp can be connected with different profiles at the same time, the quick connection between the main keel and the target object is realized through the keel clamp.

The fossil fragments press from both sides including two parallel arrangement's splint, is the symmetry setting between two splint, and splint are the polygon, and the edge of each side of splint all is equipped with the clamping face, forms between each relative clamping face of two splint and presss from both sides the groove, presss from both sides two outer joint face I of groove and main joist and closely laminates, consequently can be with fossil fragments accurate positioning at pressing from both sides the inslot. The corresponding angular points of the two clamping plates are connected through connecting pieces respectively, so that the main keel is fixed between the two clamping plates. The connecting pieces are arranged at the angular points respectively, so that the positioning between the two clamping plates is more accurate, and the connection stability between the two clamping plates is improved.

When the angle between the two side edges of the splint is 90 degrees, the connection between the two mutually vertical keels is realized. When the angle between the two sides of the splint is 45 degrees, the connection between the two keels with the intersecting angle of 45 degrees is realized. Therefore, the section bar connecting clamp can realize the connection between two mutually vertical keels and also can realize the connection between two keels with the intersection angle within 180 degrees at any angle, and the inner angle of the clamping plate can meet the intersection angle between the two section bars.

In the keel system, the vertical fixed connection between the transverse main keel and the vertical main keel, the vertical fixed connection between the main keel and the base keel, the vertical fixed connection between the main keel and the top keel and the fixed connection between the main keel and the keel arranged in the inclined direction can be realized through the keel clamp. During the use, at first according to the crossing angle between main joist and rather than crossing fossil fragments, decide the mounted position of this fossil fragments clamp, be that which two sides of using the splint are connected with two fossil fragments respectively. Then, the profile is clamped by using clamping grooves formed on the corresponding side edges of the two keels respectively. And finally, connecting the two side clamping plates, and fixing the keel between the two clamping plates, thereby realizing the connection between the two crossed keels.

The inner connecting groove is an inner inclined groove. Be equipped with the chute face in the interior chute, one side and the interior chute fossil fragments side fixed connection of chute face have certain distance between the opposite side of chute face and the main joist side, and this side of chute face passes through interior cell wall and is connected with the main joist side, is the contained angle setting between chute face and the main joist side promptly. Therefore, the inner chute is formed by the surrounding connection of the side surface of the main keel, the chute surface and the inner chute wall. Since the inner chute has a chute surface therein, the inner link is inserted obliquely into the inner chute through the opening of the inner chute in the oblique direction of the chute surface. After the interior connecting piece all inserted interior chute, make interior connecting piece rotatory, a side of interior connecting piece and the contact of main joist lateral wall, because the size of this side of interior connecting piece is greater than the size of opening part, consequently interior connecting piece can not break away from interior chute, has realized being connected of interior connecting piece and main joist. Then, the inner connecting piece is fixedly connected with the target object, so that the target object is connected with the main keel. Through setting up interior chute, interior connecting piece need not to insert to the assigned position from the tip of fossil fragments, puts arbitrary assigned position with interior connecting piece, and the slope inserts in the interior chute after rotatory again can.

Be equipped with the outer tank between two adjacent inner connecting grooves, set up the buckle on the two inboard cell walls of outer tank respectively, the both ends of cardboard set up the draw-in groove respectively, promote the cardboard, make the both ends card of buckle respectively go into the draw-in groove at cardboard both ends in, cardboard and outer inslot cell wall fixed connection this moment form the trough between cardboard and the two cell walls.

The main joist that the slant fossil fragments of this fossil fragments system can adopt the incline direction to set up horizontal fossil fragments in this fossil fragments system can adopt horizontal main joist, also can adopt the horizontal fossil fragments structure that this application provided. The cross keel comprises a plane I and a plane II, the plane I and the plane II are located on two sides of the keel, the plane I is connected with the groove, the plane I and the groove are matched with the elastic hanging piece, and the cross keel is connected with a target object through the hanging piece. Two outsides of the plane II of opposite side are equipped with external connection face II respectively, and external connection face II uses with the cooperation of above-mentioned fossil fragments clamp, and consequently the shape of external connection face II corresponds the setting with the clamping face shape of fossil fragments clamp, has realized being connected between cross keel and main joist and cross keel and the slant fossil fragments. The outside of plane I is connected with hangs the dress lateral wall, forms between hanging dress lateral wall and the plane I and hangs the dress groove, hangs the dress lateral wall and hangs the dress cooperation, through hanging the dress spare, has realized hanging the target object and has adorned on the cross keel.

The main joist and the target object can be connected through the existing hanging piece and also can be connected through the elastic hanging piece provided by the application, and the main joist at the moment comprises a transversely arranged main joist and a vertically arranged main joist. The elastic hanging piece comprises a connecting plate, a positioning plate and an elastic connecting plate, the connecting plate is fixedly connected with a target object, and the positioning plate and the elastic connecting plate are connected to one side of the connecting plate. One end of the elastic connecting plate is fixedly connected with the connecting plate, the bottom of the other end of the elastic connecting plate is connected with a pressing plate which inclines towards the target object, and the bottom of the elastic connecting plate is lower than the lower surface of the positioning plate. The elastic connecting plate is made of elastic materials, so that the elastic connecting plate can generate elastic deformation under the action of external force. The elastic connecting plate is arc-shaped and protrudes towards the upper surface of the positioning plate.

When the elastic hanging piece is used, the connecting plate is fixedly connected with a target object, and then the target object is pushed to move towards the direction of the transverse keel. When the bottom of one end of the elastic connecting plate is in contact with the surface of the transverse keel, the keel applies upward thrust to the elastic connecting plate to enable the elastic connecting plate to generate elastic deformation. After the bottom end of the elastic connecting plate is separated from the surface of the transverse keel, under the elastic action of the elastic connecting plate, the bottom end of the elastic connecting plate applies thrust to the transverse keel in the direction of a target object, the transverse keel is pressed on the target object, and the connection between the transverse keel and the target object is realized. After the use is finished, the target object with the elastic hanging piece is transversely pulled out, and the repeated use of the elastic hanging piece can be realized. In addition, the elastic hanging piece can also realize the connection between the main keel and the target object in a hanging mode.

The bottom of fossil fragments system is equipped with the base fossil fragments, and two outsides in the top of base fossil fragments set up outer joint face III respectively, and outer joint face III corresponds the setting with the shape of the clamping face that fossil fragments pressed from both sides, and the base fossil fragments pass through fossil fragments to press from both sides and main joist vertical fixation is connected. Because the base keel is fixed on the ground, the keel system is erected on the ground.

The outside of base fossil fragments is equipped with the skirting line, and the skirting line is fixed with the cutting towards the side of base fossil fragments, is equipped with the slot in the base fossil fragments that corresponds, and the cutting slides and sets up in the slot, and the cutting drives the skirting line and removes along the horizontal direction when sliding in the slot to the regulation of skirting line at the horizontal direction position has been realized. An upper groove is formed in the top end of the skirting line, an adhesive tape is arranged in the upper groove, and the adhesive tape is located between the skirting line and a target object. Through the elastic deformation of adhesive tape, can realize the fine setting of skirting line in direction of height's position, the adhesive tape has played sealed effect to skirting line and base fossil fragments simultaneously.

In the keel system, the main keel can be connected with a target object through the inner connecting piece in the inner connecting groove, and the fixed connection between two intersecting keels can be realized through the keel clamp. When the main keel is connected with a target object through the inner connecting piece, firstly, the inner connecting piece does not need to be inserted from the end part of the main keel, but is obliquely inserted into the inner connecting groove at any specified position; secondly, through the inner connecting piece, realized being connected with the target object of arbitrary size and model at the optional position of main joist, improved the flexibility that main joist and target object were connected and are under construction greatly. When being connected with other keels through the fossil fragments clamp, this fossil fragments clamp can realize the fixed connection between the double-phase of arbitrary size and handing over the fossil fragments, and it is very convenient to be under construction to can realize firmly pressing from both sides tightly, guarantee the joint strength between the fossil fragments. Therefore, in the construction process of the keel system, the connection of the inner connecting grooves or the outer connecting surfaces can be flexibly selected according to the connection condition between the main keel and the target object and the connection condition between the two intersecting keels, so that the construction and flexibility of the keel system are improved. The keel clamp can be used for realizing fixed connection between two crossed keels at any angle, realizing quick connection between the two keels and ensuring the connection strength between the two keels.

Example 1

As shown in fig. 1 and 2, the keel system in this embodiment includes a main keel, a profile 4, a base type skirting line 3 and a top keel 8, wherein the base type skirting line 3 is located at the bottom of the keel system and is fixedly arranged on the ground, and the top keel is located at the top of the keel system. The main joist in this embodiment includes along vertical main joist 2, horizontal main joist I10, horizontal main joist II 13, slant main joist I11 and slant main joist II 12. Base formula skirting line 3 is located the bottom of main joist 2, and through fossil fragments 9 fixed connection between base formula skirting line 3 and the bottom of vertical main joist 2. The top keel 8 is located at the top of the keel system, and the top keel 8 is fixedly connected with the top of the vertical main keel 2 through a keel clamp 9.

As shown in fig. 3, the main keel is provided with inner connecting grooves along the height of the main keel along the four side surfaces of the main keel, and the inner connecting grooves are inner inclined grooves 15. The inner chute 15 is formed by the surrounding connection of the side surface of the main keel, the chute surface 14 and the inner chute wall 51. The main joist side is equipped with the opening. One side of the inclined groove surface 14 is connected with the side surface of the main keel, a certain distance exists between the other side of the inclined groove surface 14 and the side surface of the main keel, and the side of the inclined groove surface 14 is connected with the side surface of the main keel through the inner groove wall 51, so that the inclined groove surface 14 and the side surface of the main keel are obliquely arranged, and a certain included angle exists between the inclined groove surface 14 and the side surface of the main keel.

In the construction process, the main keel is connected with a target object through an inner connecting piece. The inner connecting member may be a rectangular parallelepiped plate having a size larger than the opening, or may be an elastic nut as shown in fig. 6. As long as the opening of the inner chute 15 can act as a barrier to the inner connecting member.

As shown in fig. 4, the elastic nut includes a nut 49 and a spring plate 50, the nut 49 includes a plane and an arc surface, and the spring plate 50 is fixedly connected to one side of the arc surface. The plane of the nut 49 is inserted into the inner chute 15 obliquely along the oblique direction of the chute surface 14 through the opening on the side surface of the keel of the inner chute, and the chute wall compresses the elastic sheet 50. After the nut 49 completely enters the inner chute 15, the plane of the nut 49 is tightly attached to the side surface of the main keel under the elastic force of the elastic sheet 50, and the elastic nut is fixed in the inner chute 15. Because the size of the plane of the nut 49 is larger than the size of the opening on the side surface of the main keel, the side surface of the main keel has a blocking effect on the elastic nut, and the elastic nut is ensured to be always positioned in the inner chute 15. An internal thread hole is formed in the nut 49, and the nut 49 is fixedly connected with a target object through a screw, so that the target object is connected with the main keel.

Two outside limits of the main joist lateral wall that are equipped with the in-connection groove, and towards the inside direction of fossil fragments be equipped with external connection face I16, the shape of external connection face I16 corresponds the setting with the shape that fossil fragments pressed from both sides the clamping face, can be interior inclined plane, vertical face, folded surface etc.. In this embodiment, the outer connecting surface i 16 is an inner inclined surface. In this application, also can be equipped with interior chute on one side, both sides of main joist, or the side of three sides.

As shown in fig. 5, the keel clamp includes two parallel clamping plates 20, and the two clamping plates 20 are symmetrically disposed and have a certain distance therebetween. The outer flanging 23 is fixedly connected to each side of the clamping plate 20, one end of the outer flanging 23 is fixedly connected to the side of the clamping plate 20, and the other end is fixedly connected to the inward bent inner flange 22. Because the outward turned edges 23 and the inward turned edges 22 arranged at the opposite side edges of the two clamping plates are symmetrically arranged, the outward turned edges 23 and the inward turned edges 22 at the opposite side edges jointly form an encircling clamping groove, and the inward turned edges 22 are tightly attached to the outer connecting surface I16 of the main keel, so that the keel can be tightly clamped between the two clamping plates.

Each corner point of the clamping plate 20 is connected through a connecting piece 24, the connecting pieces can be screw rods, and the connecting pieces are used for realizing the fixed connection between the two clamping plate bodies 3, so that the sectional materials are fixed between the two clamping plate bodies 3.

The connecting piece can also adopt a telescopic pin, the middle parts of the two clamping plates 20 are connected through a screw rod 26 at the moment, the outer side of the screw rod 26 is sleeved with a spring 25, and a nut at the end part of the screw rod is tightened, so that the fixed connection between the two clamping plates 20 can be realized. Through spring 25 and telescopic pin, be convenient for adjust the interval between two splint 20, make this fossil fragments press from both sides the centre gripping that can be applicable to the fossil fragments of various sizes fixed.

In the present embodiment, the clamping plate 20 is triangular, but may also be quadrilateral or have other shapes. The included angles between the three sides of the splint 20 are 90 °, 45 ° and 45 °, respectively. Wherein, the two side edges with the included angle of 90 degrees can realize the connection between two mutually vertical keels, and the two side edges with the included angle of 45 degrees can realize the connection between two keels with the crossing angle of 45 degrees.

As shown in fig. 2, the connection between the transverse main keel i 10 and the vertical main keel 2, the connection between the transverse main keel ii 13 and the vertical main keel 2, the connection between the base type skirting line 3 and the main keel 2, the connection between the top keel 8 and the main keel 2, and the connection between the oblique main keel i 11 and the oblique main keel ii 12 having an intersecting angle of 90 ° can be realized by the two side edges having an included angle of 90 °. Through the two side edges with the included angle of 45 degrees, the connection between the transverse main keel I10 and the oblique main keel I11, the connection between the transverse main keel I10 and the oblique main keel II 12, the connection between the oblique main keel I11 and the transverse main keel II 13 and the connection between the oblique main keel II 12 and the transverse main keel II 13 with the intersection angle of 45 degrees can be realized.

The inner angle of the splint can be any angle except the angle of the embodiment. In the actual use process, the clamping plates with corresponding angles and shapes can be selected according to the intersecting angles of the sectional materials.

In this embodiment, the section bar 4, the cross keel or the main keel and the target object are connected through the elastic hanging piece 5. As shown in fig. 6, the elastic hanger includes a connecting plate 27, two positioning plates 28 and an elastic connecting plate, the connecting plate 27 is fixedly connected to the target through a connecting member in a connecting hole 30, one side of the connecting plate 27 is fixedly connected to two positioning plates 28 arranged at an interval, and the elastic connecting plate is located between the two positioning plates 28. The positioning plate 28 is flat, the positioning plate 28 is vertically connected with the connecting plate 27, and when the elastic hanging piece is in contact with the framework, the positioning plate 28 plays a role in positioning and supporting. In order to improve the supporting strength of the positioning plate 28, a reinforcing rib 29 is provided between the connecting plate 24 and the positioning plate 28.

The elastic connecting plate is made of elastic materials and can generate elastic deformation under the action of external force. Elastic connection board includes arc 31 and elastic pressure plate 32, and arc 31 is protruding to the locating plate upper surface, one end of arc 31 and one side fixed connection of connecting plate 27, and the bottom of the arc 31 other end is equipped with the bending plate, and the bottom of bending plate and elastic pressure plate 32 are to the bottom fixed connection of target object direction slope to form blank holder 33 in the bottom of arc. The pressing edge 33 is lower than the lower surface of the positioning plate 28. In this embodiment, the connecting plate 27, the positioning plate 28, the arc plate 31, the bending plate and the elastic pressing plate 32 are of an integrated structure. When the blank holder at the bottom of the arc-shaped plate 31 is in contact with the profile, the elastic pressing plate 32 applies a thrust force to the profile 4 or the main keel in the direction of the target object, so that the compression effect between the profile 4 or the main keel and the target object is improved, and the connection between the profile and the target object is firmer. In this embodiment, the target object is the wall panel 1, and may be a marble panel or the like.

When the elastic hanger is used, first, the connection plate 27 is fixedly connected to the object. Then, the elastic hanging piece 5 with the target object is horizontally pushed towards the section bar 4 or the main keel. When the pressing edge 33 pushed to the bottom of the elastic hanging piece 5 is in contact with the section bar 4 or the main keel, the section bar 4 or the main keel applies upward pushing force to the elastic hanging piece 5 through the pressing edge 33, so that the elastic hanging piece 5 generates elastic deformation. And after the edge pressing 33 leaves the section bar 4 or the main keel, the edge pressing 33 at the bottom of the elastic hanging 5 exerts a thrust force towards the direction of the target object on the section bar 4 or the main keel under the action of the elastic force of the elastic hanging 5, so that the section bar 4 or the main keel is fastened between the elastic hanging 9 and the target object, and the connection between the section bar 4 or the main keel and the target object is realized. In addition, the elastic hanging piece can also realize the connection between the target object and the section bar or the main keel in a hanging mode.

In this application, the section bar or the cross keel or the main keel can also be connected with the target object by adopting the existing hanging piece structure, and is not limited to the structure of the elastic hanging piece.

As shown in fig. 7, the base skirting line 3 includes a base keel 42 and a skirting line 41, and the skirting line 41 is located outside the base keel 42. The base keel 42 is fixed on the ground, and in the embodiment, the bottom surface of the base keel 42 is provided with corrugated protrusions, so that the friction coefficient between the base keel 42 and the ground is increased through the corrugated protrusions. An inner groove is formed in the middle of the upper surface of the base keel 42, and outer grooves are symmetrically formed in two outer sides of the inner groove respectively. The both sides wall top outside of inner groovy is equipped with outer joint face III 45 respectively, and the shape of outer joint face III 45 corresponds the setting with the shape of the clamping face of fossil fragments clamp, therefore base fossil fragments 42 can be through the bottom fixed connection of fossil fragments clamp 9 with vertical main joist 2.

Be equipped with buckle II 46 on two inside walls of outer recess respectively, the both ends of card lid are equipped with the draw-in groove, will block the lid to II 46 directions of buckle promotion, after II 46 of buckle pushed to the draw-in groove just, have realized being connected between card lid and the outer recess wall, form the wiring groove between card lid and the outer recess wall this moment.

The top of skirting line 41 is equipped with top recess 48, is equipped with adhesive tape II 47 in the recess 48 of top, and adhesive tape II 47 is extruded between the bottom of skirting line 41 and target object, through the elastic deformation of adhesive tape II 47, both can prevent dust, give sound insulation, prevent the cockroach, simultaneously along with adhesive tape elastic deformation's difference, can finely tune the position of skirting line along direction of height.

The side of skirting line 41 towards base fossil fragments 42 is fixed with cutting 43, and the corresponding side at base fossil fragments 42 is equipped with slot 44, and cutting 43 is located slot 44, and cutting 43 can move in slot 44 horizontal translation, and skirting line 41 can move along the horizontal direction this moment to adjust the position of the horizontal direction of skirting line 41.

Two lateral surfaces of 8 bottoms of top fossil fragments are equipped with outer joint face IV respectively, and the shape of outer joint face IV corresponds the setting with the clamping face shape of fossil fragments clamp, therefore top fossil fragments 8 can be through the top fixed connection of fossil fragments clamp 9 with main joist 2. The outside of top fossil fragments 8 is equipped with terminal line 7, and the top and the lateral part of terminal line 7 are equipped with the recess respectively, are equipped with adhesive tape I6 in the recess, have played sealed effect to top fossil fragments 8 through adhesive tape I6, play the cushioning effect simultaneously in the installation.

In the construction process of the keel system, the vertical main keel 2 and the base keel 42 are fixedly connected through the keel clamp 9, and the base keel 42 is fixed on the ground, so that the vertical main keel 2 is erected on the ground. Then, the profile 4, the cross main runner or the top runner is installed at a designated position of the vertical main runner 2 as required. The section bar 4, the transverse main keel or the top keel and the vertical main keel 2 are fixedly connected through keel clamps. The inner connecting piece in the inner chute can realize the connection of two keels of any type at any position; the keel clamp can realize the fixed connection between two keels with any size and any intersection angle, and the keel clamp can ensure the connection strength between the two keels. Therefore, in the actual construction process, the connection mode of the inner inclined grooves or the keel clamps can be selected according to the connection position, the connection strength, the size and the like between the vertical main keel 2 and the target object, and the connection flexibility between the main keel and the target object is greatly improved.

When the target object needs to be hung on the transverse keel 4 or the transverse main keel, the existing hanging piece with any structure can be adopted, and the elastic hanging piece 5 of the embodiment can also be adopted. Through the elastic hanging piece 5, the fixed connection between the target object and the transverse keel 4 or the transverse main keel can be realized in a flat pushing mode or an existing hanging mode.

To sum up, whole fossil fragments system is in the in-process of buildding, and its flexibility improves greatly, has the advantage that interior chute is connected and fossil fragments press from both sides the connection concurrently, has improved the efficiency of buildding of construction speed and fossil fragments system greatly.

Example 2

As shown in fig. 8, unlike embodiment 1, the main keel in this embodiment is a main keel structure formed by connecting two vertical main keels 2 in embodiment 1, and the main keel structure may be arranged vertically, horizontally or obliquely, in consideration of the length of the target object and the thickness of the actually constructed keel system in the actual use process. The main runner in this embodiment has six inner chutes 15.

The rest is the same as example 1.

Example 3

As shown in fig. 9, unlike embodiment 1, the inner oblique groove keel in this embodiment is a main keel structure formed by connecting four vertical main keels 2 in embodiment 1, in consideration of the length of a target object and the thickness of a keel system actually built in the actual use process, and the main keel in this embodiment is the sum of the lengths of the two vertical main keels 2 in the length direction and the sum of the thicknesses of the two vertical main keels 5 in the thickness direction. The main keel structure may be arranged vertically, horizontally or obliquely. The inner chute keel in this embodiment has eight inner chutes 15.

In the actual use process, the structure of the inner chute keels is not limited to the combination form of the main keels in the embodiment 2 and the embodiment 3, and the number of the main keels and the connection structure form of the main keels are determined according to the length and the building thickness of the target object.

The rest is the same as example 1.

Example 4

As shown in fig. 10, the cross keel according to the embodiment includes a plane i 34 and a plane ii 40 respectively located at two sides of the keel, wherein the plane i 34 includes two planes i 34, a groove 35 is disposed between the two planes i 34, two side walls of the groove 35 are respectively connected with the planes i 34 at the two sides, and a bottom wall 39 of the groove 35 is lower than the plane i 34. Plane II 40 is located the middle part of cross keel, and the outside and the recess diapire 39 of plane II 40 are connected, and two lateral surfaces of plane II 40 are outer joint face II 36, and the shape of outer joint face II 36 corresponds the setting with the clamping face shape that fossil fragments pressed from both sides, through outer joint face II 36, has realized the fixed connection that cross keel and fossil fragments pressed from both sides to the fixed connection of cross keel and other fossil fragments has been realized. Hanging side walls 37 are arranged on the outer sides of the two planes I34, and hanging grooves 38 are formed by the hanging side walls 37 and the connection surfaces of the planes I34, the outer side walls of the grooves 35 and the connection surfaces of the planes II 40 and the bottoms of the grooves.

In this embodiment, the plane i 34, the plane ii 40, the outer connecting surface ii 36, and the hanging sidewall 34 may be an integrated structure.

The plane I34, the groove 35 and the elastic hanging piece are matched for use, and the connection between the transverse keel and a target object is realized through the elastic hanging piece. The outer connecting surfaces II 36 on the two outer sides of the plane II 40 are matched with the keel clamps for use, and the transverse keel and the main keel or the oblique keel are fixedly connected. The hanging side wall 37 outside the plane I34 can be matched with a hanging piece, and a target object is hung on the cross keel through the hanging piece.

The rest is the same as example 1.

The keel system provided by the present invention has been described in detail above. The principles and embodiments of the present invention are explained herein using specific examples, which are presented only to assist in understanding the method and its core concepts. It should be noted that, for those skilled in the art, it is possible to make various improvements and modifications to the present invention without departing from the principle of the present invention, and those improvements and modifications also fall within the scope of the claims of the present invention. The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. A keel system, characterized in that:

the keel clamp comprises a main keel, wherein the main keel is provided with inner connecting grooves along the side surfaces of the main keel, inner connecting pieces are arranged in the inner connecting grooves, outer connecting surfaces I used for being connected with keel clamps are arranged on two outer side edges of the side walls of the keel provided with the inner connecting grooves and towards the inner direction of the keel, and the shape of each outer connecting surface corresponds to the shape of a clamping surface of each keel clamp;

the keel clamp comprises two parallel clamping plates, the two clamping plates are symmetrically arranged, each clamping plate is polygonal, the edges of the side edges of the clamping plates are provided with clamping surfaces, a clamping groove for clamping the keel is formed between each opposite clamping surfaces of the two clamping plates, and each corresponding angular point of the two clamping plates is connected through a connecting piece.

2. The runner system of claim 1, wherein: the inner connecting groove is an inner inclined groove, an inclined groove surface is arranged in the inner inclined groove, one side of the inclined groove surface is connected with the side face of the main keel, the other side of the inclined groove surface is connected with the side face of the main keel through an inner groove wall, the inclined groove surface and the side face of the main keel are arranged in an inclined mode, and the inner inclined groove is formed by surrounding and connecting the side face of the main keel, the inclined groove surface and the inner groove wall.

3. The runner system of claim 1, wherein: an outer groove is arranged between every two adjacent inner connecting grooves, buckles are arranged on two inner side groove walls of the outer groove respectively, clamping grooves are arranged at two ends of the clamping plate respectively, the buckles are clamped into the clamping grooves respectively, the clamping plate is fixedly connected with the inner groove walls of the outer groove, and wiring grooves are formed between the clamping plate and the two groove walls.

4. The runner system of claim 1, wherein: still include horizontal keel, horizontal keel includes plane I and plane II, and plane I and plane II are located horizontal keel's both sides, plane I and groove connection, and two outsides of plane II are equipped with respectively and are used for pressing from both sides the outer joint face II of being connected with fossil fragments, and the outside of plane I is connected with the dress lateral wall of hanging, hangs the dress lateral wall and forms with plane I and hangs the dress groove.

5. The runner system of claim 4, wherein: the transverse keel or the main keel is connected with a target through the elastic hanging piece, the elastic hanging piece comprises a connecting plate fixedly connected with the target, a positioning plate and an elastic connecting plate, one side of the connecting plate is connected with the positioning plate and the elastic connecting plate, one end of the elastic connecting plate is fixedly connected with the connecting plate, a pressing plate inclining towards the direction of the target is arranged at the bottom of the other end of the elastic connecting plate, the bottom of the elastic connecting plate is lower than the lower surface of the positioning plate, and the elastic connecting plate is arc-shaped and is convex towards the upper surface of the positioning plate.

6. The runner system of claim 1, wherein: the bottom of fossil fragments system is equipped with the base fossil fragments, and two outsides in the top of base fossil fragments are equipped with respectively and are used for the outer joint face III of being connected with the fossil fragments clamp, and the outer shape of connecting face III and the clamping face that the fossil fragments pressed from both sides corresponds the setting, and the base fossil fragments pass through the bottom fixed connection of fossil fragments clamp with the main joist.

7. The runner system of claim 1, wherein: the top of fossil fragments system is equipped with the top fossil fragments, and the outside of top fossil fragments is equipped with the crest line, and two outsides in the bottom of top fossil fragments are equipped with respectively and are used for the outer joint face IV of being connected with the fossil fragments clamp, and the outer joint face IV corresponds the setting with the shape of the clamping face of fossil fragments clamp, and the top fossil fragments pass through fossil fragments clamp and main joist fixed connection.

8. The runner system of claim 6, wherein: the outer side of the base keel is provided with a skirting line, the side of the skirting line facing the base keel is fixedly provided with an inserting strip, a slot is arranged in the corresponding base keel, and the inserting strip is arranged in the slot in a sliding manner; an upper groove is formed in the top end of the skirting line, an adhesive tape is arranged in the upper groove, and the adhesive tape is located between the skirting line and a target object.

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