CN101883905A - Light weight & anti slip grating panel - Google Patents

Abstract

The invention provides an improved grating panel (100) and method for producing thereof, wherein said grating is light in weight and provides anti-slip feature, used in particularly for oily areas. The said grating panel (100) also provides easier handling during installation and maintenance.

Description

The flase floor of light weight ﹠ anti slip

Technical field

The present invention relates to a kind of floor system of improvement, more specifically, relate to a kind of flase floor of improvement, so that a kind of in light weight and anti-skidding trellis system is provided.

Background technology

At present, the trellis system of a large amount of different designs is arranged on the market, to satisfy the first-selected demand of various suitable industry.Shou Xuan trellis system comprises following feature the most: durable, anti-skidding, and can be installed on the suitable structural framing, perhaps be installed in any suitable supporting structure that is used to support described trellis system.

Trellis system is applied to the wide industrial purposes usually; These purposes can comprise: aircraft unloading slope, ramp, freight car floor, cocke-stair, material screen, mezzanine floor, scaffold, window protective frame, pavement, drain lid and stage floor.

Each manufacturer constantly researches and develops the grid technology with being necessary, so that more efficiently grid device is provided, particularly provides the grid of retrofit and the grid of new body structure surface.Another importance relevant with ground region that people consider is mechanism or the technology that is used to strengthen the grid device safety.

It is reported, poor technology and invalid anti-slip technology can cause the unstability of system, this can cause the inhomogeneous and smooth surface of pressure distribution, just greasy surface, be unfavorable for the user like this, particularly from heavy industry or as before the user of described any other the suitable industrial circle of paragraph.

Most grid technology comprises and one or morely is used to adhere to or fixing add ons, and makes on the surface-based suitable supporting structure of add ons of grid device.

Patent application CA 2,469 345 A1 of W.S.MOLNAR company disclose an embodiment of prior art, and this patent relates to a kind of method of making anti-skidding trellis system, and described method is included in the top layer of grid and uses a kind of coating.

Adopt above-mentioned barrier methods with coating can cause a problem: coating may be worn along with the time.It will be appreciated that though this method provides a kind of effective anti-skidding product, tediously long making step can spend the considerable time to guarantee the suitable thickness of its accuracy and definite coating before being applied to described grid.

Conventional method needs suitable coating speed and coating layer thickness, and this method needs to adjust exactly or arrange railing and flat board.Coarse railing arrangement can cause unsuitable coating, and then makes the antiskid function of trellis system not enough or inferior.

Method except above-mentioned prior art, on market, also have other dissimilar trellis system mounting methods, the some of them method needs very a large amount of work and fastening accessory, so as grid to be attached to the supporting structure on floor or the structural framing that provided on.

In addition, though improvement or specialized designs grid with and mounting method be in order to bear harsh working environment, but these trellis system are extremely heavy, therefore can cause burden to the user, especially when installing with maintenance work.

For this reason, be necessary to improve foot level grill with and mounting method so that address the above problem, and then satisfy demand recited above.

Therefore, the flase floor that main purpose of the present invention provides a kind of improvement with and mounting method overcome these problems discussed above, the flase floor of described improvement has non-slip feature, in light weight, hollow and abundant low cost.

Another object of the present invention provides a kind of flase floor, and it can fully reduce assembling and mounting method required labour hour.

A further object of the invention provides a kind of flase floor, and its structure is simple, durability is high and in light weight.

Brief Description Of Drawings

Fig. 1 shows the structure of the flase floor of constructed improvement according to the present invention;

Fig. 2 shows the carrying form according to formation flase floor of the present invention;

Fig. 3 shows the assembling of trellis system of the present invention;

Fig. 4 shows the process of a described according to one embodiment of present invention fastening configuration;

Fig. 5 shows an aspect of mounting method of the present invention;

Fig. 6 shows the trellis system that forms according to mounting method of the present invention;

Fig. 7 shows an aspect according to fastener of the present invention;

Fig. 8 shows according to fastener mechanism of the present invention;

Fig. 9 shows the phantom drawing according to trellis system of the present invention;

Figure 10 shows another phantom drawing according to trellis system of the present invention, particularly shows broadstep of the present invention;

Figure 11 shows another view according to broadstep of the present invention mechanism;

Figure 12 shows the phantom drawing according to broadstep of the present invention mechanism;

Figure 13 shows another aspect or another view according to broadstep of the present invention mechanism;

Embodiment according to another abutment mechanism that is provided by abutment means of the present invention is provided Figure 14.

Summary of the invention

The invention discloses a kind of flase floor 100 be used to ground system is provided, comprising: a plurality of carrier bars 40, each carrier bar 40 is hollow, and with grasping structure, wherein, described grasping structure has circular relief surface 42; And side plate 104, be used for described a plurality of carrier bars 40 are positioned at together; Wherein, described side plate 104 is forever to be welded to described a plurality of carrier bar 40.

The present invention further discloses a kind of flase floor 100 systems, comprising: flase floor 100 as claimed in claim 1; Wherein, described grid is positioned on the ground by fastener 206 or 208 or arbitrarily on the supporting structure; Wherein, described flase floor 100 is connected to another adjacent flase floor 100 by expansion abutment means 109; Wherein, described expansion abutment means 109 comprises: threaded rod 32, and flexible center part 31; Wherein, in use, described expansion abutment means 109 is configured between the adjacent carrier bar 40 of flase floor 100, thereby flexible center part 31 is arranged in the gap between the adjacent carrier bar 40 of flase floor 100, and threaded rod 32 is located at each side of described flexible center part 31, and threaded rod 32 is inserted in the hole of adjacent carrier bar 40 of described flase floor 100.

The present invention discloses further and has utilized steel plate to make the first method of described flase floor for raw material, and this method may further comprise the steps:

The preparation raw material;

Described steel plate is cut into predetermined size;

The described steel plate of bending consequently forms a hollow stem 40;

Embossing makes it have non-slip feature 42 on described steel plate;

Described hollow stem 40 is arranged to predetermined arrangement;

A plurality of described hollow stem 40 are permanently fixed together, thereby form flase floor 100;

Be coated with described flase floor 100 with galvanizing by dipping and/or paint.

The invention discloses the raw material that utilize the form of curling and make the another kind of method of described flase floor, said method comprising the steps of:

The raw material that preparation has curling form;

Described raw material are sent in the roller head machine;

Wherein, the execution following steps in the described roller head machine:

A) described raw material roll extrusion is become preferred profile to form preferable shape;

B) the described raw material of punching press are to produce non-slip feature;

C) the described raw material of cutting are preferred length;

D) will weld together from a plurality of materials that prepared that step c obtains, form a flase floor 100; And

E) be coated with the flase floor that obtains from steps d with galvanizing by dipping and/or paint.

The specific embodiment describes in detail

With reference to the accompanying drawings, particularly as shown in Figure 1, the flase floor of constructed improvement according to the present invention is labeled as numeral 100, comprises carrier bar 40, cross bar 102, side plate 104 and fastener 206 and fastener 208.

According to a preferred embodiment of the present invention, carrier bar 40 is usually by a quadrangle of a plurality of bar welding formation together; And have predetermined size, as of the present invention shown in Figure 1.Described carrier bar 40 preferably can be formed by stainless steel, carbon steel or mild steel or any suitable material casting, and it has at least one top layer and cross section, as of the present invention shown in Figure 2.The inner surface of this carrier bar 40 forms hollow body, therefore makes the present invention have light and handy feature.Significantly, the cross section of this carrier bar 40 forms with multi-form, and for example, this cross section can be inwardly tortuous.In addition, described carrier bar 40 also has a bottom, has therefore formed a hollow rectangular shaft.

Preferably, the top surface of this carrier bar 40 is embossment shapes, thereby forms the ridge of a plurality of size homogeneous, and these ridges have produced non-slip feature.Described ridge is to scatter mutually with predetermined spacing along the top surface of bar 40.Each described ridge (here being as holding device 42) is preferably circular, and each projection all has an interstitial hole, as shown in Figure 2.

The cross section of carrier bar 40 has an intercepting part 11, as shown in Figure 2.This intercepting part has a predetermined structure, is enough to be used in assembling the material of similar bar.These intercepting parts 11 are mainly used in and strengthen the connection between the carrier bar 40 together and hold these carrier bars 40 usually as integrating shaft.

In order to be connected two adjacent flase floors, two tail ends of the side that flase floor joins should be established two holes 50, and these are wide open to be located at each side of each carrier bar 40 or the space between two sides, and these holes are positioned at the side of each flase floor 100.It should be understood that other carrier bars 40 that are located in the flase floor 100 do not have described hole 50.Described hole 50 has suitable size so that the fastener of receivability rod shaped structure or similar bolt.

According to of the present invention shown in Figure 3, cross bar 102 is preferably shaft-like.According to of the present invention, a plurality of cross bars 102 can for good and all weld the bottom part that is fixed to described carrier bar 40, and then have formed a cross-mode.By this connected mode, described cross bar 102 is to place apart from one another by ground suitably.Here should be mentioned that described cross bar 102 is not essential to the invention, it is an optional feature, mainly is to be used for further strengthening flase floor 100 of the present invention.

According to a further advantageous embodiment of the invention, described side plate 104 is to be made by suitable material, makes the flat board with preliminary dimension, for attachment to the end parts of carrier bar 40.Each side plate is to be connected with carrier bar 40 securely by solder technology, as of the present invention shown in Figure 3.The main effect of these side plates is to support described a plurality of carrier bar 40 in position by their top, thereby forms flase floor 100 of the present invention.

Another important embodiment of the present invention is a fastener; Wherein, according to of the present invention, fastener 206 can be referring to Fig. 4, Fig. 5 and Fig. 6, and fastener 208 can be referring to Fig. 7, Fig. 8 and Fig. 9.But fastener 208 and fastener 206 are trans-substitutions mutually, just as shown in Figure 7 and Figure 8, have also shown an expansion abutment means 109 in Figure 14.

As shown in Figure 4, fastener 206 comprises two critical pieces, and these parts are respectively bottom 3, carriage 5 and suitable fastener such as rivet, nut and bolt, and their fastening function will here elaborate.It should be understood that fastener 206 can form based on suitable forging type, for example, by casting or metal stamping.

Based on foregoing, first parts of fastener 206 are meant bottom 3 here, are preferably formed as stainless steel, carbon steel or mild steel casting by suitable material.This bottom 3 comprises two parts, and first 7 has a cylindrical or tubular metal that is cut into the sloping section, and there is a body protruding upward this sloping section.Described bossy body preferably has the screw-shaped rhabodoid, and this rhabodoid can be inserted into corresponding perforations.The second portion 4 of bottom 3 is a quadrangle body or the rounds with preliminary dimension.The second portion 4 of described bottom 3 for good and all is welded to the first 7 of bottom 3.

Carriage 5 is with individual " M " shape piece, and there is individual cut-out at the middle part of being somebody's turn to do " M " type piece, and when assembling, described cut-out has a dimension, can allow described rod shaped structure insert in assembling process.Shown in Fig. 4-5, the middle part of bottom 3 provides enough spaces, be used for union nut with in the suitable fastening devices shown in Fig. 4 and Fig. 5.

As for substituting fastener 208, have the form of described fastener different choice, it comprises similar in appearance to the carriage 5 of fastener 206 and the rhabodoid 35 of class screw thread.It should be explicitly made clear at this point that the effective result who wants remains and can realize.Fastener 208 of the present invention as shown in Figure 7 and Figure 8.

According to present invention, an expansion abutment means 109 is disclosed further, as shown in figure 14, the main effect of this expansion abutment means 109 is to engage at least two flase floors that adjoin 100.Described abutment structure 109 comprises bolt, perhaps has the rhabodoid of screw thread, and the core of this bolt or shaft is provided with a chock shape object, as shown in figure 14.This chock shape structure optimization ground is to be made by rubber, stretches and the characteristic of shrinking so that possess.Therefore, when using, this abutment structure 109 can be met thermal expansion and be met cold contraction.This feature can be supported flase floor 100 fully, thereby avoids being connected the flase floor 100 that forms and come off.

Manufacture method and operating effect according to preferred embodiment of the present invention will be described in detail with reference to appended accompanying drawing.

Manufacture method of the present invention

As previously mentioned, flase floor 100 of the present invention comprises carrier bar 40, cross bar 102, side plate 104, fastener 206 or fastener 208 and expansion abutment means 109.

Carrier bar of the present invention 40 is made according to preferable methods, and this method is by traditional cutting and bending method, perhaps roll forming, and these methods all will here be described in detail.

Method 1: cutting and crooked

According to method for optimizing of the present invention, described carrier bar 40 is made by steel plate, and the preferred size of this steel plate is 4 ' X 8 ' or 5 ' X10 ' or any suitable rectangular and square.First step of this manufacture process is by lathe cutter steel plate to be cut into preferred sizes.Subsequently, crooked every block of steel plate of well cutting is so that make a hollow body.Then, engrave the inner surface of shaped steel plate by the punching technology.Therefore, the steel plate through engraving has non-slip feature 42 as mentioned above.A plurality of carrier bars 40 are correspondingly arranged, and by the end of solder attachment to side plate 104, form a flase floor 100.Then, be that this moulding flase floor 100 covers layer protective layer by galvanizing by dipping or paint.Therefore, be exactly the product of finishing of the present invention by the flase floor 100 of suitable coating.

Method 2: traditional type roll forming

Second method is to make carrier bar 40 by the roll forming technology.The raw material that are used for this manufacture method have curling form.

The roll forming method is a kind of conventional method, and this method relates to the crooked roll extrusion campaign of continuity.Therefore, the raw material of Juan Quing obtain preferred sizes or profile after by a series of roll extrusion.

First step of this manufacture method relates to sends described curling material into the forming machine with corresponding machine pattern or type, carries out following step:

A) curling raw material are that preferred profile is to form preferred shape;

B) on the material that step a forms punching so that non skid matting to be provided;

C) material that this punching is good is cut apart and is cut into preferred length;

From cutting apart of being obtained of step c and cut into preferred length material further carry out:

D) this material is welded into flase floor 100; And

E) galvanizing by dipping or paint.

In following step, the plate of every definite size is bent to form the profile of hollow.The carrier bar 40 of some thereby be arranged and be welded to the end of side plate 104, thereby form flase floor 100 of the present invention.

By galvanizing by dipping or paint is flase floor covering one deck protective coating of every formation of lots.Therefore, the flase floor 100 that suitably is coated with is the product of finally finishing of the present invention.

The assembly method of flase floor

The assembling of flase floor 100 of the present invention as shown in Figure 6.Between the installation period of flase floor 100, support beam 108 correspondingly by additional fastening to the surface of each side of this flase floor 100, this collocation method will be done brief description here.

Respectively as Fig. 6 and shown in Figure 9, flase floor 100 is fixed on support beam 108 or the suitable holder by fastener 206 or substituting fastener 208.Therefore, as shown in Figure 6, by fastener 206 make each support beam 108 be placed on flase floor 100 below, preferably be placed on below the both sides of flase floor 100, in this position, the bottom of side plate is connected the end portion of support beam 108.

Then preamble is described, and this support beam 108 is fixed to flase floor 100 by fastener 206 or alternative fastener 208.As of the present invention shown in Figure 5, adopt fastener 206, its base part 3 be seated in suitably carrier bar 40 below, be placed in particular between two flase floors.In this position, the second portion 4 of base part 3 is offered slot below support beam 108 top layers part, so the end parts of support beam 108 is between the second portion 4 of carrier bar 40 and base part 3.Top by bracket portion 5 being configured in carrier bar 40 to be to fix this position, and wherein this bracket portion 5 is correspondingly joined and is placed at least two carrier bars 40.It should be noted that the end that has at least two cover fasteners to be for fixing to few two flase floors, more preferably fix the end of four flase floors, with support beam 108 or anyly be fit to be arranged on ground supporter and support.Therefore, the part 7 of base part 3 extends through the middle part of bracket portion 5, and therefore, the carrier bar 40 of flase floor 100 is secured to support beam 108, by tight lock bolt and nut flase floor is fastened on the support beam 108, as Fig. 5 of the present invention and shown in Figure 6.In this position, provide a kind of clamping mechanism by fastener 206.

Applicable to another optional fixed form of the present invention is that fastener 208 is installed, as shown in Figure 8.Fixing means hereto, the perforate that the screw bolt and nut with screw thread can be inserted suitably the top layer part of described support beam 108 is so that tightly lock this support beam 108.Can on support beam 108, hole and form this perforate by drill.Therefore, as shown in Figure 8, carriage 5 is placed on the carrier bar 40 of flase floor 100, and screw bolt passes the slot at the middle part of carriage 5, is fastened on the support beam 108 with the carrier bar 40 of nut with carriage 5 and flase floor 100 again.

Another utilizes the fixing means of fastener 208, and as shown in Figure 7, the assistance by traditional high pressure tools rifle is called stud gun in the art, and threaded rod 35 is pressed into support beam 108, thereby forms a fusion on support beam 108.Subsequently, utilize conventional fasteners that carriage 5 is fixed on the support beam 108.

Expansion abutment means 109 of the present invention comprises two parts, and these two parts are not threaded rod 32 and flexible core 31, as shown in figure 14.It should be noted that flexible core 31 can be an arbitrary shape,, and have predetermined size because it is flexible.

Described flexible core 31 is made by elastomeric material, so that the characteristic of expanding or shrinking according to variation of ambient temperature is provided.Connect two flase floors 100 in order to connect or to face, each end of the threaded rod 32 of expansion abutment means 109 is correspondingly inserted in the opening or hole on the side of carrier bar 40 of adjacency, as shown in figure 14.With this inserted mode, at least one end of described threaded rod 32 is inserted into the hole 50 of first flase floor, and another end of this threaded rod 32 is inserted into the hole 50 of second flase floor, as shown in figure 14.

As indicated above, the flexible core 13 of expansion abutment means 109 is to firmly fix between two carrier bars that adjoin 40 of each flase floor 100.In a word, this expansion abutment means 109 is to be configured between two adjacent carrier bars 40 of flase floor 100, flexible core 31 thereby be configured between two adjacent carrier bars 40, and the threaded rod 32 that is located at each side of core 31 is inserted in the hole of adjacent carrier bar 40 of described flase floor 100.

The grid broadstep

Flase floor 100 of the present invention is also suitable to be used as the grid broadstep, to satisfy user's specific demand, as Figure 10, Figure 11, Figure 12 and shown in Figure 13.

Though the present invention is described by the mode of preferred embodiment, when it will be clear to one skilled in the art that the present invention to be carried out various modifications and changes not departing from the scope of the present invention, this scope is limited to the appended claims.

Claims (25)

1. flase floor (100) that is used to provide ground system comprising:

A plurality of carrier bars (40), each carrier bar (40) is a hollow, and has grip structure; And

Side plate (104) is used for described a plurality of carrier bars (40) are positioned at together;

Wherein, described side plate (104) is for good and all to be welded to described a plurality of carrier bar (40).

2. flase floor according to claim 1 (100) is characterized in that: also comprise a plurality of cross bars (102), described cross bar (102) is preferably shaft-like, and they permanently navigate to described carrier bar (40), forms cross-mode.

3. flase floor according to claim 1 is characterized in that: every described carrier bar (40) has top surface and cross section.

4. flase floor according to claim 1 is characterized in that: each cross section of described carrier bar (40) is inside bending.

5. flase floor according to claim 1 is characterized in that: described carrier bar (40) has a bottom section, thereby forms the rectangular shaft of hollow.

6. flase floor according to claim 1 is characterized in that: described grip structure is the top surface that is provided at described carrier bar (40), has tondo surface (42), thereby forms the ridge of a plurality of size homogeneous, thereby possesses non-slip feature.

7. flase floor according to claim 6 is characterized in that: each described lobe has hole.

8. flase floor according to claim 6 is characterized in that: each described lobe can be covered.

9. flase floor according to claim 1 is characterized in that: described side plate is the plane, is welded to described carrier bar (40).

10. flase floor system comprises:

Flase floor as claimed in claim 1 (100);

Wherein, described grid is by fastener (206,208) location on the ground or arbitrarily on the supporting structure;

Wherein, described flase floor (100) is connected to adjacent another flase floor (100) by expansion abutment means (109);

Described expansion abutment means (109) comprising: threaded rod (32), and flexible core (31); Wherein, in use, described expansion abutment means (109) is configured between the adjacent carrier bar (40) of flase floor (100), thereby flexible core (31) is set in the gap between the adjacent carrier bar (40) of flase floor (100), and threaded rod (32) is located at each side of described flexible core (31), and threaded rod (32) is inserted in the hole of adjacent carrier bar (40) of described flase floor (100).

11. flase floor according to claim 10 system, it is characterized in that: described flase floor (100) is fixed to support beam (108) or any supporting structure on each side of described flase floor (100) by fastener (206).

12. flase floor according to claim 10 system, it is characterized in that: described fastener (206) comprises two main members, is respectively base part (3) and bracket portion (5).

13. flase floor according to claim 10 system, it is characterized in that: the base part (3) of described fastener (206) comprises two parts, is respectively first (7) and second portion (4); First (7) is made by cylindrical or tubular metal, forms the sloping section with body protruding upward, and described bossy body is class threaded rod structure preferably; Second portion (4) is quadrangle slabbed construction or the flattened round structure with preliminary dimension.

14. flase floor according to claim 10 system, it is characterized in that: in use, the base part (3) of described fastener (206) is set at the below of two adjacent carrier bars (40), and bracket portion (5) is set at the top of flase floor.

15. flase floor according to claim 14 system is characterized in that: described base part (3) and bracket portion (5) can form a clamp mechanism in case secured together.

16. flase floor according to claim 10 system, it is characterized in that: described flase floor (100) is fastened on the support beam (108) by substituting fastener (208), and described fastener (208) comprises bracket portion (5) and class threaded rod structure (35).

17. flase floor according to claim 10 system, it is characterized in that: described fastener (208) is by being fastened on the support beam (108) at least two carrier bars (40) that correspondingly bracket portion (5) are placed on described flase floor (100), and exerting pressure at the tapping on the bracket portion (5) by stud gun makes class threaded rod structure (35) be pressed into support beam (108) or form a fusion on the supportive device arbitrarily.

18. flase floor according to claim 10 system is characterized in that: have two required cover fastener, fastener (206) or fasteners (208) at least.

19. flase floor according to claim 10 system, it is characterized in that: in use, described expansion abutment means (109) is set at two adjacent carrier bars (40) below, in flexible core (31) thereby this gap between two adjacent carrier bars (40), and class threaded rod structure is set at each side of flexible core (31), and class threaded rod structure is inserted in the hole of described adjacent carrier bar (40).

20. one kind is utilized steel plate to make the method for flase floor as claimed in claim 1 for raw material, may further comprise the steps:

The preparation raw material;

Described steel plate is cut into predetermined size;

The described steel plate of bending consequently forms a hollow stem;

Embossing makes it have non-slip feature on described steel plate;

Described hollow stem is arranged to predetermined arrangement;

Permanently fix by a plurality of described hollow stem being welded together come, thereby form flase floor;

Be coated with described flase floor with galvanizing by dipping and/or paint.

21. method according to claim 20 is characterized in that: described step of cutting utilizes lathe cutter to carry out.

22. method according to claim 20 is characterized in that: the step of described embossing is undertaken by punching on described steel plate.

23. the raw material of the curling form of utilization are made the method for flase floor as claimed in claim 1, may further comprise the steps:

The raw material that preparation has curling form;

Described raw material are sent in the roller head machine;

Wherein, the execution following steps in the described roller head machine:

A) described raw material roll extrusion is become preferred profile to form preferable shape;

B) the described raw material of punching press are to produce non-slip feature;

C) the described raw material of cutting are preferred length;

Wherein, from step c), further comprising the steps of:

Welding is to form a flase floor (100); And

Be coated with described flase floor with galvanizing by dipping and/or paint.

24. flase floor according to claim 10 system, it is characterized in that: described flase floor (100) is used for walking devices.

25. flase floor according to claim 10 system, it is characterized in that: described flase floor (100) is used for the surface of motor racing.

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