CN105193153A - Support frame structure applicable to bed mattress or soft pad - Google Patents

Abstract

The invention discloses a support frame structure applicable to a bed mattress or a soft pad. The support frame structure consists of a spring combination formed by longitudinally and transversely aligned vertical primary spiral springs and a great number of secondary spiral springs, wherein all primary springs are mutually connected; every four primary springs define a gap; each gap is separated by the primary spiral springs; the gaps are filled with the great number of secondary spiral springs; the single gap is only filled with one secondary spiral spring; meanwhile, the height of the secondary spiral springs is smaller than that of the adjacent primary spiral springs. The invention aims at providing the support structure with the advantages that the structure is compact; the support effect is good; the support frame structure is applicable to the bed mattress or the soft pad.

Description

A kind of supporting structure being applicable to mattress or cushion

Technical field

The invention relates to the supporting structure being applicable to mattress and cushion.

Background technology

Mattress and the supporting construction generally all contained for the cushion of sofa, chair or other soft dress furniture uses, and this supporting structure is exactly spring structure, thus be the support that seat or the people lain on mattress or cushion provide buffer-type.

Monolithic spring structure is a helical spring array erect often, and the helical spring distributed in length and breadth is rectangle.Sole body spiral spring can be different concrete specification, but is generally all be made up of individual wire, and usual wire diameter is 1.4 to 2.2mm, forms modal tubbiness spring after helically twisted.Spring members makes different hardness by the arrangement changing the thickness of metal wire, size and spring, thus provides different supports.

Usually be all lined up rows and columns regularly by single spring to be formed at the rectangular spring parts be made up of spring.Wherein most typical a kind of spring structure single spring independently will be loaded in a kind of polypropylene fibre sleeve.Through supersonic welding termination process, be enclosed in the sleeve in continuous helical spring, and this results in a bag, and each helical spring is fixed in bag respectively.After each continuous print helical spring is inserted into sleeve, follows hard on the welding process carrying out being formed independent bag in sleeve respectively, then form a series of independent bag spring.Often go here and there after spring cuts off by Len req and combine line by line.Often row separate packed spring alignment after, between fix with glue, formed vertical setting of types alignment spring structure.

Summary of the invention

This invention provides a kind of supporting structure being applicable to mattress or cushion, and this supporting structure is made up of following:

A spring assembly be made up of the upright main helical spring alignd in length and breadth, be interconnected between each spring, every four springs surround a space, and each space is separated by main helical spring;

The secondary helical spring of One's name is legion is filled in above-mentioned space, and a secondary helical spring is only filled in single space, and meanwhile, secondary helical spring height is less than adjacent main helical spring.

Above-mentioned to be a kind ofly applicable in the supporting structure that mattress or cushion use, each above-mentioned secondary helical spring maximum gauge is 35% ~ 50% of the main helical spring maximum gauge that each above-mentioned difference is adjacent.

Above-mentioned be a kind ofly applicable in the supporting structure that mattress or cushion use, described main helical spring is that every a line is made up of a main helical spring line of independent bag and a fibrous material sleeve, get up at adjacent main helical spring two side seal, form multiple main helical spring sack, a main helical spring is filled with separately in these bags, wherein, the adjacent packed main helical spring of consecutive is bonded together with glue simultaneously.

Above-mentioned to be a kind ofly applicable in the supporting structure that mattress or cushion use, also comprise multiple region, in that region, described secondary helical spring distribution differs.

Be applicable to a manufacture method for the supporting structure that mattress or cushion use, comprise the following steps:

A () inserts a large amount of main helical springs in sleeve, be used in the opposite face of pad in conjunction with sleeve between above-mentioned adjacent main helical spring, thus forms an independent bag helical spring line;

B () is placed on the side of above-mentioned main helical spring line a large amount of secondary helical spring, lean on mutually with it, and this secondary helical spring is placed on the recess between above-mentioned adjacent main helical spring;

C () inserts another a large amount of main helical spring in another sleeve, with pad, the opposite face of sleeve is combined, thus form the helical spring line of another independent bag between above-mentioned adjacent main helical spring;

D above-mentioned another is gone here and there packed main spring and is bonded to the first above-mentioned packed main spring side of string by (), align in length and breadth between two adjacent main springs, make every four main springs surround a firmly and independently space, an above-mentioned secondary helical spring mentioned can be placed in each space;

E step (b) to (d) is repeated one or many by (), be formed in the row that a series of adjacent main wants helical spring neat and combine with the main helical spring of a large amount of settings in row.

Structure of the present invention is comparatively tight, and its support effect is good, can play certain buffering effect, is applicable to mattress or cushion used.

Accompanying drawing explanation

Now, only sub by way of example mode, is described first-selected allusion quotation example of the present invention, describes corresponding with appended drawing:

Fig. 1 is an opinion schematic diagram about supporting construction.

Fig. 2 is the schematic diagram about the another way of supporting construction shown in Fig. 1.

Fig. 3 is the graphics after the supporting construction shown in Fig. 1 carries out part assembling.

Fig. 4 is the graphics after the supporting construction of another kind of form carries out part assembling.

Fig. 5 is a main helical spring graphics.

Fig. 6 is a secondary helical spring graphics.

Detailed description of the invention

Shown in composition graphs 1 to Fig. 6, mattress or cushion supporting construction 100 used, supporting construction 100 comprises a large amount of main helical spring 110 erect and combines, these springs are distributed in a series of neat row 111 with row 112, in the particular combination described, have 3 row 111 and 4 row 112 in figure, but a conventional mattress will be dispersed with a large amount of row and row, with regard to the mattress of 1 meter of 5*2 rice specification, generally have the wide of about 25 row, the length of 33 row.

The specification of each independent principal screw spring 110 normally standard, have by one and hale the steel wire stretched and formed, steel wire diameter is 1.4 to 2.2 millimeters, bend to spiral-shaped, monnolithic case mostly is drum-shaped, the example of main helical spring 110 please refer to Fig. 5, each principal screw spring is placed on independently in main helical spring bag 113 usually, each principal screw spring bag 113 is formed separately, and in each main helical spring bag 113, have an independent main helical spring 110, or, more general way, the sleeve 114 made with a Polypropylene race, by above-described method with ultrasonic bonding 115 by sleeve 114 sealing two ends, form independently main helical spring cloth bag 113, in such an embodiment, in one structure, often horizontally-arranged 111 main helical springs 110 are made up of a succession of 116 packed main helical springs 110.

Horizontally-arranged 111 and the main helical spring 110 that all aligns of file 112 can form a space 117 often organizing between four adjacent main helical springs 110, the combination of four springs is often organized and is all formed by horizontally-arranged 111 and each two the main helical springs 110 of file 112, space is positioned at center, and secondary helical spring 120 is positioned in space 117 so at least partly just.

In the mode that Fig. 1 describes, a secondary helical spring 120 is placed in each space 117, but, it is contemplated that various different configuration, secondary helical spring 120 can only be placed in the space 117 of part, and the distribution of secondary helical spring 120 can at the different parts of mattress, such as, the part of support can be needed most at mattress, as human body lie down after buttocks and shoulder position, secondary helical spring 120 is placed in adjacent each space 117 of two horizontally-arranged 111, do not needing the too many region supported, a secondary helical spring 120 is placed every one or two in the space 117 that can be formed two horizontally-arranged 111, other need less region supported may not need completely to place secondary helical spring 120, therefore, the characteristic of support component 100 can change by changing the distribution of secondary helical spring 120 on whole support component 100, Fig. 2 describes with the different another kind arrangement of Fig. 1, in this arrangement, secondary helical spring 120 is placed every a space 117, misplace between the adjacent main helical spring 110 of two horizontally-arranged 111 and put.

The maximum gauge of each secondary helical spring 120 is generally less than the maximum gauge of adjacent main helical spring 110, each secondary helical spring specification is general consistent, because of but maximum gauge, typically, the maximum gauge of each secondary helical spring 120 is 35% ~ 50% of each principal screw spring 110 maximum gauge, in some is special, the maximum gauge of each helical spring 120 is 40% ~ 45% of each main helical spring 110 maximum gauge, in some design, the maximum gauge of each helical spring 120 is at 30 millimeters ~ 35 millimeters; And the maximum gauge of each principal screw spring 110 is 70 millimeters ~ 80 millimeters.

The height of each secondary helical spring 120 is less than the height of each adjacent main helical spring 110 usually, all big springs 110 in whole supporting construction 100 all fix a height usually, in whole supporting construction 100, secondary helical spring height is also fixing, and it is shorter, 70% to 80% of normally main helical spring 110 height of each secondary height of helical spring 120, in some particular design, the height of each secondary helical spring 120 is about 70% of main helical spring 110 height, in partial design, the height of each secondary helical spring 120 is 130 to 180 millimeters, and the height of each main helical spring 110 is 180 to 230 millimeters.

What Fig. 3 described is the supporting structure 100 that part is assembled, be easy to find out, the lower end of main helical spring 110 and secondary helical spring 120 substantially in the same horizontal line, the horizontal line at place, secondary like this helical spring 120 upper end is lower than the horizontal line at place, main helical spring 110 upper end, this makes secondary helical spring 120 can not have an effect when insufficient pressure, only be enough to just work when the height of main helical spring 110 is pressed down the difference in height exceeded between main helical spring 110 and secondary helical spring 120 at pressure, therefore only having when support component 100 local is subject to weight (is that the people that an individual weight is larger lies on bed, it is the pressure increase of local, such as people sits or stands on the supporting member), the extra support that secondary helical spring 120 provides just can effectively play a role, the support that this design can allow weight differences very large two people use identical support component 100 simultaneously and obtain needed for respective body weight, that is, the people that one individual weight is larger lie in the mattress employing support component 100 while the extra support from secondary helical spring 120 can be obtained, lie in the lighter people of mattress another side body weight and then only obtain support from main helical spring 110.

The same with principal screw spring, each time helical spring 120 is put in a secondary support pouches 123, and as shown in Figure 4, secondary helical spring sack 123 can be shaped separately, places a secondary helical spring 120 in each secondary helical spring sack 123.

Another kind of way is as shown in figs. 1 and 3, adopt the preparation method that main helical spring sack 123 is identical, the pipe 124 that a Polypropylene race is made, with ultrasonic bonding 125 by cloth pipe 124 sealing two ends, form independently secondary helical spring cloth bag 123, in this structure, every horizontally-arranged secondary helical spring 120 is made up of a succession of 126 packed secondary helical springs 120, closely connected different between main helical spring 110, secondary helical spring 120 has certain space each other, therefore it is contemplated that the weld seam 125 pipe 124 between adjacent two secondary helical springs 120 being formed two longitudinal directions, every bar weld seam 125 is separately near secondary helical spring 120, especially when placing a secondary helical spring 120 every one or two space 117, this situation especially.

Supporting structure 100 can utilize relative standard's equipment of existing production bagged-spring support component to produce, as shown in Figure 3.

The mode of production of the packed main helical spring 110 of consecutive is with usually the same, independent main helical spring 110 is put into the sleeve 114 that Polypropylene race is made, the both sides of spring near on a main helical spring 110 put into sentence ultrasonic bonding 115 cloth sleeve 114, then another main helical spring 110 is put into also again with ultrasonic bonding 115, form independent main helical spring cloth bag 113, the length of main for consecutive helical spring 110 according to support component 100 horizontally-arranged 111 is cut out, forms a section the packed main helical spring 110 of consecutive 116.

The packed secondary helical spring 120 of consecutive can utilize identical machine to adopt identical method to produce, but need be set to be applicable to more small-sized secondary helical spring 120 and corresponding less pipe 124, and, machine is all formed with the welding 125 of spacing distance at every turn after also should being set to put into secondary helical spring 120, can put into corresponding space 117 between horizontally-arranged 111 main helical springs 110 to make the secondary helical spring of continuous print 120.Same, by packed secondary helical spring 120 section of being cut into of long string, form a section the packed secondary helical spring 120 of consecutive 126.

The bagged-spring assembly equipment of standard can be used for the packed main helical spring 110 of segmentation 116 and the secondary helical spring 120 of segmentation 126 to assemble up, first packed for first paragraph 116 main helical spring 110 is put into bagged-spring assembly equipment, glue head is inswept whole string 116 spring laterally, one or more glue line 130(is sprayed as shown in Figure 3) in spring string 116 side, before putting the main helical spring 110 of another section 116, first put one section of 126 packed secondary helical spring 120, secondary helical spring 120 is placed on the recess between two main helical springs 110 of independence, secondary helical spring 120 can be fixed by glue line 130, glue head is crossed over again, one or more glue line 130 is sprayed in the side of secondary helical spring 120 section 126, then near spring string 116 before, 126 put the main helical spring 110 of another section, each main helical spring 110 aligns with the main helical spring of first paragraph 116, secondary like this helical spring 120 is just enclosed in the space 117 that four adjacent main helical springs 110 are formed, then this process is repeated.

As aforementioned, in partial design, consecutive 126 not made by secondary helical spring 120, but puts into independently sack 123 (or not packing without hesitation), as shown in Figures 2 and 4, design shown in Fig. 4, secondary helical spring 120 puts into separately adjacent main on the main helical spring 110 of consecutive 116 to want the recess between helical spring 110, glue line 130 is sprayed on the side of the main helical spring 110 of consecutive 116, both can fix independently secondary helical spring 120(and no matter whether have pack), also the glue line between the packed main helical spring 110 of first paragraph 116 and independent secondary helical spring 120 can be then relied on to fix the packed main helical spring 110 of next section 116, same, in some design, main helical spring 110 neither be linked to be string 116, but be placed on independently packed interior (or not packing without hesitation).

Claims (5)

1. be applicable to the supporting structure that mattress or cushion use, it is characterized in that, be made up of following:

A spring assembly be made up of the upright main helical spring alignd in length and breadth, be interconnected between each spring, every four springs surround a space, and each space is separated by main helical spring;

The secondary helical spring of One's name is legion is filled in above-mentioned space, and a secondary helical spring is only filled in single space, and meanwhile, secondary helical spring height is less than adjacent main helical spring.

2. a kind of supporting structure being applicable to mattress or cushion and using according to claim 1, it is characterized in that, each above-mentioned secondary helical spring maximum gauge is 35% ~ 50% of the main helical spring maximum gauge that each above-mentioned difference is adjacent.

3. a kind of supporting structure being applicable to mattress or cushion and using according to claim 1 and 2, it is characterized in that, described main helical spring is that every a line is made up of a main helical spring line of independent bag and a fibrous material sleeve, get up at adjacent main helical spring two side seal, form multiple main helical spring sack, in these bags, be filled with a main helical spring separately, wherein, the adjacent packed main helical spring of consecutive is bonded together with glue simultaneously.

4. a kind of according to claim 1 or 2 or 3 is applicable to the supporting structure that mattress or cushion use, and it is characterized in that, also comprise multiple region, in that region, described secondary helical spring distribution differs.

5. be applicable to a manufacture method for the supporting structure that mattress or cushion use, it is characterized in that, comprise the following steps:

A () inserts a large amount of main helical springs in sleeve, be used in the opposite face of pad in conjunction with sleeve between above-mentioned adjacent main helical spring, thus forms an independent bag helical spring line;

B () is placed on the side of above-mentioned main helical spring line a large amount of secondary helical spring, lean on mutually with it, and this secondary helical spring is placed on the recess between above-mentioned adjacent main helical spring;

C () inserts another a large amount of main helical spring in another sleeve, with pad, the opposite face of sleeve is combined, thus form the helical spring line of another independent bag between above-mentioned adjacent main helical spring;

D above-mentioned another is gone here and there packed main spring and is bonded to the first above-mentioned packed main spring side of string by (), align in length and breadth between two adjacent main springs, make every four main springs surround a firmly and independently space, an above-mentioned secondary helical spring mentioned can be placed in each space;

E step (b) to (d) is repeated one or many by (), be formed in the row that a series of adjacent main wants helical spring neat and combine with the main helical spring of a large amount of settings in row.