CN210971939U - Exempt from lacing wire module welding water tank - Google Patents

Abstract

The utility model discloses a exempt from lacing wire module welding water tank belongs to the water supply tank field. The utility model discloses a lacing wire module welding water tank, include the rectangle water tank main part that is assembled and welded by vertical integrated module board, bottom module board and top module board, the lateral wall of rectangle water tank main part is welded along the perps by a plurality of vertical integrated module boards, the perps inboard welding of two adjacent vertical integrated module boards on the same lateral wall of rectangle water tank main part has the perps strengthening rib, the perps strengthening rib has the vertical deep floor perpendicular to adjacent vertical integrated module board; the upper end and the lower end of the vertical seam reinforcing rib are respectively connected with the bottom module plate and the top module plate in a welding mode. The utility model discloses utilize vertical deep floor, not only strengthened the intensity of water tank direction of height, still have very good intensive effect to the water tank lateral wall perps, realized the no lacing wire design of water supply tank in the true sense, have advantages such as water tank intensity height, compressive capacity are strong, low in manufacturing cost and practicality are strong.

Description

Exempt from lacing wire module welding water tank

Technical Field

The utility model relates to a water supply tank, more specifically say, relate to a exempt from lacing wire module welding water tank.

Background

In water supply equipment, a water tank is one of necessary parts, wherein a welded stainless steel water tank is a water tank structure which is commonly used, modules which are formed by stamping metal plates and have concave-convex structures are assembled and welded into a thin-shell water tank body, the conventional metal plate stamping module generally has three specifications of 1 × 1m, 1 × 0.5.5 m and 0.5 × 0.5.5 m, the water tank splicing is realized between the modules through welding four edge parts during installation, in order to enhance the water tank body water pressure resistance, longitudinal and transverse tie bars are required to be arranged in the water tank during assembly, tie bars are adopted inside the water tank, the spacing between the tie bars is smaller, the manual cleaning maintenance difficulty is large, the manufacturing difficulty is large, and the manufacturing cost is higher.

In order to avoid the defects of the lacing bar type water tank, a corresponding ' lacing bar-free water tank ' exists at present, for example, the lacing bar-free water tank is named as a ' stainless steel die pressing plate water tank without transverse seams and welding, the lacing bar-free assembled water tank is named as a ' lacing bar-free assembled water tank ' in Chinese patent application No. 201610870172.3, the lacing bar-free assembled water tank is named as a ' stainless steel stamping arc rib type water tank ' in Chinese patent No. Z L201620583873.4, and the like.

Analyzing the technical scheme of the existing 'no-lacing wire type water tank', the existing 'no-lacing wire type water tank' mainly has the following defects:

1) the outer side folded edge is adopted for reinforcement, so that the reinforcement has a good strengthening effect on the deformation resistance in the vertical direction of the splicing seam, but the strengthening effect in the length direction of the splicing seam is not obvious, and when the water pressure is high, the pressure of the water tank can cause the template to deform outwards along the splicing seam, so that the water tank is damaged;

2) although the metal sheet punching press module of current water tank also has vertical integrative structural style (like Z L201620583873.4), the die mould of punching press module also has very big influence to module bulk strength, and present punching press module relates to multiple enhancement die moulds mostly, and die mould evagination cambered surface area is less, and the circular water tank compressive effect that reaches is less, can appear pressure concentration and lead to premature deformation damage in some positions of template.

The main reason that the existing 'ribless water tank' is not practically applied later is also caused by the technical defects of the existing 'ribless water tank'.

Disclosure of Invention

1. Technical problem to be solved by the utility model

The utility model aims to overcome the defects of the prior non-lacing wire type water tank, and provides a welding water tank without lacing wire modules, which adopts the technical proposal of the utility model, utilizes vertical integrated module plates to surround and form the side wall of a rectangular water tank main body, simultaneously welds a vertical seam reinforcing rib at the inner side of the vertical seam of two adjacent vertical integrated module plates on the same side wall, the vertical seam reinforcing rib is provided with a vertical reinforcing rib plate vertical to the adjacent vertical integrated module plates, so that the side wall of the water tank has no transverse seam, the vertical seam is reinforced by adopting the inner side vertical seam reinforcing rib, the spliced module plates of the side wall of the water tank are in a right-angle splicing structure at the inner side of the water tank by utilizing the vertical reinforcing rib plate vertical to the vertical integrated module plates, thereby not only enhancing the strength of the height direction of the water tank, but also having good reinforcing effect on the vertical seam of the side wall of the water tank, and overcoming the, the water supply tank has the advantages of high strength, strong pressure resistance, low manufacturing cost, strong practicability and the like.

2. Technical scheme

In order to achieve the above purpose, the utility model provides a technical scheme does:

the utility model discloses an exempt from lacing wire module welding water tank, include and assemble the rectangle water tank main part that the welding formed by vertical integration module board, bottom module board and top module board, the lateral wall of rectangle water tank main part form along the perps welding by a plurality of vertical integration module boards, rectangle water tank main part with the perps inboard welding of two adjacent vertical integration module boards on the lateral wall have the perps strengthening rib, the perps strengthening rib vertical strengthening rib that has the adjacent vertical integration module board of perpendicular to.

Furthermore, the upper end and the lower end of the vertical seam reinforcing rib are respectively connected with the bottom module plate and the top module plate in a welding mode.

Furthermore, the vertical reinforcing rib plates are also provided with a plurality of vertical ribs.

Furthermore, an inner side folded plate is arranged on one side of the vertical reinforcing rib plate close to the inner side of the water tank.

Furthermore, two symmetrical vertical joint reinforcing ribs are welded on the inner sides of the vertical joints of two adjacent vertical integrated module plates on the same side wall of the rectangular water tank main body, and the two symmetrical vertical joint reinforcing ribs are welded and connected.

Furthermore, the passivation layer is formed on the inner side welding seam of the rectangular water tank main body by adopting an acid washing process.

Furthermore, the height of the vertical integrated module plate is more than or equal to 1m, the middle part of the vertical integrated module plate is provided with a cylindrical surface convex part which extends along the height direction of the vertical integrated module plate and protrudes outwards, the upper end and the lower end of the vertical integrated module plate are provided with inclined surface end parts, and the inclined surface end parts and the cylindrical surface convex part are intersected to form an arc-shaped indentation.

Furthermore, the periphery of the vertical integrated module plate is also provided with a frame part, a plurality of side pressing ribs are arranged on the frame part along the periphery of the frame, and the frame part is bent inwards to form an inward flange.

Furthermore, the integrated solar module also comprises a horizontal module plate, wherein the width of the horizontal module plate is the same as that of the vertical integrated module plate, and the height of the horizontal module plate is half of that of the vertical integrated module plate; the bottom module plate and the top module plate adopt vertical integrated module plates or horizontal module plates; the middle part of the horizontal module plate is provided with a horizontal plate cylindrical surface protruding part protruding outwards, the two ends of the horizontal plate cylindrical surface protruding part are provided with horizontal plate inclined surface end parts, the horizontal plate inclined surface end parts are intersected with the horizontal plate cylindrical surface protruding part to form a horizontal plate arc-shaped indentation, the periphery of the horizontal module plate is also provided with a horizontal plate frame part, a plurality of horizontal plate side pressing ribs are arranged on the horizontal plate frame part along the periphery of the frame, and the horizontal plate frame part is bent inwards to form a horizontal plate inward flanging.

Furthermore, two symmetrically arranged vertical joint reinforcing ribs are welded on the inner sides of vertical joints of two adjacent vertical integrated module plates on the same side wall of the rectangular water tank main body, the two symmetrical vertical joint reinforcing ribs are welded and connected, the upper end and the lower end of each vertical joint reinforcing rib are respectively welded and connected with the bottom module plate and the top module plate, a plurality of vertical ribs are further arranged on the vertical reinforcing rib plates, and an inner side folded plate is further arranged on one side, close to the inner side of the water tank, of each vertical reinforcing rib plate;

the height of the vertical integrated module plate is more than or equal to 2m, the middle part of the vertical integrated module plate is provided with a cylindrical surface protruding part which extends along the height direction of the vertical integrated module plate and protrudes outwards, the upper end and the lower end of the vertical integrated module plate are provided with inclined surface end parts, the inclined surface end parts and the cylindrical surface protruding part are intersected to form arc-shaped indentations, the periphery of the vertical integrated module plate is also provided with a frame part, a plurality of side pressing ribs are arranged on the periphery of the frame part along the periphery of the frame, and the frame part is bent inwards to form an inward flanging.

3. Advantageous effects

Adopt the technical scheme provided by the utility model, compare with existing well-known technique, have following apparent effect:

(1) the utility model discloses a bracing wire-free module welding water tank, which comprises a rectangular water tank main body formed by assembling and welding a plurality of vertical integrated module plates, a bottom module plate and a top module plate, wherein the side wall of the rectangular water tank main body is formed by welding a plurality of vertical integrated module plates along a vertical seam, a vertical seam reinforcing rib is welded at the inner side of the vertical seam of two adjacent vertical integrated module plates on the same side wall of the rectangular water tank main body, the vertical seam reinforcing rib is provided with a vertical reinforcing rib plate vertical to the adjacent vertical integrated module plates, so that the side wall of the water tank has no transverse seam, the vertical seam is reinforced by adopting the inner side vertical seam reinforcing rib, the spliced module plates of the side wall of the water tank are all in a right-angle splicing structure at the inner side of the water tank by utilizing the vertical reinforcing rib plate vertical to the vertical integrated module plates, thereby not only enhancing the, the defect that the side wall of the water tank is deformed by hydraulic pressure in the conventional non-lacing wire type water tank is overcome, the non-lacing wire design of the water supply water tank is truly realized, and the non-lacing wire type water tank has the advantages of high strength, strong pressure resistance, low manufacturing cost, strong practicability and the like;

(2) the utility model discloses a exempt from lacing wire module welding water tank, the upper and lower both ends of its perps strengthening rib respectively with bottom module board and top module board welded connection, utilize perps strengthening rib of vertical design, make the wholeness of water tank stronger, the horizontal and vertical water pressure resisting ability of full play water tank lateral wall has completely replaced the horizontal and vertical lacing wire structure of traditional water tank;

(3) the utility model discloses a exempt from lacing wire module welding water tank, still be equipped with a plurality of vertical ribs on its vertical deep floor, improved the structural strength of vertical deep floor, make the thickness of vertical strengthening rib plate can be thinner;

(4) the utility model discloses a exempt from lacing wire module welding water tank, its vertical deep floor still is equipped with inboard folded plate by the inboard one side of water tank, utilizes inboard folded plate further to improve the intensity of vertical deep floor to increased the welding size between vertical deep floor and bottom module board, top module board, improved the overall rigidity strengthening effect of perps strengthening rib to the water tank;

(5) the utility model discloses a exempt from lacing wire module welding water tank, the inboard welding of the perps of two adjacent vertical integrated module boards on same lateral wall of its rectangle water tank main part has two symmetrical perps strengthening ribs that set up, welded connection between two symmetrical perps strengthening ribs, utilize two symmetrical perps strengthening ribs that set up to further improve the intensity of vertical integrated module board concatenation perps position, and single perps strengthening rib can be done thinner, utilize the shaping more;

(6) the utility model discloses a exempt from lacing wire module welding water tank, the inboard welding seam of its rectangle water tank main part all adopts the pickling process to form the passivation layer, has effectively prevented the corruption of welding position, has improved the whole life of welding water tank;

(7) the utility model discloses a lacing wire module welding water tank, the height of its vertical integration module board is more than or equal to 1m, the middle part of vertical integration module board is equipped with the cylinder face bellying that extends along the direction of height of vertical integration module board, outward bulge, both ends have the inclined plane tip in the upper and lower of vertical integration module board, the inclined plane tip intersects with cylinder face bellying and forms the arc indentation, adopt above-mentioned vertical integration module board structure, the middle part cylinder face bellying area is bigger, the circular water tank compressive effect has been fully played, make the water pressure in the water tank effectively decompose on the lateral wall, make the water tank lateral wall receive the water pressure of vertical direction littleer, combine the vertical seam strengthening rib that sets up perpendicularly, greatly improved the water tank lateral wall's water pressure resistance, and under the same compressive strength, the thickness of vertical integration module board can be made thinner, the manufacturing cost of the water tank is reduced;

(8) the utility model discloses an exempt from lacing wire module welding water tank, its vertical integration module board still have frame portion all around, the last border of frame portion is equipped with a plurality of side pressure bars all around, frame portion has the inside flange to the shaping of buckling of inboard, utilize the side pressure bar to further strengthen vertical integration module board intensity of plane part all around, push down around the module board when being favorable to shaping middle part face of cylinder bulge simultaneously, prevent that the panel punching press from resulting in the inside shrink fold deformation of material, the stamping forming of the vertical integration module board of being convenient for.

Drawings

Fig. 1 is a schematic structural view of a tie-bar-free module welding water tank of the present invention;

fig. 2 is a schematic view of the internal structure of a tie-bar-free module welding water tank of the present invention;

FIG. 3 is a schematic view of a portion of the enlarged structure at K in FIG. 2;

fig. 4 is a schematic structural view of a vertical integrated module plate in the present invention;

fig. 5 is a schematic structural diagram of a horizontal modular plate according to the present invention.

The reference numerals in the schematic drawings illustrate:

1. a vertical integrated module plate; 1-1, cylindrical surface convex part; 1-2, the end part of the inclined plane; 1-3, inward flanging; 1-4, laterally pressing ribs; 1-5, a frame part; 1-6, arc-shaped indentation; 2. a bottom modular plate; 3. a top module plate; 4. vertical seam reinforcing ribs; 4-1, vertical reinforcing rib plates; 4-2, vertical ribs; 4-3, folding the inner side plate; 5. a horizontal module plate; 5-1, a cylindrical surface convex part of the horizontal plate; 5-2, the end part of the inclined plane of the horizontal plate; 5-3, flanging the horizontal plate; 5-4, pressing ribs on the horizontal plate side; 5-5 parts of a horizontal plate frame part; 5-6, arc-shaped indentation of the horizontal plate.

Detailed Description

For a further understanding of the present invention, reference will be made to the following detailed description taken in conjunction with the accompanying drawings.

As shown in fig. 1 and 2, the tie-bar-free module welded water tank of the present invention is an assembled welded water supply tank, which is assembled by a stamping template and welded in sequence, different from the traditional water tank stamping template, the side wall of the rectangular water tank main body of the present invention is assembled and welded by a vertical integrated module plate 1, i.e. as shown in fig. 1, the height of the water tank is determined by the height of the vertical integrated module plate 1, and there is no transverse splicing seam in the height direction, so that the rigidity of the water tank in the height direction is stronger; and, the inner side of the vertical joint of two adjacent vertical integrated module plates 1 on the same side wall of the rectangular water tank main body is welded with a vertical joint reinforcing rib 4, the vertical joint reinforcing rib 4 is arranged along the vertical joint direction and is perpendicular to the vertical reinforcing rib plate 4-1 of the adjacent vertical integrated module plate 1, the vertical reinforcing rib plate 4-1 has a certain width towards the inner side, the general width can be set about 10mm, because the vertical reinforcing rib plate 4-1 is perpendicular to the corresponding vertical integrated module plate 1 and is positioned at the inner side of the water tank, the spliced module plates of the side wall of the water tank are all in a right-angle splicing structure at the inner side of the water tank, when the water tank bears the water pressure, the strength of the height direction of the water tank is enhanced, and the vertical joint of the side wall of the water tank has a very good reinforcing effect, so that the rigidity of the two adjacent vertical, full play the horizontal and vertical anti water pressure ability of water tank lateral wall, replaced the horizontal lacing wire structure of indulging of traditional water tank completely to overcome current no lacing wire formula water tank and had the defect that the water tank lateral wall receives the hydraulic deformation, realized the no lacing wire design of water supply tank in the true sense, have advantages such as water tank intensity height, compressive capacity are strong, low in manufacturing cost and practicality are strong.

In addition, the profiling design of the vertical integrated module plate 1 also has important influence on the overall water pressure resistance of the water tank without the lacing wires. In the utility model, the height of the vertical integrated module plate 1 is determined according to the design height of the water tank, generally designed to be 1m, 1.5m, 2m, 2.5m and 3m, the middle part of the vertical integrated module plate 1 is provided with a cylindrical surface convex part 1-1 which extends along the height direction of the vertical integrated module plate 1 and protrudes outwards, the upper end and the lower end of the vertical integrated module plate 1 are provided with inclined plane end parts 1-2, the inclined plane end parts 1-2 are intersected with the cylindrical surface convex part 1-1 to form an arc indentation 1-6, the upper end and the lower end of the cylindrical surface convex part 1-1 adopt the inclined plane end parts 1-2 for transition, the whole large-area cylindrical surface convex structure design of the vertical integrated module plate 1 is utilized, the circular water tank compression resistance effect is fully exerted, the water pressure in the water tank is effectively decomposed on the side wall, the water tank side wall is subjected to the water pressure in the, combine the perps strengthening rib 4 of perpendicular setting, improved the water resistance to compression ability of water tank lateral wall greatly, and under equal compressive strength, the thickness of vertical integrated module board 1 can be done thinly, has reduced the manufacturing cost of water tank. And moreover, the periphery of the vertical integrated module plate 1 is also provided with frame parts 1-5, a plurality of side press ribs 1-4 are arranged on the frame parts 1-5 along the periphery of the frame, the frame parts 1-5 are bent inwards to form inner turned edges 1-3, the inner turned edges 1-3 are used for being spliced and welded with other connected module plates 1, the side press ribs 1-4 are uniformly distributed in a dotted manner along the periphery of the frame, the strength of the peripheral plane part of the vertical integrated module plate 1 is enhanced, meanwhile, the periphery of the module plate is pressed when the cylindrical surface convex part in the middle part is formed, the inward shrinkage, wrinkle and deformation of materials caused by plate stamping are prevented, and the stamping forming of the vertical integrated module plate 1 is facilitated.

The present invention will be further described with reference to the following examples.

[ example 1]

As shown in fig. 1 and 2, the lacing wire module welding-free water tank of this embodiment includes the rectangular water tank main body formed by assembling and welding vertical integrated module plates 1, bottom module plates 2 and top module plates 3, the side wall of the rectangular water tank main body is formed by welding a plurality of vertical integrated module plates 1 along the vertical seams, the height of the vertical integrated module plates 1 is the height of the rectangular water tank main body, only vertical splicing welding seams exist on the side wall of the rectangular water tank main body, and no transverse splicing seams exist. The bottom module plate 2 and the top module plate 3 may be pressed differently by the existing water tank. The inner sides of the vertical seams of two adjacent vertical integrated module plates 1 on the same side wall of the rectangular water tank body are welded with vertical seam reinforcing ribs 4, namely the vertical seams between the two vertical integrated module plates 1 between the adjacent side walls of the rectangular water tank body can be optionally reinforced without reinforcement, the vertical seam reinforcing ribs 4 are provided with vertical reinforcing rib plates 4-1 which are perpendicular to the adjacent vertical integrated module plates 1, namely, the vertical reinforcing rib plates 4-1 are arranged along the vertical seam direction and are welded with the vertical splicing seams of the adjacent vertical integrated module plates 1, and the vertical reinforcing rib plates 4-1 are perpendicular to the inner side wall of the water tank where the vertical reinforcing rib plates are arranged, so that the vertical integrated module plates 1 on the side wall of the rectangular water tank body are all in a right-angle splicing structure, thereby not only enhancing the strength of the water tank in the height direction, but also having very good reinforcing effect on, the water tank overcomes the defect that the side wall of the water tank is deformed by water pressure in the conventional non-lacing wire type water tank, really realizes the non-lacing wire design of the water supply water tank, and has the advantages of high strength, strong pressure resistance, low manufacturing cost, strong practicability and the like.

In this embodiment, preferably with the vertical joint strengthening rib 4 the upper and lower both ends respectively with bottom module board 2 and top module board 3 welded connection, the upper end of vertical joint strengthening rib 4 and the 3 welded fastening of top module board that correspond promptly, the lower extreme of vertical joint strengthening rib 4 and the 2 welded fastening of bottom module board that correspond utilize perpendicular design's vertical joint strengthening rib 4 for the wholeness of water tank is stronger, the horizontal and vertical water pressure resistance ability of full play water tank lateral wall, the violently indulge lacing wire structure of traditional water tank has been replaced completely.

In order to prolong the service life of the welded water tank, in the embodiment, the passivation layer is formed on the inner side welding line of the rectangular water tank main body by adopting an acid washing process, the corrosion of the welding position is effectively prevented by utilizing the acid washing passivation process, and the whole service life of the welded water tank is prolonged. Other structural designs such as manholes, water inlet and outlet holes on the welded water tank are the same as those of the existing assembled water tank, and are not described again here.

[ example 2]

The tie bar-free module welding water tank of this embodiment, its basic structure is the same as embodiment 1, the difference lies in: on the basis of the embodiment 1, the vertical reinforcing rib plate 4-1 is further provided with a plurality of vertical ribs 4-2 (shown in figure 3), the vertical ribs 4-2 can be formed on the vertical reinforcing rib plate 4-1 along the length direction of the vertical reinforcing rib plate 4-1 by adopting a stamping process to form a concave-convex reinforcing rib structure, the number of the vertical ribs 4-2 can be determined according to the width of the vertical reinforcing rib plate 4-1, the structural strength of the vertical reinforcing rib plate 4-1 is improved, and the thickness of the vertical reinforcing rib plate can be thinner. A long edge of the vertical reinforcing rib plate 4-1 is attached to a vertical seam of the vertical integrated module plate 1 and is fixed together through a welding process, when water pressure is borne, the vertical reinforcing rib plate 4-1 is perpendicular to the vertical integrated module plate 1, the deformation in the length direction of the vertical splicing seam of the vertical integrated module plate 1 can be effectively resisted, the two ends of the vertical reinforcing rib plate 4-1 are fixedly welded with the upper module plate and the lower module plate, the effect of a tie bar is achieved, the water pressure bearing capacity of the vertical integrated module plate 1 in the vertical direction is greatly enhanced, the tie bar-free design is achieved, the water tank cleaning and maintenance are facilitated, and the manufacturing cost of the water tank is reduced.

[ example 3]

The tie bar-free module welding water tank of this embodiment, its basic structure is the same as embodiment 1, the difference lies in: on the basis of the embodiment 1, an inner side folded plate 4-3 (shown in fig. 3) is further arranged on one side, close to the inner side of the water tank, of the vertical reinforcing rib plate 4-1, the inner side folded plate 4-3 is integrally formed by bending one side of the vertical reinforcing rib plate 4-1, and the inner side folded plate 4-3 and the vertical reinforcing rib plate 4-1 are at a certain angle, preferably a right angle, so that the inner side folded plate 4-3 can play a role in reinforcing the strength of the vertical reinforcing rib plate 4-1 on one hand, and on the other hand, the welding length between the upper end and the lower end of the vertical reinforcing rib plate 4-1 and the bottom module plate 2 and the top module plate 3 can be increased, and the integral rigidity reinforcing.

[ example 4]

The tie bar-free module welding water tank of this embodiment, its basic structure is the same as embodiment 1, the difference lies in: as shown in fig. 3, in this embodiment, the vertical rib plate 4-1 is provided with the vertical ribs 4-2 and the inner side folded plates 4-3 at the same time, and the vertical ribs 4-2 and the inner side folded plates 4-3 are designed to greatly improve the bending strength of the vertical rib plate 4-1, so that the thickness of the vertical rib plate 4-1 can be made thinner.

[ example 5]

The tie bar-free module welding water tank of this embodiment, its basic structure is the same as embodiment 1, the difference lies in: as shown in fig. 3, in this embodiment, the rectangular water tank body has two symmetrical vertical seam reinforcing ribs 4 welded to the inner sides of the vertical seams of two adjacent vertical integrated module plates 1 on the same side wall, the two symmetrical vertical seam reinforcing ribs 4 are welded to each other, the two symmetrical vertical seam reinforcing ribs 4 are utilized to further improve the strength of the vertical integrated module plates 1 at the vertical seam splicing position, and a single vertical seam reinforcing rib 4 can be made thinner and more utilized for forming. Furthermore, the vertical reinforcing rib plate 4-1 is simultaneously provided with the vertical ribs 4-2 and the inner side folded plates 4-3, and the bending strength of the vertical reinforcing rib plate 4-1 is greatly improved through the design of the vertical ribs 4-2 and the inner side folded plates 4-3, so that the thickness of the vertical reinforcing rib plate 4-1 can be thinner.

[ example 6]

The tie-bar-free module welded water tank of the embodiment has the same basic structure as that of the embodiment 1 to the embodiment 5, and is different from that of the tie-bar-free module welded water tank in that: as shown in fig. 4, in the present embodiment, the height of the vertically integrated module board 1 is greater than or equal to 1m, preferably 1m, 1.5m, 2m, 2.5m or 3m, specifically according to the design requirement of the height of the water tank. The vertical integrated module plate 1 is designed by metal stamping, preferably, the vertical integrated module plate is made of a non-manuscript-repairing material, a cylindrical surface convex part 1-1 which extends along the height direction of the vertical integrated module plate 1 and protrudes outwards is arranged in the middle of the vertical integrated module plate 1, inclined surface end parts 1-2 are arranged at the upper end and the lower end of the vertical integrated module plate 1, the inclined surface end parts 1-2 and the cylindrical surface convex part 1-1 are intersected to form an arc-shaped indentation 1-6, and according to specific requirements, the inclined surface end parts 1-2 can also adopt two or more gradually-changed inclined angle inclined surfaces, namely, an inclined surface with smaller inclination is designed at a position close to the arc-shaped indentation 1-6, so that stress concentration caused by the fact that the angle of the arc-shaped indentation 1. Adopt vertical integration module board 1 in this embodiment, the protruding area of middle part face of cylinder is bigger, full play circular water tank compressive effect, make the water pressure in the water tank effectively decomposed on the lateral wall, make the water tank lateral wall receive the water pressure of vertical direction littleer, combine the perps strengthening rib 4 of perpendicular setting, improved the water pressure resistance ability of water tank lateral wall greatly, and under equal compressive strength, the thickness of vertical integration module board 1 can be done thinly, the manufacturing cost of water tank has been reduced.

In addition, referring to fig. 4, in this embodiment, the periphery of the vertically integrated module board 1 further has a frame portion 1-5, i.e. a planar frame with a certain width is left on the outer side of the cylindrical surface protrusion 1-1, a plurality of side beads 1-4 are arranged on the frame portion 1-5 along the periphery of the frame, the frame portion 1-5 is bent inwards to form an inward flange 1-3, the inward flange 1-3 is used for welding and fixing with other adjacent module boards, the side beads 1-4 are uniformly distributed in a dot shape along the frame portion 1-5, the strength of the planar portion around the vertically integrated module board 1 is further strengthened by the side beads 1-4, and the side beads 1-4 and the inward flange 1-3 on the frame portion 1-5 can be pre-formed when the cylindrical surface protrusion 1-1 is formed, and then, a stamping die is used for pressing the frame part 1-5, the side pressing ribs 1-4 are used for positioning and pressing, and then the cylindrical surface bulge part 1-1 and the inclined plane end parts 1-2 at two ends are formed by stamping and stretching, so that the inward shrinkage, wrinkle and deformation of the material caused by the stamping of the plate are prevented, and the vertical integrated module plate 1 is convenient to punch and form.

[ example 7]

The tie-bar-free module welding water tank of the embodiment has the same basic structure as that of the embodiment 6, and is different from that of the tie-bar-free module welding water tank in that: in the present embodiment, a horizontal module plate 5 (as shown in fig. 5) is further included, the width of the horizontal module plate 5 is the same as the width of the vertical integrated module plate 1, and the height of the horizontal module plate 5 is half of the height of the vertical integrated module plate 1; bottom module board 2 and top module board 3 adopt vertical integrated module board 1 or horizontal module board 5 optionally, or adopt vertical integrated module board 1 and horizontal module board 5 to assemble diapire and the roof of constituteing the welding water tank, assemble more nimble convenience. The middle part of the horizontal module plate 5 is provided with a horizontal plate cylindrical surface bulge part 5-1 which protrudes outwards, two ends of the horizontal plate cylindrical surface bulge part 5-1 are provided with horizontal plate inclined surface end parts 5-2, the horizontal plate inclined surface end parts 5-2 are intersected with the horizontal plate cylindrical surface bulge part 5-1 to form a horizontal plate arc-shaped indentation 5-6, the periphery of the horizontal module plate 5 is also provided with a horizontal plate edge part 5-5, a plurality of horizontal plate side press ribs 5-4 are arranged on the horizontal plate edge part 5-5 along the periphery of the frame, and the horizontal plate edge part 5-5 is bent inwards to form a horizontal plate inward flange 5-3. The structural characteristics of the horizontal module plate 5 are the same as those of the vertical integrated module plate 1, and are not repeated here, but the difference lies in that the height of the horizontal module plate 5 is half of that of the vertical integrated module plate 1, the manufacturing mold is smaller, the manufacturing difficulty is relatively lower, and the stress of the bottom wall and the top wall is relatively smaller, so that the thickness of the plate of the horizontal module plate 5 can also be relatively thinner.

[ example 8]

The tie bar-free module welding water tank of this embodiment, its basic structure is the same as embodiment 1, the difference lies in: in this embodiment, two symmetrical vertical joint reinforcing ribs 4 are welded on the inner sides of vertical joints of two adjacent vertical integrated module plates 1 on the same side wall of the rectangular water tank main body, the two symmetrical vertical joint reinforcing ribs 4 are welded and connected, the upper end and the lower end of each vertical joint reinforcing rib 4 are respectively welded and connected with the bottom module plate 2 and the top module plate 3, a plurality of vertical ribs 4-2 are further arranged on each vertical reinforcing rib plate 4-1, and an inner side folded plate 4-3 is further arranged on one side, close to the inner side of the water tank, of each vertical reinforcing rib plate 4-1. The height of the vertical integrated module plate 1 is more than or equal to 2m, the middle part of the vertical integrated module plate 1 is provided with a cylindrical surface convex part 1-1 which extends along the height direction of the vertical integrated module plate 1 and protrudes outwards, the upper end and the lower end of the vertical integrated module plate 1 are provided with inclined surface end parts 1-2, the inclined surface end parts 1-2 are intersected with the cylindrical surface convex part 1-1 to form arc-shaped indentations 1-6, the periphery of the vertical integrated module plate 1 is also provided with a frame part 1-5, a plurality of side press ribs 1-4 are arranged on the frame part 1-5 along the periphery of the frame, and an inward flanging 1-3 is formed by bending the frame part 1-5 inwards.

The utility model discloses an exempt from lacing wire module welding water tank, utilize vertical integration module board to enclose the lateral wall that becomes rectangle water tank main part, the while is in the inboard welding of the perps of two adjacent vertical integration module boards on same one side wall has the perps strengthening rib, the perps strengthening rib has the vertical deep floor of the adjacent vertical integration module board of perpendicular to, make water tank lateral wall no transverse seam, the perps adopts inboard perps strengthening rib to strengthen, utilize the vertical deep floor of the vertical integration module board of perpendicular to make the concatenation module board of water tank lateral wall all be right angle mosaic structure in the water tank inboard, not only strengthened the intensity of water tank direction of height, still have very good intensification effect to water tank lateral wall perps, overcome current no lacing wire formula water tank and have the defect that the water tank lateral wall receives the hydraulic deformation, the no lacing wire design of water tank has been realized in the true meaning, it is high to have, Strong pressure resistance, low manufacturing cost, strong practicability and the like.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

The present invention and its embodiments have been described above schematically, and the description is not intended to be limiting, and what is shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. Therefore, if the person skilled in the art receives the teaching of the present invention, without creatively designing the similar structural modes and embodiments to the technical solutions, they should belong to the protection scope of the present invention.

Claims (10)

1. The utility model provides a exempt from lacing wire module welding water tank, includes and assembles the rectangle water tank main part that the welding formed by vertical integration module board (1), bottom module board (2) and top module board (3), the lateral wall of rectangle water tank main part form its characterized in that by the perps welding of a plurality of vertical integration module boards (1): the rectangular water tank is characterized in that a perps reinforcing rib (4) is welded on the inner side of a perps of two adjacent vertical integrated module plates (1) on the same side wall of the rectangular water tank main body, and the perps reinforcing rib (4) is provided with a vertical reinforcing rib plate (4-1) perpendicular to the adjacent vertical integrated module plates (1).

2. The tie-bar-free module welding water tank of claim 1, wherein: the upper end and the lower end of the vertical seam reinforcing rib (4) are respectively connected with the bottom module plate (2) and the top module plate (3) in a welding way.

3. The tie-bar-free module welding water tank of claim 1, wherein: the vertical reinforcing rib plate (4-1) is also provided with a plurality of vertical ribs (4-2).

4. The tie-bar-free module welding water tank of claim 1, wherein: and an inner side folded plate (4-3) is also arranged on one side of the vertical reinforcing rib plate (4-1) close to the inner side of the water tank.

5. The tie-bar-free module welding water tank of claim 1, wherein: the rectangular water tank is characterized in that two symmetrical vertical joint reinforcing ribs (4) are welded on the inner sides of vertical joints of two adjacent vertical integrated module plates (1) on the same side wall of the rectangular water tank body, and the two symmetrical vertical joint reinforcing ribs (4) are connected in a welding mode.

6. The tie-bar-free module welding water tank of claim 1, wherein: the inner side welding seams of the rectangular water tank main body are formed into a passivation layer by adopting an acid pickling process.

7. A tie-free modular welded water tank as claimed in any one of claims 1 to 6, wherein: the height of the vertical integrated module plate (1) is more than or equal to 1m, the middle part of the vertical integrated module plate (1) is provided with a cylindrical surface convex part (1-1) which extends along the height direction of the vertical integrated module plate (1) and protrudes outwards, the upper end and the lower end of the vertical integrated module plate (1) are provided with inclined surface end parts (1-2), and the inclined surface end parts (1-2) and the cylindrical surface convex part (1-1) are intersected to form arc-shaped indentations (1-6).

8. The tie-bar-free module welded water tank of claim 7, wherein: the integrated module plate is characterized in that frame portions (1-5) are further arranged on the periphery of the vertical integrated module plate (1), a plurality of side press ribs (1-4) are arranged on the frame portions (1-5) along the periphery of the frame, and inward flanges (1-3) are formed by bending the frame portions (1-5) inwards.

9. The tie-bar-free module welded water tank of claim 7, wherein: the width of the horizontal module plate (5) is the same as that of the vertical integrated module plate (1), and the height of the horizontal module plate (5) is half of that of the vertical integrated module plate (1); the bottom module plate (2) and the top module plate (3) adopt a vertical integrated module plate (1) or a horizontal module plate (5); the middle part of the horizontal module plate (5) is provided with a horizontal plate cylindrical surface protruding part (5-1) protruding outwards, two ends of the horizontal plate cylindrical surface protruding part (5-1) are provided with horizontal plate inclined surface end parts (5-2), the horizontal plate inclined surface end parts (5-2) and the horizontal plate cylindrical surface protruding part (5-1) are intersected to form a horizontal plate arc-shaped indentation (5-6), the periphery of the horizontal module plate (5) is also provided with a horizontal plate edge part (5-5), a plurality of horizontal plate side press ribs (5-4) are arranged on the horizontal plate edge part (5-5) along the periphery of the frame, and the horizontal plate edge part (5-5) is bent inwards to form a horizontal plate inward flanging (5-3).

10. The tie-bar-free module welding water tank of claim 1, wherein: two symmetrical vertical joint reinforcing ribs (4) are welded on the inner sides of vertical joints of two adjacent vertical integrated module plates (1) on the same side wall of the rectangular water tank main body, the two symmetrical vertical joint reinforcing ribs (4) are connected in a welding mode, the upper end and the lower end of each vertical joint reinforcing rib (4) are respectively connected with the bottom module plate (2) and the top module plate (3) in a welding mode, a plurality of vertical ribs (4-2) are further arranged on the vertical reinforcing rib plates (4-1), and inner side folded plates (4-3) are further arranged on one side, close to the inner side of the water tank, of each vertical reinforcing rib plate (4-1);

the height of the vertical integrated module plate (1) is more than or equal to 2m, the middle of the vertical integrated module plate (1) is provided with a cylindrical surface protruding part (1-1) which extends along the height direction of the vertical integrated module plate (1) and protrudes outwards, the upper end and the lower end of the vertical integrated module plate (1) are provided with inclined surface end parts (1-2), the inclined surface end parts (1-2) and the cylindrical surface protruding part (1-1) are intersected to form arc-shaped indentations (1-6), the periphery of the vertical integrated module plate (1) is also provided with a frame part (1-5), a plurality of side pressing ribs (1-4) are arranged on the frame part (1-5) along the periphery of the frame, and the frame part (1-5) is bent and formed to be provided with inward flanges (1-3).

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