Stainless steel welding type combined platform
Technical Field
The invention relates to the technical field of high-precision detection and overhaul platforms, in particular to a stainless steel welding type combined platform.
Background
At present, a high-precision detection and overhaul platform in the market is generally used for high-precision machining and detection and overhaul, and the production of the high-precision detection and overhaul platform is generally manufactured by pouring and cutting; the manufactured high-precision detection and overhaul platform has the advantages that the adopted casting production process is complex, the difficulty is high, the high-precision detection and overhaul platform is heavy, the production cost and the expense are high, and the existing high-price high-precision detection and overhaul platform cannot meet the requirements of the market on large workpieces, assembly parts or overhaul work platforms.
Disclosure of Invention
In order to overcome the defects in the prior art, the invention provides a stainless steel welding type combined platform.
In order to achieve the aim of the invention, the invention adopts the following technical scheme:
a stainless steel welded composite platform comprising: the device comprises a baffle, a bedplate, vertical beams, T-shaped grooves, connecting beams, a bottom plate, rib plates and foot holes, wherein the vertical beams are respectively arranged on two sides of the rectangular bottom plate, a row of connecting beams which are horizontally inserted and connected are arranged between the two vertical beams, a plurality of beams are uniformly distributed between the two vertical beams positioned on the row of connecting beams, T-shaped grooves which are fixedly welded are respectively arranged between the vertical beams and the beams, between the beams and the beams, and between the beams and the vertical beams, and the periphery which is enclosed between the bottom of each T-shaped groove and the connecting beams is provided with fixed rib plates; the horizontal plane of the two vertical beams and the cross beam between the two vertical beams is provided with a bedplate for leaking out of the T-shaped slotted hole, the outer sides of the two vertical beams are provided with baffle plates, and the baffle plates are fixedly welded with the vertical beams and the bedplate on the vertical beams.
A stainless steel welding type combined platform, two upright beam bottoms be provided with fixing bolt's rag hole, rag hole top is provided with the mounting hole.
A stainless steel welded type combined platform is characterized in that stainless steel sealing plates are arranged at two ends of a cavity formed by two vertical beams, a T-shaped groove, a connecting beam, a bottom plate and a rib plate, and expansion cement filled in the cavity in the stainless steel sealing plates is arranged to form a metal and nonmetal integrated platform with shock resistance stability.
A stainless steel welded type combined platform is characterized in that the bedplate is a rectangular flat plate, and two long sides of the rectangular flat plate are flush with T-shaped groove edges arranged at two ends of a stainless steel rectangular tube beam.
The utility model provides a stainless steel welded type combination platform, stainless steel rectangular tube vertical beam, including stainless steel rectangular tube, skeleton, expansion cement, be provided with the skeleton of close combination in the stainless steel rectangular tube, and two planes that are opposite in the stainless steel rectangular tube and two planes seamless connection of skeleton, the skeleton be the I-steel that topside equals with the base, stainless steel rectangular tube the cavity of interior I-steel is provided with the expansion cement of filler.
A stainless steel welded type combined platform is composed of two T-shaped steel, wherein filling plate holes are uniformly distributed in each T-shaped steel, and the plate holes are round holes, elliptical holes or rectangular holes.
A stainless steel welded composite platform comprising: the stainless steel rectangular tube vertical beams, T-shaped grooves, a bedplate and a rectangular bottom plate, wherein a plurality of stainless steel rectangular tube vertical beams are uniformly distributed on the rectangular bottom plate, connecting holes uniformly distributed on each stainless steel rectangular tube vertical beam are connected with a row of connecting beams which are horizontally inserted in an inserted mode, T-shaped grooves are formed in two sides of the upper end between each stainless steel rectangular tube vertical beam, and fixed rib plates are arranged around the periphery, which is formed by the bottoms of the T-shaped grooves and the connecting beams; a bedplate for leaking out the T-shaped slotted hole is arranged on the top horizontal plane of each stainless steel rectangular pipe vertical beam; reinforcing rib plates are arranged on two sides of the lower part between the stainless steel rectangular pipe vertical beams; the outer sides of the two vertical beams positioned on the two sides of the rectangular bottom plate are provided with baffle plates which are fixedly welded with the vertical beams and the upper bedplate.
A stainless steel welded type combined platform is characterized in that stainless steel sealing plates are arranged at two ends of a cavity formed by a rectangular bottom plate, a vertical beam, the bottom of a T-shaped groove, a connecting beam, a bottom plate and a rib plate, and expansion cement filled with filler is arranged in the cavity in the stainless steel sealing plates to form a metal and nonmetal integrated platform with shock resistance and stability.
By adopting the technical scheme, the invention has the following implementation advantages:
a stainless steel welded type combined platform adopts stainless steel rectangular pipes and steel plates to be welded into a platform for a machine tool. The cavity part adopts filling bodies of cement, stone and other ingredients, fills all the space in the cavity, and forms a metal and nonmetal aggregate, thereby having the characteristics of shock resistance and stability and replacing the traditional cast iron platform. The advantages are as follows:
1. no need of wood pattern, smelting, casting, sand cleaning, etc., and environmental pollution.
2. Compared with the traditional casting platform, the manufacturing finished product is 1/3 lower.
3. According to the requirements, the size specification can be diversified, and the pure plane, the T-shaped groove or the special structure can be realized.
4. The manufacturing period is short, and the industrialized manufacturing is easy.
5. The composite structure is adopted, and the indexes in all aspects are not lower than those of the cast iron structure.
6. After being processed by a machine tool, the appearance is neat and beautiful.
Drawings
FIG. 1 is a schematic cross-sectional structural view of a stainless steel welded composite platform;
FIG. 2 is a schematic view of a combined platform structure of a stainless steel welded vertical beam;
fig. 3 is a schematic structural view of a stainless steel rectangular tube vertical beam.
In the figure: 1. baffle, 2, platen, 3, upright beam, 3.1, stainless steel rectangular pipe, 3.2, I-steel, 3.3, T shaped steel, 3.4, plate hole, 3.5, expansion cement, 4, T-shaped groove, 5, connecting beam, 6, bottom plate, 7, gusset, 8, foot hole, 9, crossbeam, 10, mounting hole, 11, deep floor, 12, stainless steel shrouding.
Detailed Description
The invention will now be described in further detail by way of specific examples of embodiments in conjunction with the accompanying drawings.
Example 1
As shown in fig. 1, a stainless steel welded type composite platform, comprising: baffle 1, platen 2, vertical beams 3, T-shaped grooves 4, connecting beams 5, bottom plates 6, rib plates 7 and anchor holes 8, cross beams 9 are respectively arranged on two sides of a rectangular bottom plate 6, a row of connecting beams 5 which are horizontally inserted and connected are arranged between two vertical beams 3, a plurality of cross beams 9 are uniformly distributed between two vertical beams 3 positioned on a row of connecting beams 5, T-shaped grooves 4 which are fixedly welded are respectively arranged between each vertical beam 3 and each cross beam 9, between each cross beam 9 and each cross beam 9, and between each cross beam 9 and each vertical beam 3, and fixed rib plates 7 are arranged around the periphery which is enclosed between the bottom of each T-shaped groove 4 and each connecting beam 5; the horizontal plane of the two vertical beams 3 and the cross beam 9 between the two vertical beams is provided with a bedplate 2 leaking out of the T-shaped slotted hole, the outer sides of the two vertical beams 3 are provided with baffle plates 1, and the baffle plates 1 are fixedly welded with the vertical beams 3 and the bedplate 2 on the vertical beams.
The bottoms of the two vertical beams 3 are provided with anchor holes 8 of fixing bolts, and mounting holes 10 are arranged above the anchor holes 8.
The two ends of the cavity formed by the two vertical beams 3, the T-shaped groove 4, the connecting beam 5, the bottom plate 6 and the rib plates 7 are provided with stainless steel sealing plates 12, and the cavity in the stainless steel sealing plates 12 is provided with expansion cement filled with filler, so that a metal and nonmetal integrated platform with anti-seismic stability is formed.
The bedplate 2 is a rectangular flat plate, and two long sides of the rectangular flat plate are flush with the sides of the T-shaped groove 4 arranged at two ends of the stainless steel rectangular tube beam.
The vertical beam 3 comprises a stainless steel rectangular tube 3.1, a framework and expansion cement 3.5, wherein the stainless steel rectangular tube is internally provided with the framework which is tightly combined, two planes opposite to each other in the stainless steel rectangular tube are in seamless connection with the two planes of the framework, the framework is I-steel 3.2 with the top edge equal to the bottom edge, and a cavity of the I-steel in the stainless steel rectangular tube 3.1 is provided with the expansion cement 3.5 of a filler. The I-steel 3.2 is composed of two T-shaped steel 3.3, and each T-shaped steel is uniformly provided with a plate hole 3.4 of a filler, wherein the plate hole is a round hole, an elliptical hole or a rectangular hole; as shown in fig. 3.
Manufacturing a stainless steel welding type combined platform:
1) Manufacturing a stainless steel rectangular tube beam, namely manufacturing two tangential oblique T-shaped steel into I-steel 3.2 by adopting a horizontally placed stainless steel rectangular tube section, and driving two ports of the stainless steel rectangular tube 3.1 oppositely, so that the top edge and the bottom edge of the inner cavity of the framework tightly attached to the thin-wall stainless steel rectangular tube 3.1 are stuck; filling all spaces in the cavity with filling bodies of expansion cement 3.5 and stones to form a metal and nonmetal integrated structure, and manufacturing a stainless steel rectangular tube beam with shock resistance and stability;
2) Manufacturing a stainless steel rectangular pipe vertical beam, namely adopting a vertically placed stainless steel rectangular pipe section, and driving I-steel 3.2 made of two tangential oblique T-shaped steel into two ports of a stainless steel rectangular pipe 3.1 oppositely, so that the top edge and the bottom edge of the inner cavity of the framework tightly attached to the thin-wall stainless steel rectangular pipe 3.1 are tightly stuck; filling all spaces in the cavity with filling bodies of expansion cement 3.5 and stones to form a metal and nonmetal integrated structure, and manufacturing the stainless steel rectangular tube vertical beam with shock resistance and stability;
3) Manufacturing a combined platform framework, respectively installing vertical beams 3 on two sides of a base of a rectangular bottom plate 6, and installing a row of connecting beams 5 which are horizontally inserted and connected between the middle parts of the two vertical beams 3;
a plurality of cross beams 9 are uniformly distributed between the two vertical beams 3 positioned on one row of connecting beams 5,
t-shaped grooves 4 which are fixedly welded are arranged between the vertical beams 3 and the cross beams 9, between the cross beams 9 and between the cross beams 9 and the vertical beams 3, and rib plates 7 which are fixedly supported are arranged around the periphery which is enclosed between the bottom of each T-shaped groove 4 and the connecting beam 5;
a bedplate 2 exposing the T-shaped slotted holes is arranged on the two vertical beams 3 and the top horizontal plane of a cross beam 9 between the vertical beams 3;
a baffle plate 1 is arranged on the outer sides of the two vertical beams 3, and the baffle plate 1 is fixedly welded with the vertical beams 3 and a bedplate 2 on the vertical beams; the two long sides of each bedplate 2 are flush with T-shaped groove sides welded on the two sides of the tops of the stainless steel rectangular pipe vertical beam 3 and the cross beam 9;
3) The cavity of the combined platform framework is filled with expansion cement, stainless steel sealing plates 12 are welded between the lower parts of two end faces of each T-shaped groove and the bottom plate 6 respectively, so that the stainless steel sealing plates 12, the stainless steel rectangular pipe vertical beams 3, the cross beams 9 and the reinforcing rib plates 7 enclose a cavity, filling filler expansion cement is filled in the enclosed cavity, and the metal and nonmetal integrated stainless steel welding type combined platform with anti-seismic stability is poured.
Example two
As shown in fig. 2, a stainless steel welded type composite platform, comprising: the stainless steel rectangular tube vertical beams 3, T-shaped grooves 4, a bedplate 2 and a rectangular bottom plate 6, wherein a plurality of stainless steel rectangular tube vertical beams 3 are uniformly distributed on the rectangular bottom plate 6, connecting holes uniformly distributed on each stainless steel rectangular tube vertical beam 3 are connected with a row of connecting beams 5 which are horizontally inserted in an inserted mode, T-shaped grooves 4 are formed in two sides of the upper end between each stainless steel rectangular tube vertical beam 3, and fixed rib plates 7 are arranged around the periphery enclosed between the bottom of each T-shaped groove 4 and the connecting beams 5; a bedplate 2 for leaking out of the T-shaped slotted hole is arranged on the top horizontal plane of each stainless steel rectangular pipe vertical beam 3; reinforcing rib plates 11 are arranged on two sides of the lower part between the stainless steel rectangular pipe vertical beams 3; the outer sides of the two vertical beams 3 positioned at the two sides of the rectangular bottom plate 6 are provided with baffle plates 1, and the baffle plates 1 are fixedly welded with the vertical beams 3 and the bedplate 2 on the vertical beams.
The rectangular bottom plate 6 and the cavity two ends formed by the vertical beams 3, the bottoms of the T-shaped grooves 4, the connecting beams 5, the bottom plate 6 and the rib plates 7 are provided with stainless steel sealing plates 12, and the cavity in the stainless steel sealing plates 12 is provided with expansion cement filled with filler, so that a metal and nonmetal integrated platform with anti-seismic stability is formed. As shown in fig. 3.
Manufacturing a stainless steel welding type combined platform:
1) Manufacturing a stainless steel rectangular pipe vertical beam, namely adopting a vertically placed stainless steel rectangular pipe section, and driving I-steel 3.2 made of two tangential oblique T-shaped steel into two ports of a stainless steel rectangular pipe 3.1 oppositely, so that the top edge and the bottom edge of the inner cavity of the framework tightly attached to the thin-wall stainless steel rectangular pipe 3.1 are tightly stuck; filling all spaces in the cavity with filling bodies of expansion cement 3.5 and stones to form a metal and nonmetal integrated structure, and manufacturing the stainless steel rectangular tube vertical beam with shock resistance and stability;
2) Manufacturing a combined platform framework, uniformly distributing and paving stainless steel rectangular pipe vertical beams 3 on a base of a rectangular bottom plate 6, welding T-shaped grooves at the upper end between each stainless steel rectangular pipe vertical beam, and installing support fixed rib plates 7 around the periphery enclosed between the bottom of each T-shaped groove 4 and a connecting beam 5; a bedplate 2 exposing the T-shaped slotted hole is arranged on the top horizontal plane of each stainless steel rectangular pipe vertical beam; the two long sides of each bedplate 2 are flush with the T-shaped groove sides welded on the two sides of the top of the stainless steel rectangular pipe vertical beam;
3) The cavity of the combined platform framework is filled with expansion cement, stainless steel sealing plates 12 are welded at the lower parts of two end surfaces of each T-shaped groove respectively, so that the stainless steel sealing plates 12, the stainless steel rectangular pipe vertical beams, the reinforcing rib plates 7 and the connecting beams 5 form a cavity, then the filling expansion cement is filled in the enclosed cavity, and the stainless steel welding type combined platform with the same metal and nonmetal and anti-seismic stability is poured.