CN210254895U - Stainless steel frame location frock - Google Patents

Abstract

The utility model relates to a stainless steel frame location frock, include the frame and install crossbeam and perpendicular roof beam in the frame, and install the positioning seat on the frame, crossbeam and perpendicular roof beam, the frame includes a pair of crossbearer and a pair of perpendicular frame, and the positioning seat on two crossbearers sets up mutually, the positioning seat on two perpendicular frames sets up mutually, it sets up between crossbeam and two crossbearers to erect the roof beam, it sets up to erect the positioning seat syntropy on the roof beam, and it is the same with the positioning seat direction on one of them perpendicular frame, the positioning seat of crossbeam is the same with the positioning seat direction on one of them crossbearer, the one end side of crossbeam is provided with the spoke roof beam with the crossbeam laminating, be provided with on the spoke roof beam with the crossbeam synt. The utility model discloses not only can guarantee the straightness that hangs down and the position degree of each part of stainless steel frame, prevent the condition that stress deformation appears when the welding moreover to stainless steel frame welded quality and efficiency have been improved.

Description

Stainless steel frame location frock

Technical Field

The utility model belongs to stainless steel frame welding position field, concretely relates to stainless steel frame location frock.

Background

Stainless steel has the characteristics of resisting corrosion of weak corrosive media such as air, steam and water and chemical corrosive media such as acid, alkali and salt, and is increasingly widely used in the life and production industries. Use in each field also very common if the stainless steel frame that adopts stainless steel square pipe to weld to form, traditional stainless steel frame is when welding, generally adopts artifical bare-handed to assemble each part, and is inefficient, and positioning accuracy is poor, and not only the straightness that hangs down and the position degree of each part can't obtain guaranteeing, appears stress deformation easily during the welding moreover, seriously influences stainless steel frame's welding quality.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a stainless steel frame location frock to solve the poor problem of stainless steel frame positioning accuracy.

The utility model discloses a stainless steel frame location frock is realized like this:

the utility model provides a stainless steel frame location frock, includes the frame and installs crossbeam and perpendicular roof beam in the frame, and install positioning seat on frame, crossbeam and the perpendicular roof beam, the frame includes a pair of crossbearer and a pair of perpendicular frame, and the positioning seat on two crossbearers sets up mutually, and the positioning seat on two perpendicular frames sets up mutually, it sets up between crossbeam and two crossbearers to erect the roof beam, erect positioning seat syntropy setting on the roof beam, and it is the same with the positioning seat direction on one of them perpendicular frame, the positioning seat of crossbeam is the same with the positioning seat direction on one of them crossbearer, the one end side of crossbeam be provided with the spoke roof beam of crossbeam laminating, be provided with on the spoke roof beam with syntropy positioning seat on the crossbeam.

Furthermore, the end parts of the two cross frames on the same side are provided with positioning plates.

Furthermore, the opening direction of the positioning seat on the vertical beam deviates from the side where the positioning plate is located;

the spoke beam is arranged at the end, close to the positioning plate, of the cross beam and is arranged on one side, away from the cross beam, of the cross frame, where the positioning seats are arranged in the same direction of the cross beam.

Furthermore, a supporting frame arranged on the inner wall of the frame is arranged below the cross beam and the vertical beam.

Furthermore, the support frame is of a diamond structure.

Furthermore, the frame comprises double-deck U type frame that and opening inwards, crossbeam and vertical beam all adopt U type frame to make.

Furthermore, the positioning seat includes the L locating piece and installs locating piece I and locating piece II on the L locating piece, locating piece I sets up on the diaphragm of L locating piece, locating piece II sets up on the locating piece I and can move towards or keep away from the riser direction of L locating piece removes.

Furthermore, corresponding threaded holes are formed in vertical plates of the positioning block II and the positioning block L, and adjusting bolts are installed in the threaded holes.

Furthermore, the L positioning block is made of carbon steel, and the positioning block I and the positioning block II are made of stainless steel.

Furthermore, a support frame is arranged below the frame, and a support rod is arranged between the adjacent support frames.

After the technical scheme is adopted, the utility model discloses the beneficial effect who has does: a

The utility model provides a location frock can realize the accurate location to stainless steel frame through setting up of its frame, crossbeam, perpendicular roof beam and positioning seat, has not only guaranteed the straightness that hangs down and the position degree of each part of stainless steel frame, prevents the condition that stress deformation appears when the welding moreover to stainless steel frame welded quality and efficiency have been improved.

Drawings

The present invention will be further explained with reference to the drawings and examples.

FIG. 1 is a structural diagram of a stainless steel frame positioning tool according to a preferred embodiment of the present invention;

FIG. 2 is a top view of the frame, cross beams and vertical beams of the stainless steel frame positioning tool according to the preferred embodiment of the present invention;

fig. 3 is a structural diagram of a positioning seat of the stainless steel frame positioning tool according to the preferred embodiment of the present invention;

FIG. 4 is a positioning diagram of the stainless steel frame positioning tool according to the preferred embodiment of the present invention;

FIG. 5 is a structural view of a stainless steel frame to which the present invention is applied;

in the figure: frame 11, crossbeam 12, upright roof beam 13, crossbearer 14, upright frame 15, spoke roof beam 16, positioning seat 17, locating plate 18, carriage 19, L locating piece 120, locating piece I121, locating piece II 122, screw hole 123, support frame 124, bracing piece 125, horizontal pole I21, horizontal pole II 22, horizontal pole III 23, montant I24, montant II 25, montant III 26, montant IV 27, horizontal pole IV 28.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings of the embodiments of the present invention are combined to clearly and completely describe the technical solutions of the embodiments of the present invention, and obviously, the described embodiments are some embodiments of the present invention, not all embodiments.

Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in FIG. 5, the stainless steel frame suitable for the positioning tool disclosed by the present invention comprises a cross bar I21, a cross bar II 22 and a cross bar III 23 which are arranged in parallel, a vertical rod I24, a vertical rod II 25, a vertical rod III 26 and a vertical rod IV 27 which are arranged in parallel, wherein the vertical rod I24 is vertically provided with the end parts of the cross rod I21 and the cross rod III 23 at the same side, the vertical rods II 25 comprise two vertical rods and are arranged between the cross rod I21 and the cross rod II 22, one of them montant II 25 sets up the opposite side tip at horizontal pole I21 and horizontal pole II 22, montant III 26 also includes two and sets up perpendicularly between horizontal pole II 22 and horizontal pole III 23, horizontal pole II 22 is provided with horizontal pole IV 28 towards the tip of vertical pole I24, the one end of horizontal pole IV 28 links to each other with vertical pole I24, the other end laminating is in the side of horizontal pole II 22 towards horizontal pole III 23, vertical pole IV 27 sets up between horizontal pole IV 28 and horizontal pole I21, and the tip of horizontal pole II 22 links to each other with vertical pole IV 27.

As shown in fig. 1-4, the utility model provides a pair of stainless steel frame location frock, including frame 11 and crossbeam 12 and the perpendicular roof beam 13 of installing in frame 11, and install the positioning seat 17 on frame 11, crossbeam 12 and perpendicular roof beam 13, frame 11 includes a pair of crossbearer 14 and a pair of perpendicular frame 15, and positioning seat 17 on two crossbearers 14 sets up mutually away, positioning seat 17 on two perpendicular frames 15 sets up mutually away, perpendicular roof beam 13 sets up between crossbeam 12 and two crossbearers 13, positioning seat 17 syntropy setting on the perpendicular roof beam 13, and it is the same with positioning seat 17 direction on one of them perpendicular frame 14, positioning seat 17 of crossbeam 12 is the same with positioning seat 17 direction on one of them crossbearer 14, the one end side of crossbeam 12 is provided with the spoke 16 of laminating with crossbeam 12, be provided with on the spoke 16 with crossbeam 12 syntropy positioning seat 17.

The arrangement of the positioning seats 17 on the frame 11 and the frame 11 is used for positioning the cross rod I21, the cross rod III 23, the vertical rod I24 and one of the vertical rods II 25, and the arrangement of the positioning seats 17 on the cross beam 12, the vertical beam 13, the spoke beam 16 and the three is used for positioning the cross rod II 22, the cross rod IV 28, the other vertical rod II 25, the vertical rod III 26 and the vertical rod IV 27.

Preferably, the number of the positioning seats 17 on each of the cross frames 14, the vertical frames 15, the cross beams 12 and the vertical beams 13 is at least two, and the positions and the number of the positioning seats can be adjusted according to the specific length of the positioning seats.

In this embodiment, two positioning seats 17 are disposed on each of the vertical beams 13 and the radial beams 16, three positioning seats 17 are disposed on the cross beam 12, five and six positioning seats 17 are disposed on the two cross frames 14, and four and two positioning seats 17 are disposed on the two vertical frames 15.

In order to position the ends of the cross rods I21 and III 23, the positioning plates 18 are arranged at the same side ends of the two cross frames 14.

The positioning plate 18 is welded to the outer wall of the frame 11, thereby fixing the ends of the cross bar i 21 and the cross bar iii 23.

The vertical beam 13 is used for positioning one of the vertical rods II 25, III 26 and IV 27, wherein the opening direction of the positioning seat 17 on the vertical beam 13 deviates from the side of the positioning plate 18;

specifically, the vertical beam 13 includes two pairs, each pair is provided between the cross beam 12 and the cross frame 14, one pair is used for positioning the vertical rod i 24 and the vertical rod iv 27, and the other pair is used for positioning the vertical rod iii 26.

Because the spoke beam 16 and the positioning seats 17 on the spoke beam 16 are used for positioning the cross bar IV 28, in order to be matched with the position of the cross bar IV 28, the spoke beam 16 is arranged at the end, close to the positioning plate 18, of the cross beam 12 and is arranged on one side, away from the cross frame 14, provided with the positioning seats 17 in the same direction as the cross beam 12.

In order to increase the supporting strength of the entire frame 11, a supporting frame 19 mounted on the inner wall of the frame 11 is provided below the cross beam 12 and the vertical beam 13.

In order to ensure the supporting strength of the supporting frame 19, the supporting frame 19 has a diamond structure.

Specifically, both ends of each side of the support frame 19 are respectively connected with the adjacent horizontal frame 14 and the vertical frame 15, so that a triangular structure is formed between the support frame and the horizontal frame 14 and the vertical frame 15, thereby increasing the support strength of the support frame 19 and the frame 11.

Because the layers of the support frame 18, the cross beam 12 and the vertical beam 13 form a double-layer structure, in order to conveniently install the support frame 19, the cross beam 12 and the vertical beam 13, the frame 11 consists of double-layer U-shaped frames with inward openings, and the cross beam 12 and the vertical beam 13 are both made of U-shaped frames.

The cross beams 12 and the vertical beams 13 are installed in the upper layer U-shaped steel of the frame 11, and the support frames 19 are installed in the lower layer U-shaped steel of the frame 11.

Referring to fig. 3, since the stainless steel frames are all formed by welding square pipes, in order to position the stainless steel frames conveniently, the positioning seat 17 includes an L positioning block 120, a positioning block i 121 and a positioning block ii 122 which are installed on the L positioning block 120, the positioning block i 121 is disposed on a transverse plate of the L positioning block 120, and the positioning block ii 122 is disposed on the positioning block i 121 and can move towards or away from a vertical plate direction of the L positioning block 120.

The position of the stainless steel frame part can be finely adjusted through the movement of the positioning block II 122, so that the positioning accuracy is ensured.

In order to fix the position of the positioning block II 122, corresponding threaded holes 123 are formed in the vertical plates of the positioning block II 122 and the positioning block L120, and adjusting bolts are installed in the threaded holes 123.

After the position of the positioning block II 122 is determined according to the specific position of the stainless steel frame part, the adjusting bolt penetrates through the threaded hole 123 on the vertical plate of the L positioning block 120 and extends into the threaded hole 123 on the positioning block II 122, so that the positions of the positioning block II and the positioning block II are fixed, and the L positioning block 120 is directly fixed on the cross beam 12, the vertical beam 13 and the frame 11.

The L positioning block 120 is made of carbon steel, and the positioning block I121 and the positioning block II 122 are made of stainless steel.

The L positioning block 120 is made of carbon steel, so that the manufacturing process is simple, the cost is low, the strength is high, the problem of deformation in the welding process of the stainless steel frame can be effectively solved, the positioning block I121 and the positioning block II 122 are made of stainless steel, the stainless steel frame can be prevented from being polluted due to contact with the L positioning block 120 made of carbon steel, and the quality of the stainless steel frame is guaranteed.

Specifically, the L positioning block 120 may be made of Q235 material.

In order to support the frame 11, support frames 124 are disposed below the frame 11, and support rods 125 are disposed between adjacent support frames 124.

Referring to fig. 4, before welding the stainless steel frame, firstly, the distance between the positioning block ii 122 and the vertical plate of the L positioning block 120 is adjusted according to the specific positions of each component of the stainless steel frame, then the cross bar i 21 and the cross bar iii 23 are placed on the positioning seat 17 on the cross frame 14, the ends of the cross bar i 21 and the cross bar iii 23 are abutted against the positioning plate 18, the vertical bar i 24 is placed between the ends of the cross bar i 21 and the cross bar iii 23, and positioning is performed by using the positioning seat 17 on the vertical frame 15 below the vertical bar i 21, the cross bar ii 22 is placed on the positioning seat 17 on the cross beam 12, the cross bar iii 23 is placed on the positioning seat 17 on the spoke beam 16, and one of the vertical bars ii 25 is placed on the positioning seat 17 on the other vertical frame 15 and is positioned between the cross bar i 21 and the cross bar ii 22, then the vertical bar i 24, the other vertical bar ii 25 and the vertical bar iii 26 are correspondingly placed on the positioning, and fixing each part of the stainless steel frame with the positioning tool by using the F clamp, ensuring the stability of the stainless steel frame, and finally welding the joints of the parts.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (10)

1. The utility model provides a stainless steel frame location frock which characterized in that: the device comprises a frame (11), a cross beam (12) and a vertical beam (13) which are arranged in the frame (11), and positioning seats (17) which are arranged on the frame (11), the cross beam (12) and the vertical beam (13), wherein the frame (11) comprises a pair of cross frames (14) and a pair of vertical frames (15), the positioning seats (17) on the two cross frames (14) are arranged in a back-to-back manner, the positioning seats (17) on the two vertical frames (15) are arranged in a back-to-back manner, the vertical beam (13) is respectively arranged between the cross beam (12) and the two cross frames (14), the positioning seats (17) on the vertical beam (13) are arranged in the same direction and are the same as the direction of the positioning seat (17) on one of the vertical frames (15), the positioning seat (17) on the cross beam (12) is the same as the positioning seat (17) on one of the cross frames (14), and a spoke beam (16) which is attached to the cross beam (12) is, and positioning seats (17) which are in the same direction as the beam (12) are arranged on the spoke beam (16).

2. The stainless steel frame positioning tool according to claim 1, wherein positioning plates (18) are arranged at the ends of the two cross frames (14) on the same side.

3. The stainless steel frame positioning tool according to claim 2, wherein the opening direction of the positioning seat (17) on the vertical beam (13) deviates from the side of the positioning plate (18);

the spoke beam (16) is arranged at the end, close to the positioning plate (18), of the cross beam (12) and is installed on one side, away from the cross frame (14) with the positioning seat (17) arranged in the same direction of the cross beam (12).

4. The stainless steel frame positioning tool according to claim 1, wherein a support frame (19) mounted on the inner wall of the frame (11) is arranged below the cross beam (12) and the vertical beam (13).

5. The stainless steel frame positioning tool according to claim 4, wherein the supporting frame (19) is of a diamond structure.

6. The stainless steel frame positioning tool according to claim 1, wherein the frame (11) is composed of a double-layer U-shaped frame with an inward opening, and the cross beam (12) and the vertical beam (13) are both made of U-shaped frames.

7. The stainless steel frame positioning tool according to claim 1, wherein the positioning seat (17) comprises an L-shaped positioning block (120), and a positioning block I (121) and a positioning block II (122) which are mounted on the L-shaped positioning block (120), the positioning block I (121) is arranged on a transverse plate of the L-shaped positioning block (120), and the positioning block II (122) is arranged on the positioning block I (121) and can move towards or away from a vertical direction of the L-shaped positioning block (120).

8. The stainless steel frame positioning tool according to claim 7, wherein corresponding threaded holes (123) are formed in vertical plates of the positioning block II (122) and the L-shaped positioning block (120), and adjusting bolts are installed in the threaded holes (123).

9. The stainless steel frame positioning tool according to claim 7, wherein the L-shaped positioning block (120) is made of carbon steel, and the positioning block I (121) and the positioning block II (122) are made of stainless steel.

10. The stainless steel frame positioning tool according to claim 1, wherein support frames (124) are arranged below the frame (11), and support rods (125) are arranged between the adjacent support frames (124).

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