CN210254894U - Stainless steel frame welding position frock - Google Patents

Abstract

The utility model relates to a stainless steel frame welding position frock, include the frame and install the locating component on the frame, the frame includes parallel arrangement's crossbearer I, crossbearer II and crossbearer III, and parallel distribution's perpendicular frame I, erect frame II and erect frame III, crossbearer I is connected at perpendicular frame I, erect frame II and erect the front end of frame III, crossbearer III is connected in the rear end of erecting frame I and erecting frame II, erect the right-hand member of I connection at crossbearer I and crossbearer III of frame, erect the left end of frame I and crossbearer II of III connection of frame III, erect frame II respectively with the left end of crossbearer III, the right-hand member of crossbearer II and crossbearer I link to each other, locating component includes positioning seat I, positioning seat II, the locating plate, locating piece and reference column. The utility model discloses guaranteed the straightness that hangs down and the position degree of each part of stainless steel frame during the location, prevented moreover that stress deformation's the condition from appearing when the welding to stainless steel frame welded quality and efficiency have been improved.

Description

Stainless steel frame welding position frock

Technical Field

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

Background

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 the straightness that hangs down and the position degree of not only 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 welding position frock to solve the poor problem of stainless steel frame positioning accuracy.

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

a stainless steel frame welding positioning tool comprises a frame and a positioning assembly arranged on the frame; wherein,

the frame comprises a transverse frame I, a transverse frame II and a transverse frame III which are arranged in parallel, and a vertical frame I, a vertical frame II and a vertical frame III which are distributed in parallel, wherein the transverse frame I is connected with the front ends of the vertical frame I, the vertical frame II and the vertical frame III, the transverse frame III is connected with the rear ends of the vertical frame I and the vertical frame II, the vertical frame I is connected with the right ends of the transverse frame I and the transverse frame III, the vertical frame III is connected with the left ends of the transverse frame I and the transverse frame II, the transverse frame II and the transverse frame III are arranged in a staggered mode, and the vertical frame II is respectively connected with the left end of the transverse frame III, the right end of the transverse frame II and the transverse frame I;

a vertical plate and a vertical beam I are arranged between the transverse frame I and the transverse frame II, a cross beam I and a cross beam II are connected between the vertical frame I and the vertical frame II, and a vertical beam II is connected between the cross beam I and the transverse frame I;

the positioning assembly comprises a positioning seat I, a positioning seat II, a positioning plate, a positioning block and a positioning column.

Further, the vertical plate is arranged above the transverse frame I and the transverse frame II.

Further, positioning seat I is installed respectively on crossbearer I, crossbearer II, crossbearer III, perpendicular frame I, perpendicular roof beam II and crossbeam I to and the department of meeting of crossbearer I, crossbearer II and perpendicular frame III, the department of meeting of crossbeam II and perpendicular frame II and the department of meeting of perpendicular roof beam II and crossbearer I.

Furthermore, the positioning seat I comprises an L positioning block, a fixed positioning block and an adjustable positioning block, the fixed positioning block is arranged on a transverse plate of the L positioning block, and the adjustable positioning block is arranged on the fixed positioning block and can move towards or away from the vertical plate direction of the L positioning block.

Furthermore, corresponding threaded holes are formed in the vertical plates of the adjustable positioning block and the L-shaped positioning block.

Furthermore, the L-shaped positioning block is made of carbon steel, and the fixed positioning block and the adjustable positioning block are made of stainless steel.

Furthermore, the positioning seat II is respectively arranged at the joint of the vertical frame I, the transverse frame I and the transverse frame III, and the positioning seat II is in an L shape with an opening facing to the direction of the vertical frame II;

and a base plate is arranged on the positioning seat II.

Furthermore, the locating plate is installed the end portion that crossbearer III and crossbeam II faced perpendicular frame II.

Further, the locating piece sets up on the riser.

Furthermore, the positioning columns are arranged on the vertical beam I, the vertical beam II and the cross beam II.

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 and locating component, 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 welding and positioning tool for a stainless steel frame according to a preferred embodiment of the present invention;

FIG. 2 is a top view of the frame and positioning assembly of the welding and positioning tool for stainless steel frames according to the preferred embodiment of the present invention;

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

FIG. 4 is a structural diagram of a positioning seat II of the welding and positioning tool for stainless steel frames according to the preferred embodiment of the present invention;

FIG. 5 is a positioning diagram of the welding and positioning tool for stainless steel frames according to the preferred embodiment of the present invention;

FIG. 6 is a structural view of a stainless steel frame to which the present invention is applied;

in the figure: frame 1, crossbearer I11, crossbearer II 12, crossbearer III 13, vertical frame I14, vertical frame II 15, vertical frame III 16, riser 17, vertical beam I18, crossbeam I19, crossbeam II 110, vertical beam II 111, support frame 112, bracing piece 113, positioning seat I21, L locating piece 211, fixed positioning piece 212, adjustable locating piece 213, screw hole 214, positioning seat II 22, backing plate 221, locating plate 23, locating piece 24, positioning column 25, horizontal pole I31, horizontal pole II 32, horizontal pole III 33, horizontal pole IV 34, montant 35, hypoplastron 36, upper plate I37, upper plate II 38, scute 39.

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. 6, be suitable for the stainless steel frame 3 of location frock, horizontal pole I31 including parallel arrangement, horizontal pole II 32, horizontal pole III 33 and horizontal pole IV 34, and connect the montant 35 at II 32 right-hand members of horizontal pole and the horizontal pole III 33 and the IV 34 left end of horizontal pole, be provided with hypoplastron 36 and upper plate I37 between horizontal pole I31 and the II 32 of horizontal pole, horizontal pole I31 and the IV 34 time of horizontal pole set up upper plate II 38, horizontal pole IV 34 is provided with scute 39 towards the side tip of horizontal pole III 33, and the I31 left end of horizontal pole is provided with scute 33 towards the side of horizontal pole III 33.

As shown in figures 1-5, the utility model provides a stainless steel frame 3 welding position frock, including frame 1 and the locating component installed on frame 1, frame 1 includes crossbearer I11, crossbearer II 12 and crossbearer III 13 that parallel arrangement, and parallel distribution's erector I14, erector II 15 and erector III 16, crossbearer I11 connects at erector I14, erector II 15 and the front end of erector III 16, crossbearer III 13 connects at the rear end of erector I14 and erector II 15, erector I14 connects at the right-hand member of crossbearer I11 and crossbearer III 13, erector III 16 connects at the left end of crossbearer I11 and crossbearer II 12, crossbearer II 12 and crossbearer III 13 dislocation set, erector II 15 respectively with the left end of crossbearer III 13, the right-hand member of crossbearer II 12 and crossbearer I11 link to each other, there are riser 17 and crossbeam 18 between crossbearer I11 and crossbearer 12, crossbeam II 14 and I15 and crossbeam 19, be connected with between I19 of crossbeam and the crossbearer I11 and erect roof beam II 111, locating component includes locating seat I21, locating seat II 22, locating plate 23, locating piece 24 and reference column 25.

The transverse frame I11 and the positioning seats I21 and II 22 above the transverse frame I11 are used for positioning the cross rod I31, the transverse frame II 12 and the positioning seats I21 above the transverse frame II are used for positioning the cross rod II 21, the transverse frame I and the positioning seats I21 above the transverse frame I are used for positioning the cross rod III 33, the vertical plate 17 and the positioning blocks 24 above the vertical plate I are used for positioning the lower plate 36, the vertical beam I18 and the positioning columns 25 above the vertical beam I18 are used for positioning the upper plate I37, the transverse beam II 110, the vertical beam II 111 and the positioning columns 25 on the transverse beam II 110 and the vertical beam II 111 are used for positioning the upper plate II 38, and the positioning seats II 22 and the positioning plates 23 are used for supporting and positioning the angle plate 39.

Since the lower plate 36 of the stainless steel frame 3 is flush with the bottom of the cross bar, the risers 17 are mounted above the cross frame i 11 and the cross frame ii 12 for ease of positioning.

When positioning, the lower plate 36 is directly placed on the vertical plate 17, and the positioning blocks 24 on the vertical plate 17 are positioned on the same side of the lower plate 36, so that the positioning of the lower plate 36 is realized.

The setting of positioning seat I21 is then used for fixing a position each horizontal pole and montant 35, and wherein, positioning seat I21 is installed respectively on crossbearer I11, crossbearer II 12, crossbearer III 13, erect frame I14, erect frame II 15 and crossbeam I19 to and the department of meeting of crossbearer I11, crossbearer II 12 and perpendicular frame III 16, the department of meeting of crossbeam II 110 and perpendicular frame II 15 and the department of meeting of erecting II 111 and crossbearer I11 of roof beam.

Specifically, a positioning seat I21 on the transverse frame I11, a positioning seat I21 at the joint of the transverse frame I21 and the vertical beam II 111, and a positioning seat I21 at the joint of the transverse frame I11 and the vertical frame III 16 are all positioned on the same straight line, and openings are arranged in advance and are used for positioning a transverse rod I31; the positioning seat I21 on the transverse frame II 22, the positioning seat I21 at the joint of the transverse frame II 22 and the vertical frame III 16 and the positioning seat I21 on the vertical frame II 15 are all positioned on the same straight line, and the opening faces backwards, so that the positioning seat I is used for positioning the transverse rod II 32; the opening of the positioning seat I21 on the transverse frame III 13 is arranged backwards and is used for positioning the transverse rod IV 34; the positioning seats I21 on the cross beam I19 and the positioning seats on the vertical frames I14 are positioned on the same straight line, are provided with backward openings and are used for positioning the cross rod III 33; the opening of the residual positioning seat I21 on the vertical frame II 15 faces to the direction of the vertical frame III 16, namely, the residual positioning seat I is arranged to be over left and is used for positioning the vertical rod 35.

Referring to fig. 3, since the cross bar and the vertical bar of the stainless steel frame 3 are welded by square pipes, in order to position the stainless steel frame, the positioning seat i 21 includes an L-shaped positioning block 211, a fixed positioning block 212 and an adjustable positioning block 213 mounted on the L-shaped positioning block 211, the fixed positioning block 212 is mounted on a horizontal plate of the L-shaped positioning block 211, and the adjustable positioning block 213 is disposed on the fixed positioning block 212 and can move toward or away from a vertical plate of the L-shaped positioning block 211.

The position of the stainless steel frame 3 component can be finely adjusted by the movement of the adjustable positioning block 213, thereby ensuring the accuracy of positioning.

In order to fix the position of the adjustable positioning block 213, the adjustable positioning block 213 and the L positioning block 211 have corresponding threaded holes 214 on their vertical plates.

After the position of the adjustable positioning block 213 is determined according to the specific position of the stainless steel frame 3 component, the adjusting bolt passes through the threaded hole 214 on the vertical plate of the L positioning block 211 and extends into the threaded hole 214 on the adjustable positioning block 213, so as to fix the positions of the two, and the L positioning block 211 is directly fixed on the frame 1.

The L-shaped positioning block 211 is made of carbon steel, and the fixed positioning block 212 and the adjustable positioning block 213 are made of stainless steel.

The L positioning block 211 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 3 can be effectively solved, the fixed positioning block 212 and the adjustable positioning block 213 are made of stainless steel, the stainless steel frame 3 can be prevented from being polluted by contact with the L positioning block 211 made of carbon steel, and the quality of the stainless steel frame 3 is guaranteed.

The positioning seats II 22 are arranged for simultaneously positioning the end parts of the cross rod I31 and the cross rod IV 34 and angle plates 39 at the end parts of the cross rod I31 and the cross rod IV 34, the positioning seats II 22 are respectively arranged at the connecting parts of the vertical frame I14, the cross frame I11 and the cross frame III 13, and the positioning seats II 22 are L-shaped with openings facing to the direction of the vertical frame II 15;

a backing plate 221 is arranged on the positioning seat II 22.

The second positioning seat 22 may be made of carbon steel, so as to increase the positioning accuracy and prevent deformation, and the backing plate 221 is made of stainless steel, so as to prevent pollution to the stainless steel frame 3 and ensure the quality of the stainless steel frame 3.

Specifically, the carbon steel can be made of Q235 material.

The positioning plate 23 is arranged for positioning the angle plate 39 at the left end of the cross rod IV 34, and the positioning plate 23 is arranged at the end parts, facing the vertical frame II 15, of the cross frame III 13 and the cross beam II 110.

The positioning block 24 is provided for positioning the lower plate 36, and the positioning block 24 is provided on the vertical plate 17.

Preferably, the positioning blocks 24 are at least two and linearly distributed along the length direction of the vertical plate 17, so that the positioning blocks are all positioned on the same side of the lower plate 36, and the accurate positioning of the lower plate 36 is ensured.

Because the upper plate I37 is above the welded cross rod I31 and the cross rod II 32, and the upper plate II 38 is above the welded cross rod I31, the cross rod III 33 and the cross rod IV 34, the height of the upper plate is higher than that of the cross rod, a positioning column with higher height is needed to be adopted for positioning, and the positioning column 25 is arranged on the vertical beam I18, the vertical beam II 111 and the cross beam II 110.

Specifically, set up two reference columns 25 on the perpendicular roof beam I18 at least to be the straight line according to the length direction of perpendicular roof beam I18 and distribute, thereby make its homonymy at upper plate I37, guarantee the straightness that hangs down of upper plate I37.

And the positioning columns 25 on the vertical beam II 111 and the positioning columns 25 on the cross beam II 110 are positioned on the same straight line, and the distribution direction of the positioning columns are the same as the length direction of the vertical beam II 111, so that the verticality of the upper plate II 38 is ensured.

Preferably, support frames 112 are provided below the frame 1, and support rods 113 are provided between the support frames 112, in order to support the frame 1.

Before welding the stainless steel frame 3, the specific position of the adjustable positioning block 213 on the positioning seat i 21 is first adjusted according to the specific positions of the various components of the stainless steel frame 3, and is fixed by the adjusting bolt.

Referring to fig. 5, a cross bar i 31, a cross bar ii 32, a cross bar iii 33, a cross bar iv 34 and a vertical bar 35 are respectively placed on a positioning seat i 21 at corresponding positions, the positioning seat i 21 is used for positioning the cross bar i 31, the lower plate 36 is placed on one side of a positioning block 24 on a vertical plate 17, an upper plate i 38 is placed on one side of a positioning column 25 on a vertical beam i 18, an upper plate ii 39 is placed above the vertical beam ii 111 and the cross bar i 31, the cross bar iii 33 and the cross bar iv 34, the positioning column 25 is located on one side of the positioning column, the positioning block 24 and the positioning column 25 are used for positioning the above parts, an angle plate 39 is respectively placed on the positioning seat ii 22 and the positioning plate 23, then the parts and a tool are fixed together by using an F clamp, and finally, the joints of the parts are.

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 welding position frock which characterized in that: comprises a frame (1) and a positioning component arranged on the frame (1); wherein,

the frame (1) comprises a transverse frame I (11), a transverse frame II (12) and a transverse frame III (13) which are arranged in parallel, and vertical frames I (14), vertical frames II (15) and vertical frames III (16) which are distributed in parallel, wherein the transverse frame I (11) is connected to the front ends of the vertical frames I (14), the vertical frames II (15) and the vertical frames III (16), the transverse frame III (13) is connected to the rear ends of the vertical frames I (14) and the vertical frames II (15), the vertical frames I (14) are connected to the right ends of the transverse frame I (11) and the transverse frame III (13), the vertical frames III (16) are connected to the left ends of the transverse frame I (11) and the transverse frame II (12), the transverse frame II (12) and the transverse frame III (13) are arranged in a staggered mode, and the vertical frames II (15) are respectively connected with the left end of the transverse frame I (13), the right end of the transverse frame (12) and the transverse frame I (11);

a vertical plate (17) and a vertical beam I (18) are arranged between the transverse frame I (11) and the transverse frame II (12), a transverse beam I (19) and a transverse beam II (110) are connected between the vertical frame I (14) and the vertical frame II (15), and a vertical beam II (111) is connected between the transverse beam I (19) and the transverse frame I (11);

the positioning assembly comprises a positioning seat I (21), a positioning seat II (22), a positioning plate (23), a positioning block (24) and a positioning column (25).

2. The stainless steel frame welding positioning tool according to claim 1, wherein the vertical plates (17) are installed above the transverse frame I (11) and the transverse frame II (12).

3. The stainless steel frame welding and positioning tool according to claim 1, wherein the positioning seat I (21) is respectively installed on a cross frame I (11), a cross frame II (12), a cross frame III (13), a vertical frame I (14), a vertical beam II (111) and a cross beam I (19), and a joint of the cross frame I (11), the cross frame II (12) and a vertical frame III (16), a joint of the cross beam II (110) and a vertical frame II (15) and a joint of the vertical beam II (111) and the cross frame I (11).

4. The stainless steel frame welding and positioning tool according to claim 3, wherein the positioning seat I (21) comprises an L-shaped positioning block (211), and a fixed positioning block (212) and an adjustable positioning block (213) which are installed on the L-shaped positioning block (211), the fixed positioning block (212) is installed on a transverse plate of the L-shaped positioning block (211), and the adjustable positioning block (213) is arranged on the fixed positioning block (212) and can move towards or away from a vertical direction of the L-shaped positioning block (211).

5. The stainless steel frame welding and positioning tool according to claim 4, wherein corresponding threaded holes (214) are formed in the vertical plates of the adjustable positioning block (213) and the L positioning block (211).

6. The stainless steel frame welding positioning tool according to claim 4, wherein the L-shaped positioning block (211) is made of carbon steel, and the fixed positioning block (212) and the adjustable positioning block (213) are made of stainless steel.

7. The stainless steel frame welding and positioning tool according to claim 1, wherein the positioning seat II (22) is respectively arranged at the connecting part of the vertical frame I (14), the transverse frame I (11) and the transverse frame III (13), and the positioning seat II (22) is in an L shape with an opening facing the direction of the vertical frame II (15);

and a backing plate (221) is arranged on the positioning seat II (22).

8. The stainless steel frame welding positioning tool according to claim 1, wherein the positioning plate (23) is mounted at the end parts, facing the vertical frame II (15), of the cross frame III (13) and the cross beam II (110).

9. The stainless steel frame welding and positioning tool according to claim 1, wherein the positioning blocks (24) are arranged on the vertical plates (17).

10. The stainless steel frame welding positioning tool according to claim 1, wherein the positioning columns (25) are arranged on the vertical beam I (18), the vertical beam II (111) and the cross beam II (110).

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