CN204934832U - A kind of submerged-arc horizontal experimental rig - Google Patents

A kind of submerged-arc horizontal experimental rig Download PDF

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Publication number
CN204934832U
CN204934832U CN201520733516.7U CN201520733516U CN204934832U CN 204934832 U CN204934832 U CN 204934832U CN 201520733516 U CN201520733516 U CN 201520733516U CN 204934832 U CN204934832 U CN 204934832U
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panel
test plate
submerged
track
curved surface
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杨联东
张文华
李斌
田海鹏
康宁
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Sinohydro Bureau 3 Co Ltd
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Sinohydro Bureau 3 Co Ltd
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Abstract

The utility model discloses a kind of submerged-arc horizontal experimental rig, comprise submerged arc transverse seam welding machine, supporting track and the Liang Ge support post mechanism be arranged on supporting track, two test plate (panel)s matched with the guide wheel of submerged arc transverse seam welding machine are set between Liang Ge support post mechanism, two test plate (panel)s are curved surface test plate (panel) or are plane test plate (panel), analog orbit for guiding the movable pulley of submerged arc transverse seam welding machine to walk is set between Liang Ge support post mechanism, analog orbit is curve modeling track or plane simulation track, analog orbit is positioned at above test plate (panel), curved surface test plate (panel) retaining mechanism peace interview plate retaining mechanism is all set in the middle part of Liang Ge support post mechanism, Liang Ge support post mechanism top all arranges curve modeling track locking mechanism and plane simulation track locking mechanism.This submerged-arc horizontal experimental rig can meet qualification of welding procedure, productivity soldering test, welding operation worker training three different objects simultaneously, will effectively reduce costs, enhance productivity, improve welding quality.

Description

A kind of submerged-arc horizontal experimental rig
Technical field
The utility model belongs to soldering test technical field, specifically relates to a kind of submerged-arc horizontal experimental rig.
Background technology
In existing pressure steel pipe of hydropower station welding, particularly in large diameter steel pipe welding production, what routine adopted is SMAW welding, in recent years, along with automatic submerged arc horizontal welding technology promotes the use in other industry field, technology is ripe gradually, but use less on hydraulic power pressure steel pipe, penstock welding generally will through qualification of welding procedure, productivity soldering test, the links such as welding operation worker training, utilization could be widelyd popularize aborning, these operations conveniently flow process, separately carry out separately, procedure qualification needs to make special arrangement, industrial experimentation welding is carried out substantially on the whole joint steel pipe rolled, if single diameter and thickness still can, but produce due to hydropower industry penstock and have following features: 1, diameter specifications is not of uniform size, 2, steel plate material is complicated, from Q235, Q345, to 600MPa, 800MPa all size, 3, thickness of steel pipe is different, and conventional has from 20mm to 100mm.The test of so many specification and welders training, to a large amount of waste of material be caused and increase production cost, a kind of device can be designed, qualification of welding procedure, productivity soldering test, welding operation worker training three different objects can be met simultaneously, will effectively reduce costs, enhance productivity, improve welding quality, in addition, in actual welding is produced, horizontal position welding machine equipment flux restoring is about 80%, causes solder flux to waste serious, and above deficiency is all the on-the-spot problem demanding prompt solutions of industry production.
Utility model content
The purpose of this utility model is to overcome above-mentioned deficiency of the prior art, provides a kind of submerged-arc horizontal experimental rig.This submerged-arc horizontal experimental rig can meet qualification of welding procedure, productivity soldering test, welding operation worker training three different objects simultaneously, will effectively reduce costs, enhance productivity, improve welding quality.
For achieving the above object, the technical solution adopted in the utility model is: a kind of submerged-arc horizontal experimental rig, it is characterized in that: comprise submerged arc transverse seam welding machine, supporting track and the Liang Ge support post mechanism be arranged on described supporting track, two test plate (panel)s matched with the guide wheel of submerged arc transverse seam welding machine are provided with between two described support post mechanisms, two described test plate (panel)s are curved surface test plate (panel) or are plane test plate (panel), the analog orbit for guiding the movable pulley of submerged arc transverse seam welding machine to walk is provided with between two described support post mechanisms, described analog orbit is curve modeling track or plane simulation track, described analog orbit is positioned at the top of described test plate (panel), the middle part of two described support post mechanisms is provided with curved surface test plate (panel) retaining mechanism peace interview plate retaining mechanism, the top of two described support post mechanisms is provided with curve modeling track locking mechanism and plane simulation track locking mechanism.
Above-mentioned a kind of submerged-arc horizontal experimental rig, is characterized in that: described supporting track is provided with support bar, described analog orbit is connected by upper auxiliary supports with a described test plate (panel); Test plate (panel) described in another is connected by lower auxiliary supports with support bar.
Above-mentioned a kind of submerged-arc horizontal experimental rig, it is characterized in that: comprise two solder recycling boxes for walking along supporting track, solder recycling box described in one of them is arranged on the side of described support bar, solder recycling box described in another is arranged on the opposite side of described support bar, two described solder recycling boxes include cylinder, and the bottom of described submerged arc transverse seam welding machine is provided with for driving solder recycling box to move and departing from described cylinder the elastic mechanism coordinated when solder recycling box touches support bar.
Above-mentioned a kind of submerged-arc horizontal experimental rig, it is characterized in that: described elastic mechanism comprises the sleeve be fixedly installed on bottom described submerged arc transverse seam welding machine and the expansion link be arranged in described sleeve, the upper end of described expansion link passes described sleeve and is provided with anticreep block, the lower end of described expansion link passes described sleeve and is provided with the domed head for coordinating with described cylinder contact, is provided with spring between described domed head and described sleeve.
Above-mentioned a kind of submerged-arc horizontal experimental rig, it is characterized in that: described upper auxiliary supports comprises the first upper screw rod, the second upper screw rod and upper thread bush, the upper end of described first upper screw rod is fixedly connected with described analog orbit, the lower end of described first upper screw rod is threaded with described upper thread bush, the upper end of described second upper screw rod is threaded with described upper thread bush, the lower end of described second upper screw rod is fixedly connected with described test plate (panel), and the screw thread rotation direction of described first upper screw rod is contrary with the screw thread rotation direction of the second upper screw rod; Described lower auxiliary supports comprises first time screw mandrel, second time screw mandrel and lower thread bush, the upper end of described first time screw mandrel is fixedly connected with described test plate (panel), the lower end of described first time screw mandrel is threaded with described lower thread bush, the upper end of described second time screw mandrel is threaded with described lower thread bush, the lower end of described second time screw mandrel is fixedly connected with described support bar, and the screw thread rotation direction of described first time screw mandrel is contrary with the screw thread rotation direction of second time screw mandrel.
Above-mentioned a kind of submerged-arc horizontal experimental rig, is characterized in that: described supporting track is made up of the bar shaped rail of two parallel layings.
Above-mentioned a kind of submerged-arc horizontal experimental rig, is characterized in that: two described support post mechanisms are all connected with described bar shaped rail by support retaining mechanism.
Above-mentioned a kind of submerged-arc horizontal experimental rig, it is characterized in that: described support retaining mechanism comprises two side guard plates being fixedly installed on described support post actuator base, described bar shaped rail is arranged between two described side guard plates, two described side guard plates is provided with and pushes up friction tight clamping screw for described bar shaped trackside face.
Above-mentioned a kind of submerged-arc horizontal experimental rig, it is characterized in that: two described support post mechanisms include U-shaped base and are arranged on the column on described U-shaped base, described U-shaped base is connected by hound with the upper end of column, described curved surface test plate (panel) retaining mechanism peace interview plate retaining mechanism is all arranged on the middle part of described column, and described curve modeling track locking mechanism and plane simulation track locking mechanism are all arranged on the top of described column.
Above-mentioned a kind of submerged-arc horizontal experimental rig, it is characterized in that: described curved surface test plate (panel) retaining mechanism comprises curved surface test plate (panel) latch and curved surface test plate (panel) location-plate, described curved surface test plate (panel) between described curved surface test plate (panel) latch and described curved surface test plate (panel) location-plate, described curved surface test plate (panel) latch is provided with for curved surface test plate (panel) top friction tight curved surface test plate (panel) puller bolt; Described plane test plate (panel) retaining mechanism comprises two plane test plate (panel) latch, described plane test plate (panel) is arranged between two described plane test plate (panel) latch, two described plane test plate (panel) latch are provided with for plane test plate (panel) top friction tight plane test plate (panel) puller bolt; Described curve modeling track locking mechanism comprises curve modeling track locking plate and curve modeling tracks positioned plate, described curve modeling track is arranged between curve modeling track locking plate and curve modeling tracks positioned plate, described curve modeling track locking plate is provided with for curve modeling track top friction tight curve modeling track puller bolt; Described plane simulation track locking mechanism comprises two plane simulation track locking plates, described plane simulation track is arranged between two described plane simulation track locking plates, two described plane simulation track locking plates are provided with for plane simulation track top friction tight plane simulation track puller bolt.
The utility model compared with prior art has the following advantages:
1, structure of the present utility model is simple, rationally novel in design.
2, the utility model by arranging curve modeling track locking mechanism, curved surface test plate (panel) retaining mechanism, plane simulation track locking mechanism peace interview plate retaining mechanism in support post mechanism, thus can select curve modeling track and curved surface test plate (panel) are installed according to application target, or install and face track directly and face test plate (panel) directly, can effectively will curved surface test plate (panel) be utilized to carry out soldering test and these two objects of welders training, and the object utilizing plane test plate (panel) to carry out qualification of welding procedure combines, effectively reduce cost, improve production efficiency and welding quality.
3, the utility model is by arranging solder recycling box, the solder flux that the flux recovering tube of submerged arc transverse seam welding machine is omitted can be reclaimed, effectively improve flux restoring rate, by being two by the quantitative design of described solder recycling box, and under the effect of described elastic mechanism, and under the prerequisite existed at described support bar, described welding collection box following of whole journey submerged arc transverse seam welding machine also can be enable to reclaim completely solder flux.
4, the utility model effectively can realize described support post mechanism by support retaining mechanism and is connected with described the good of bar shaped rail.Can also by unclamping described clamping screw, and then described support post mechanism is moved along described bar shaped rail, distance between two described support post mechanisms is adjusted, thus the curved surface test plate (panel) retaining mechanism in described support post mechanism and curve modeling track locking mechanism are effectively fixed the curved surface test plate (panel) of different size and curve modeling track respectively.
5, the utility model is by arranging upper auxiliary supports, effectively can support curve modeling track or plane simulation track, effective raising test plate (panel) intensity, by arranging lower auxiliary supports, effectively can support curve modeling track or plane simulation track, effectively improve the intensity of analog orbit.
6, of the present utility model to realize cost low, and result of use is good, is convenient to promote the use of.
Below by drawings and Examples, the technical solution of the utility model is described in further detail.
Accompanying drawing explanation
Fig. 1 is the front view of the utility model embodiment 1.
Fig. 2 is the left view of the utility model embodiment 1.
Fig. 3 is the enlarged drawing at A place in Fig. 2.
Fig. 4 is the top view of the utility model embodiment 1.
Fig. 5 is the front view of the utility model support post mechanism.
Fig. 6 is the left view of the utility model support post mechanism.
Fig. 7 is the top view of the utility model support post mechanism.
Using state reference diagram when Fig. 8 is submerged arc transverse seam welding machine and close Left-side support column agency in the utility model embodiment 1.
Fig. 9 is using state reference diagram when submerged arc transverse seam welding machine is on the left of support bar in the utility model embodiment 1.
Figure 10 is using state reference diagram when submerged arc transverse seam welding machine is on the right side of support bar in the utility model embodiment 1.
Figure 11 is the using state reference diagram of submerged arc transverse seam welding machine when Right side support column agency in the utility model embodiment 1.
Figure 12 is the front view of the utility model embodiment 2.
Figure 13 is the left view of the utility model embodiment 2.
Figure 14 is the top view of the utility model embodiment 2.
Description of reference numerals:
1-submerged arc transverse seam welding machine; 1-1-guide wheel;
1-2-movable pulley; 1-3-cabinet;
1-4-submerged arc mechanism; 1-5-wire feeder;
1-6-flux recovering tube; 2-curve modeling track;
3-support post mechanism; 3-1-U-shaped base;
3-2-column; 3-3-hound;
3-4-curve modeling track locking mechanism; 3-4-1-curve modeling track locking plate;
3-4-2-curve modeling tracks positioned plate; 3-4-3-curve modeling track puller bolt;
3-5-plane test plate (panel) retaining mechanism; 3-5-1-plane test plate (panel) latch;
3-5-2-plane test plate (panel) puller bolt; 3-6-curved surface test plate (panel) retaining mechanism;
3-7-plane simulation track locking mechanism; 3-7-1-plane simulation track locking plate;
3-7-2-plane simulation track puller bolt; 3-8-support retaining mechanism;
3-8-1-side guard plate; 3-8-2-clamping screw;
3-9-the first gripper shoe; 3-10-the second gripper shoe;
4-curved surface test plate (panel); 5-supporting track;
6-support bar; 7-elastic mechanism;
7-1-sleeve; 7-2-expansion link;
7-3-anticreep block; 7-4-domed head;
7-5-spring; 8-solder recycling box;
8-1-cylinder; 9-upper auxiliary supports;
9-1-the first upper screw rod; 9-2-the second upper screw rod;
9-3-upper thread bush; 10-lower auxiliary supports;
10-1-the first time screw mandrel; 10-2-the second time screw mandrel;
10-3-lower thread bush; 11-the first limited block;
12-the second limited block; 13-the three limited block;
14-the four limited block; 15-plane simulation track;
16-plane test plate (panel).
Detailed description of the invention
Embodiment 1
As Fig. 1, Fig. 2, a kind of submerged-arc horizontal experimental rig shown in Fig. 3 and Fig. 4, comprise submerged arc transverse seam welding machine 1, supporting track 5 and the Liang Ge support post mechanism 3 be arranged on described supporting track 5, two test plate (panel)s matched with the guide wheel 1-1 of submerged arc transverse seam welding machine 1 are provided with between two described support post mechanisms 3, two described test plate (panel)s are curved surface test plate (panel) 4 or are plane test plate (panel) 16, the analog orbit for guiding the movable pulley 1-2 of submerged arc transverse seam welding machine 1 to walk is provided with between two described support post mechanisms 3, described analog orbit is curve modeling track 2 or plane simulation track 15, described analog orbit is positioned at the top of described test plate (panel), the middle part of two described support post mechanisms 3 is provided with curved surface test plate (panel) retaining mechanism 3-6 peace interview plate retaining mechanism 3-5, the top of two described support post mechanisms 3 is provided with curve modeling track locking mechanism 3-4 and plane simulation track locking mechanism 3-7.
In the present embodiment, two described test plate (panel)s are curved surface test plate (panel) 4, and described analog orbit is curve modeling track 2.Described submerged arc transverse seam welding machine 1 comprises submerged arc mechanism 1-4, wire feeder 1-5, flux recovering tube 1-6, described guide wheel 1-1 and described movable pulley 1-2, and for holding the cabinet 1-3 of described submerged arc mechanism 1-4, wire feeder 1-5, flux recovering tube 1-6, guide wheel 1-1 and movable pulley 1-2.In the present embodiment, the model that described submerged arc transverse seam welding machine 1 adopts Nanjing Auto Electric Co., Ltd. to produce is the submerged arc transverse seam welding machine of AUTOSAHW-A.
In the present embodiment, this submerged-arc horizontal experimental rig in use, two described curved surface test plate (panel)s 4 are arranged between two described support post mechanisms 3, described curve modeling track 2 is also arranged between two described support post mechanisms 3 simultaneously, being coordinated by the movable pulley 1-2 of submerged arc transverse seam welding machine 1 is arranged on described curve modeling track 2 again, described movable pulley 1-2 is walked along described curve modeling track 2, enable the guide wheel 1-1 of described submerged arc transverse seam welding machine 1 walk along described curved surface test plate (panel) 4 simultaneously, operating personnel can control described submerged arc transverse seam welding machine 1 and weld two described curved surface test plate (panel)s 4, thus carry out soldering test and training welder.This submerged-arc horizontal experimental rig structure is simple, effectively can carry out carrying out of soldering test and welders training work.
As shown in Figure 1, Figure 2 and Figure 4, described supporting track 5 is provided with support bar 6, described analog orbit is connected by upper auxiliary supports 9 with a described test plate (panel); Test plate (panel) described in another is connected by lower auxiliary supports 10 with support bar 6.
In the present embodiment, by arranging upper auxiliary supports 9, effectively can support described curve modeling track 2, improve the bulk strength of curve modeling track 2, by arranging lower auxiliary supports 10, effectively can support described curved surface test plate (panel) 4, improve the bulk strength of curved surface test plate (panel) 4.Wherein, described support bar 6 effectively can strengthen the bulk strength of described supporting track 5.
As shown in Figure 2, described upper auxiliary supports 9 comprises the first upper screw rod 9-1, the second upper screw rod 9-2 and upper thread bush 9-3, the upper end of described first upper screw rod 9-1 is fixedly connected with described analog orbit, the lower end of described first upper screw rod 9-1 is threaded with described upper thread bush 9-3, the upper end of described second upper screw rod 9-2 is threaded with described upper thread bush 9-3, the lower end of described second upper screw rod 9-2 is fixedly connected with described test plate (panel), and the screw thread rotation direction of described first upper screw rod 9-1 is contrary with the screw thread rotation direction of the second upper screw rod 9-2; Described lower auxiliary supports 10 comprises first time screw mandrel 10-1, second time screw mandrel 10-2 and lower thread bush 10-3, the upper end of described first time screw mandrel 10-1 is fixedly connected with described test plate (panel), the lower end of described first time screw mandrel 10-1 is threaded with described lower thread bush 10-3, the upper end of described second time screw mandrel 10-2 is threaded with described lower thread bush 10-3, the lower end of described second time screw mandrel 10-2 is fixedly connected with described support bar 6, and the screw thread rotation direction of described first time screw mandrel 10-1 is contrary with the screw thread rotation direction of second time screw mandrel 10-2.
In the present embodiment, when using described upper auxiliary supports 9, can by rotating described upper thread bush 9-3, described upper thread bush 9-3 is utilized to coordinate with the screw-driven of the first upper screw rod 9-1, and second upper screw rod 9-2 coordinate with the screw-driven of described upper thread bush 9-3, thus can adjust the length of described upper auxiliary supports 9, thus effectively can support described curve modeling track 2; In like manner, when using described lower auxiliary supports 10, can by rotating described lower thread bush 10-3, described lower thread bush 10-3 is utilized to coordinate with the screw-driven of first time screw mandrel 10-1, and described second time screw mandrel 10-2 coordinates with the screw-driven of described lower thread bush 10-3, thus can adjust the length of described lower auxiliary supports 10, thus effectively can support described curved surface test plate (panel) 4.
As Fig. 1, shown in Fig. 2 and Fig. 4, this submerged-arc horizontal experimental rig comprises two solder recycling boxes 8 for walking along supporting track 5, solder recycling box 8 described in one of them is arranged on the side of described support bar 6, solder recycling box 8 described in another is arranged on the opposite side of described support bar 6, two described solder recycling boxes 8 include cylinder 8-1, the bottom of described submerged arc transverse seam welding machine 1 is provided with and coordinates to drive solder recycling box 8 to move for contacting with described cylinder 8-1, and depart from described cylinder 8-1 the elastic mechanism 7 coordinated when solder recycling box 8 touches support bar 6.
In the present embodiment, by arranging solder recycling box 8, the solder flux that the flux recovering tube 1-6 of submerged arc transverse seam welding machine 1 omits can be reclaimed, effectively improve flux restoring rate.By being two by the quantitative design of described solder recycling box 8, and under the effect of described elastic mechanism 7, and under the prerequisite of described support bar 6 existence, described welding collection box 8 also can be made to reclaim completely by following of whole journey submerged arc transverse seam welding machine 1 pair of solder flux.
As shown in Figure 3, described elastic mechanism 7 comprises the sleeve 7-1 be fixedly installed on bottom described submerged arc the transverse seam welding machine 1 and expansion link 7-2 be arranged in described sleeve 7-1, the upper end of described expansion link 7-2 passes described sleeve 7-1 and is provided with anticreep block 7-3, the lower end of described expansion link 7-2 passes described sleeve 7-1 and is provided with for contacting with described cylinder 8-1 the domed head 7-4 coordinated, and is provided with spring 7-5 between described domed head 7-4 and described sleeve 7-1.
In the present embodiment, composition graphs 8, Fig. 9, the welding job process of the described submerged arc transverse seam welding machine 1 of Figure 10 and Figure 11, as shown in Figure 8, described submerged arc transverse seam welding machine 1 is positioned at high order end, when described submerged arc transverse seam welding machine 1 contacts with the first limited block 11 on Left-side support column agency 3, now described elastic mechanism 7 is positioned at the left side of left side solder recycling box 8, and the domed head 7-4 on described elastic mechanism 7 matches with the cylinder 8-1 on solder recycling box 8, when submerged arc transverse seam welding machine 1 moves from left to right along curve modeling track 2, now being matched with the cylinder 8-1 on solder recycling box 8 by the domed head 7-4 of elastic mechanism 7 drives solder recycling box 8 to move from left to right (as shown in arrow B in Fig. 8) along supporting track 5, now, the solder recycling box 8 on right side contacts with the 3rd limited block 13 on the right side of support bar 6 and coordinates, next, as shown in Figure 9, when the solder recycling box 8 in left side move to contact with the second limited block 12 on the left of support bar 6 coordinate time, now the solder recycling box 8 in left side stops mobile, the domed head 7-4 of described elastic mechanism 7 upwards overcomes spring force to cross described cylinder 8-1 under the guiding function of cylinder 8-1, then, as shown in Figure 10, the domed head 7-4 of described elastic mechanism 7 and matching of right side solder recycling box 8, right side solder recycling box 8 is driven to move from left to right (as shown by arrow c in fig. 10), when the solder recycling box 8 on right side move to contact with the 4th upper limited block 14 of Right side support column agency 3 time, now solder recycling box 8 stops mobile, as shown in figure 11, the domed head 7-4 of described elastic mechanism 7 upwards overcomes spring force to cross described cylinder 8-1 under the guiding function of cylinder 8-1, thus carried out the preparation of solder recycling box 8 movement from right to left driving right side, like this, described submerged arc transverse seam welding machine 1 just completes a course of work.In this work process, two solder recycling boxes 8 can complete all-the-way tracking to submerged arc transverse seam welding machine 1 in the mode of relay, thus realize whole recovery operations of solder flux.
As shown in Figure 4, described supporting track 5 is made up of the bar shaped rail of two parallel layings.
Composition graphs 2 and Fig. 4, two described support post mechanisms 3 are all connected with described bar shaped rail by support retaining mechanism 3-8.
As shown in Figure 2, described support retaining mechanism 3-8 comprises two the side guard plate 3-8-1 be fixedly installed on bottom described support post mechanism 3, described bar shaped rail is arranged between two described side guard plate 3-8-1, two described side guard plate 3-8-1 is provided with and pushes up friction tight clamping screw 3-8-2 for described bar shaped trackside face.
In the present embodiment, effectively can realize described support post mechanism 3 by support retaining mechanism 3-8 and be connected with described the good of bar shaped rail.Concrete, can by unclamping described clamping screw 3-8-2, and then described support post mechanism 3 be moved along described bar shaped rail, the distance between two described support post mechanisms 3 is adjusted.
In the present embodiment, described curved surface test plate (panel) retaining mechanism 3-6 comprises curved surface test plate (panel) latch and curved surface test plate (panel) location-plate, described curved surface test plate (panel) 4, between described curved surface test plate (panel) latch and described curved surface test plate (panel) location-plate, described curved surface test plate (panel) latch is provided with for pushing up friction tight curved surface test plate (panel) puller bolt with curved surface test plate (panel) 4; Described plane test plate (panel) retaining mechanism 3-5 comprises two plane test plate (panel) latch 3-5-1, described plane test plate (panel) 16 is arranged between two described plane test plate (panel) latch 3-5-1, two described plane test plate (panel) latch 3-5-1 is provided with for pushing up friction tight plane test plate (panel) puller bolt 3-5-2 with plane test plate (panel) 16; Described curve modeling track locking mechanism 3-4 comprises curve modeling track locking plate 3-4-1 and curve modeling tracks positioned plate 3-4-2, described curve modeling track 2 is arranged between curve modeling track locking plate 3-4-1 and curve modeling tracks positioned plate 3-4-2, described curve modeling track locking plate 3-4-1 is provided with for pushing up friction tight curve modeling track puller bolt 3-4-3 with curve modeling track 2; Described plane simulation track locking mechanism 3-7 comprises two plane simulation track locking plate 3-7-1, described plane simulation track 15 is arranged between two described plane simulation track locking plate 3-7-1, two described plane simulation track locking plate 3-7-1 is provided with for pushing up friction tight plane simulation track puller bolt 3-7-2 with plane simulation track 15.
In the present embodiment, described curved surface test plate (panel) retaining mechanism 3-6 is identical with the structure of curve modeling track locking mechanism 3-4, because the distance between two described support post mechanisms 3 can be adjusted by support retaining mechanism 3-8, so for the curved surface test plate (panel) 4 of different size and curve modeling track 2, can by the distance between the described support post mechanism 3 of adjustment two, and then curved surface test plate (panel) retaining mechanism 3-6 is fixed curved surface test plate (panel) 4, enable curve modeling track locking mechanism 3-4 be fixed curve modeling test plate (panel) 2 simultaneously.
As shown in Fig. 5, Fig. 6 and Fig. 7, two described support post mechanisms 3 include U-shaped base 3-1 and are arranged on the column 3-2 on described U-shaped base 3-1, described U-shaped base 3-1 is connected by hound 3-3 with the upper end of column 3-2, described curved surface test plate (panel) retaining mechanism 3-6 peace interview plate retaining mechanism 3-5 is all arranged on the middle part of described column 3-2, and described curve modeling track locking mechanism 3-4 and plane simulation track locking mechanism 3-7 is all arranged on the top of described column 3-2.
In the present embodiment, by carrying out special design to the structure of described support post mechanism 3, described support post mechanism 3 effectively can be supported curved surface test plate (panel) 4 and curve modeling track 2, and the use of submerged arc transverse seam welding machine 1 can not be affected simultaneously.
In the present embodiment, described column 3-2 is provided with the first gripper shoe 3-9 for installing described curved surface test plate (panel) latch and the second gripper shoe 3-10 for installing described curve modeling track locking plate 3-4-1.
Embodiment 2
As shown in Figure 12, Figure 13 and Figure 14, the difference of the present embodiment and embodiment 1 is: two described test plate (panel)s are plane test plate (panel) 16, and described analog orbit is plane simulation track 15.
In the present embodiment, by mounting plane test plate (panel) 16 and plane simulation track 15, thus effectively can carry out qualification of welding procedure.
As shown in figure 12, the upper end of the first upper screw rod 9-1 of described upper auxiliary supports 9 is fixedly connected with described plane simulation track 15, and the lower end of described second upper screw rod 9-2 is fixedly connected with plane test plate (panel) 16; The upper end of first time screw mandrel 10-1 of described lower auxiliary supports 10 is fixedly connected with plane test plate (panel) 16, and the lower end of second time screw mandrel 10-2 is fixedly connected with described support bar 6.
In the present embodiment, when using described upper auxiliary supports 9, can by rotating described upper thread bush 9-3, described upper thread bush 9-3 is utilized to coordinate with the screw-driven of the first upper screw rod 9-1, and second upper screw rod 9-2 coordinate with the screw-driven of described upper thread bush 9-3, thus can adjust the length of described upper auxiliary supports 9, thus effectively can support described plane simulation track 15; In like manner, when using described lower auxiliary supports 10, can by rotating described lower thread bush 10-3, described lower thread bush 10-3 is utilized to coordinate with the screw-driven of first time screw mandrel 10-1, and described second time screw mandrel 10-2 coordinates with the screw-driven of described lower thread bush 10-3, thus can adjust the length of described lower auxiliary supports 10, thus effectively can support described plane test plate (panel) 16.
The above; it is only preferred embodiment of the present utility model; not the utility model is imposed any restrictions; every above embodiment is done according to the utility model technical spirit any simple modification, change and equivalent structure transformation, all still belong in the protection domain of technical solutions of the utility model.

Claims (10)

1. a submerged-arc horizontal experimental rig, it is characterized in that: comprise submerged arc transverse seam welding machine (1), supporting track (5) and the Liang Ge support post mechanism (3) be arranged on described supporting track (5), two test plate (panel)s matched with the guide wheel of submerged arc transverse seam welding machine (1) (1-1) are provided with between two described support post mechanisms (3), two described test plate (panel)s are curved surface test plate (panel) (4) or are plane test plate (panel) (16), the analog orbit for guiding the movable pulley of submerged arc transverse seam welding machine (1) (1-2) to walk is provided with between two described support post mechanisms (3), described analog orbit is curve modeling track (2) or plane simulation track (15), described analog orbit is positioned at the top of described test plate (panel), the middle part of two described support post mechanisms (3) is provided with curved surface test plate (panel) retaining mechanism (3-6) peace interview plate retaining mechanism (3-5), the top of two described support post mechanisms (3) is provided with curve modeling track locking mechanism (3-4) and plane simulation track locking mechanism (3-7).
2. a kind of submerged-arc horizontal experimental rig according to claim 1, it is characterized in that: described supporting track (5) is provided with support bar (6), described analog orbit is connected by upper auxiliary supports (9) with a described test plate (panel); Test plate (panel) described in another is connected by lower auxiliary supports (10) with support bar (6).
3. a kind of submerged-arc horizontal experimental rig according to claim 2, it is characterized in that: comprise two solder recycling boxes (8) for walking along supporting track (5), solder recycling box described in one of them (8) is arranged on the side of described support bar (6), solder recycling box described in another (8) is arranged on the opposite side of described support bar (6), two described solder recycling boxes (8) include cylinder (8-1), the bottom of described submerged arc transverse seam welding machine (1) is provided with for driving solder recycling box (8) mobile, and depart from described cylinder (8-1) elastic mechanism (7) coordinated when solder recycling box (8) touching support bar (6).
4. a kind of submerged-arc horizontal experimental rig according to claim 3, it is characterized in that: described elastic mechanism (7) comprises the sleeve (7-1) being fixedly installed on described submerged arc transverse seam welding machine (1) bottom and the expansion link (7-2) be arranged in described sleeve (7-1), the upper end of described expansion link (7-2) passes described sleeve (7-1) and is provided with anticreep block (7-3), the lower end of described expansion link (7-2) passes described sleeve (7-1) and is provided with for contacting the domed head (7-4) coordinated with described cylinder (8-1), spring (7-5) is provided with between described domed head (7-4) and described sleeve (7-1).
5. a kind of submerged-arc horizontal experimental rig according to claim 2, it is characterized in that: described upper auxiliary supports (9) comprises the first upper screw rod (9-1), second upper screw rod (9-2) and upper thread bush (9-3), the upper end of described first upper screw rod (9-1) is fixedly connected with described analog orbit, the lower end of described first upper screw rod (9-1) is threaded with described upper thread bush (9-3), the upper end of described second upper screw rod (9-2) is threaded with described upper thread bush (9-3), the lower end of described second upper screw rod (9-2) is fixedly connected with described test plate (panel), the screw thread rotation direction of described first upper screw rod (9-1) is contrary with the screw thread rotation direction of the second upper screw rod (9-2), described lower auxiliary supports (10) comprises first time screw mandrel (10-1), second time screw mandrel (10-2) and lower thread bush (10-3), the upper end of described first time screw mandrel (10-1) is fixedly connected with described test plate (panel), the lower end of described first time screw mandrel (10-1) is threaded with described lower thread bush (10-3), the upper end of described second time screw mandrel (10-2) is threaded with described lower thread bush (10-3), the lower end of described second time screw mandrel (10-2) is fixedly connected with described support bar (6), the screw thread rotation direction of described first time screw mandrel (10-1) is contrary with the screw thread rotation direction of second time screw mandrel (10-2).
6. a kind of submerged-arc horizontal experimental rig according to claim 1, is characterized in that: described supporting track (5) is made up of the bar shaped rail of two parallel layings.
7. a kind of submerged-arc horizontal experimental rig according to claim 6, is characterized in that: two described support post mechanisms (3) are all connected with described bar shaped rail by support retaining mechanism (3-8).
8. a kind of submerged-arc horizontal experimental rig according to claim 7, it is characterized in that: described support retaining mechanism (3-8) comprises two side guard plates (3-8-1) being fixedly installed on described support post mechanism (3) bottom, described bar shaped rail is arranged between two described side guard plates (3-8-1), two described side guard plates (3-8-1) is provided with and pushes up friction tight clamping screw (3-8-2) for described bar shaped trackside face.
9. a kind of submerged-arc horizontal experimental rig according to claim 1, it is characterized in that: two described support post mechanisms (3) include U-shaped base (3-1) and are arranged on the column (3-2) on described U-shaped base (3-1), described U-shaped base (3-1) is connected by hound (3-3) with the upper end of column (3-2), described curved surface test plate (panel) retaining mechanism (3-6) peace interview plate retaining mechanism (3-5) is all arranged on the middle part of described column (3-2), described curve modeling track locking mechanism (3-4) and plane simulation track locking mechanism (3-7) are all arranged on the top of described column (3-2).
10. a kind of submerged-arc horizontal experimental rig according to claim 1, it is characterized in that: described curved surface test plate (panel) retaining mechanism (3-6) comprises curved surface test plate (panel) latch and curved surface test plate (panel) location-plate, described curved surface test plate (panel) (4), between described curved surface test plate (panel) latch and described curved surface test plate (panel) location-plate, described curved surface test plate (panel) latch is provided with for pushing up friction tight curved surface test plate (panel) puller bolt with curved surface test plate (panel) (4); Described plane test plate (panel) retaining mechanism (3-5) comprises two plane test plate (panel) latch (3-5-1), described plane test plate (panel) (16) is arranged between two described plane test plate (panel) latch (3-5-1), two described plane test plate (panel) latch (3-5-1) is provided with for pushing up friction tight plane test plate (panel) puller bolt (3-5-2) with plane test plate (panel) (16); Described curve modeling track locking mechanism (3-4) comprises curve modeling track locking plate (3-4-1) and curve modeling tracks positioned plate (3-4-2), described curve modeling track (2) is arranged between curve modeling track locking plate (3-4-1) and curve modeling tracks positioned plate (3-4-2), described curve modeling track locking plate (3-4-1) is provided with for pushing up friction tight curve modeling track puller bolt (3-4-3) with curve modeling track (2); Described plane simulation track locking mechanism (3-7) comprises two plane simulation track locking plates (3-7-1), described plane simulation track (15) is arranged between two described plane simulation track locking plates (3-7-1), two described plane simulation track locking plates (3-7-1) is provided with for pushing up friction tight plane simulation track puller bolt (3-7-2) with plane simulation track (15).
CN201520733516.7U 2015-09-21 2015-09-21 A kind of submerged-arc horizontal experimental rig Active CN204934832U (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105108287A (en) * 2015-09-21 2015-12-02 中国水利水电第三工程局有限公司 Submerged arc horizontal position welding testing device
CN106670716A (en) * 2016-12-26 2017-05-17 中国核工业二三建设有限公司 Tool for automatic welding training
CN109227022A (en) * 2018-11-23 2019-01-18 重庆科技学院 Submerged-arc welding horizontal position welding position welding tooling and its clamping structure

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105108287A (en) * 2015-09-21 2015-12-02 中国水利水电第三工程局有限公司 Submerged arc horizontal position welding testing device
CN105108287B (en) * 2015-09-21 2018-05-22 中国水利水电第三工程局有限公司 A kind of submerged-arc horizontal experimental rig
CN106670716A (en) * 2016-12-26 2017-05-17 中国核工业二三建设有限公司 Tool for automatic welding training
CN109227022A (en) * 2018-11-23 2019-01-18 重庆科技学院 Submerged-arc welding horizontal position welding position welding tooling and its clamping structure

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