CN220805947U - Climbing frame bottom plate assembling and welding production system - Google Patents

Abstract

The utility model discloses a climbing frame bottom plate assembling and welding production system which comprises a conveying roller way, a pretreatment device, a material inlet and outlet device and a welding device, wherein the pretreatment device, the material inlet and outlet device and the welding device are arranged along the conveying roller way, the conveying roller way comprises an upper layer roller way and a lower layer roller way, the pretreatment device comprises a preassembling platform and a preassembling limiting component, the climbing frame bottom plate comprises a supporting plate, an end plate and a connecting rod, the preassembling limiting component is used for fixing the end plate at two ends of the supporting plate, the material inlet and outlet device comprises a welding workbench, a material inlet component, a welding positioning component and a material outlet component, the material outlet device is used for fixing one side of the climbing frame bottom plate, and the material outlet component can turn over the welding workbench so that the climbing frame bottom plate slides onto the lower layer roller way. By adopting the utility model, a plurality of climbing frame base plates can be welded at the same time, the welding efficiency is higher, and the conveying distance can be saved.

Description

Climbing frame bottom plate assembling and welding production system

Technical Field

The utility model relates to the technical field of section bar production equipment, in particular to a climbing frame base plate assembling and welding production system.

Background

The modern construction industry generally uses quick-fit scaffolds to facilitate construction workers. The fast-assembling scaffold comprises a climbing frame bottom plate and a net frame, wherein the climbing frame bottom plate is arranged at the bottom of the net frame and used for workers to walk. The climbing frame base plate is generally composed of a support plate and an end plate, the end plate is arranged at the end of the support plate, and a plurality of connecting rods are generally arranged at the bottom of the support plate for strengthening the strength of the support plate. The production system of the prior climbing frame bottom plate comprises a conveying roller way and welding equipment, wherein after being preassembled, a supporting plate, an end plate and a connecting rod are placed on the conveying roller way by workers, the conveying roller way conveys the climbing frame bottom plate to the position of the welding equipment, the welding equipment is used for welding the climbing frame bottom plate, and after the welding is completed, the climbing frame bottom plate is discharged from the tail end of the conveying roller way. Because the transportation roller way is a single-layer transportation roller way, the welding equipment is arranged along the transportation roller way, and after the climbing frame bottom plates are welded, the climbing frame bottom plates continue to move to the tail end along the transportation roller way, so that the welding equipment cannot weld a plurality of climbing frame bottom plates at the same time, and the welding efficiency is lower; or after a plurality of welding equipment accomplish the welding of a plurality of climbing frame bottom plates, climbing frame bottom plate still need travel a section distance just can the ejection of compact, and the length of transportation roll table is longer like this, can't save the distance and the space of carrying.

Disclosure of utility model

The utility model aims to solve the technical problem of providing the assembling and welding production system for the climbing frame base plates, which can simultaneously weld a plurality of climbing frame base plates, has higher welding efficiency and can save the conveying distance.

In order to solve the technical problems, the utility model provides a climbing frame bottom plate assembling and welding production system which is used for assembling and welding a climbing frame bottom plate and comprises a conveying roller way, a pretreatment device, a feeding and discharging device and a welding device, wherein the pretreatment device, the feeding and discharging device and the welding device are arranged along the conveying roller way, the climbing frame bottom plate is placed on the conveying roller way to be conveyed, the conveying roller way comprises an upper layer roller way and a lower layer roller way, the pretreatment device is arranged on the side part of the upper layer roller way, the feeding and discharging device is arranged on the side parts of the upper layer roller way and the lower layer roller way, the welding device is arranged on the side part of the feeding and discharging device, and the feeding and discharging device and the welding device are distributed along the conveying roller way.

The pretreatment equipment comprises a preassembling platform and preassembling limiting assemblies, wherein the climbing frame base plate comprises a supporting plate, end plates and connecting rods, the supporting plate is arranged on the preassembling platform, the preassembling limiting assemblies are arranged at two ends of the preassembling platform, and the preassembling limiting assemblies are used for fixing the end plates at two ends of the supporting plate.

The feeding and discharging equipment comprises a welding workbench, a feeding component, a welding positioning component and a discharging component, wherein the welding workbench is arranged on the side part of an upper layer roller way, the feeding component is arranged on the upper layer roller way, the feeding component is used for pushing a climbing frame bottom plate to the welding workbench, the welding positioning component is arranged on the side part of the welding workbench, the welding positioning component comprises a side pressing mechanism and a pressing mechanism, the side pressing mechanism is arranged on two sides of the welding workbench, the pressing mechanism is arranged on one side, close to the upper layer roller way, of the welding workbench, the pressing mechanism is used for fixing one side of the climbing frame bottom plate, the discharging component is connected with the welding workbench, and the discharging component can overturn the welding workbench so that the climbing frame bottom plate slides to the lower layer roller way.

As the improvement of above-mentioned scheme, the pre-installation spacing subassembly is including locating respectively pre-installation stopper and pre-installation side pressure mechanism at pre-installation platform both ends, pre-installation side pressure mechanism includes pre-installation side briquetting and pre-installation side pressure driver, the backup pad place in pre-installation side briquetting with between the pre-installation stopper, the end plate place in the backup pad both ends, pre-installation side pressure driver can drive pre-installation side briquetting is towards pre-installation stopper removes in order to with the end plate is fixed in the backup pad.

As the improvement of above-mentioned scheme, pre-installation spacing subassembly still including locating pre-installation stopper with upset positioning mechanism on the pre-installation side briquetting, upset positioning mechanism includes actuating lever, connecting rod and supporting rod, the one end of actuating lever with the one end of connecting rod articulates mutually, the other end of connecting rod with the supporting rod articulates mutually, the supporting rod is located the upper portion of end plate, the actuating lever can make through the upset the lateral part butt of supporting rod in the inboard portion of lateral part.

As the improvement of above-mentioned scheme, pretreatment equipment still includes the pre-loading frame, the pre-loading platform is located on the pre-loading frame, the spacing subassembly of connecting rod is including locating remove the rack on the pre-loading frame, with remove rack engaged with spacing drive piece, locate remove seat on the spacing drive piece, locate spacing lift drive piece on the removal seat, locate spacing clamp on the spacing lift drive piece, remove the rack along the length direction setting of pre-loading platform, spacing drive piece can drive remove the seat along remove on the rack, spacing lift drive piece can drive spacing clamp goes up and down, spacing clamp can with the connecting rod presss from both sides tightly.

As the improvement of above-mentioned scheme, the feeding subassembly includes first feeding driving piece, locates first feeding push pedal of first feeding push driving piece expansion end, locates upper roller table below is located the feeding lift driving piece at first feeding push pedal both ends and connect in the feeding lift plate of feeding lift driving piece's expansion end, first feeding driving piece can drive first feeding push pedal will climb the frame bottom plate and push to the lateral part of upper roller table, feeding lift driving piece can drive the feeding lift plate will climb the frame bottom plate and lift.

As the improvement of above-mentioned scheme, the feeding subassembly still includes locating the second feeding driving piece on the first feeding push pedal and locate the second feeding push pedal of second feeding driving piece active end, the second feeding driving piece can drive the second feeding push pedal will climb the frame bottom plate to welding bench.

As the improvement of above-mentioned scheme, welding positioning assembly includes the support frame, the support frame is located welding bench one side's top, the mechanism of pushing down is including locating push down the driving piece on the support frame with locate push down the holding down plate of driving piece expansion end, push down the driving piece and can drive the holding down plate pushes down one side of climbing the frame bottom plate, side pressure mechanism include welding side pressure driving piece and one of them end hinge in the side pressure piece of welding side pressure driving piece expansion end, the middle part of side pressure piece hinge in on the welding side pressure driving piece casing is located welding bench both sides the welding side pressure driving piece can drive respectively the side pressure piece supports climbing frame bottom plate lateral part's upper surface and side surface.

As the improvement of above-mentioned scheme, the welding bench below is equipped with the mount, the discharging component includes the upset driving piece, the stiff end of upset driving piece articulate in on the mount, the loose end of upset driving piece articulate in be close to in the welding bench bottom one side of transportation roll table, in the welding bench bottom keep away from in the both ends of one side of transportation roll table articulate in on the mount, the upset driving piece can drive the welding bench is towards the direction upset of lower floor's roll table is so that the welded climbing frame bottom plate landing arrives in the lower floor's roll table.

As the improvement of above-mentioned scheme, the ejection of compact subassembly still includes screens driving piece and screens telescopic link, the screens driving piece is located be close to in the mount the both ends of transportation roll table one side, the screens telescopic link is located the expansion end of screens driving piece, the welding bench both ends are equipped with the locating hole, the screens driving piece can drive the screens telescopic link inserts in the locating hole.

As an improvement of the scheme, the discharging assembly further comprises a transition plate, the transition plate is arranged on one side, close to the clamping driving piece, of the lower layer roller way, the transition plate is obliquely arranged, and the transition plate is obliquely arranged from top to bottom to the direction of the lower layer roller way.

The implementation of the utility model has the following beneficial effects:

The utility model relates to a climbing frame bottom plate assembling and welding production system, which is provided with a conveying roller way, a pretreatment device, a feeding and discharging device and a welding device, wherein the pretreatment device is arranged along the conveying roller way, and is different from a traditional conveying mechanism, the conveying roller way comprises an upper layer roller way and a lower layer roller way, wherein the pretreatment device is arranged at the side part of the upper layer roller way, the pretreatment device is used for preassembling the climbing frame bottom plate, so that a supporting plate, an end plate and a connecting rod are pre-fixed together, the subsequent welding is convenient, the preassembled climbing frame bottom plate can be conveyed from the upper layer roller way to the feeding and discharging device, a feeding component of the feeding and discharging device can push the climbing frame bottom plate to a welding workbench at the side part of the upper layer roller way, the welding device can slide the welded climbing frame bottom plate to the lower layer roller way, and the upper layer roller way can continuously receive the preassembled climbing frame bottom plate, and the welded climbing frame bottom plate can be discharged from the lower layer roller way. The feeding and discharging of the climbing frame bottom plates are divided into different conveying layers, the feeding and discharging equipment and the welding equipment are distributed along the conveying roller tables, the welding equipment can weld the climbing frame bottom plates, the welding efficiency is improved, the welded climbing frame bottom plates can be discharged only by specifying positions in the lower roller tables without moving a certain distance in the upper roller tables, and conveying distance and space can be saved.

Drawings

FIG. 1 is a schematic diagram of an automatic assembling and welding production line for a climbing frame base plate;

FIG. 2 is a schematic view of the structure of the pretreatment device of the present utility model;

FIG. 3 is an enlarged view of a portion of FIG. 2A;

FIG. 4 is an enlarged view of a portion of B in FIG. 2;

FIG. 5 is a schematic view of the structure of the feed assembly of the present utility model;

FIG. 6 is a schematic structural view of the material feeding and discharging device of the present utility model;

FIG. 7 is an enlarged view of a portion of C in FIG. 6;

fig. 8 is a schematic sectional structure of the feeding and discharging apparatus of the present utility model.

Detailed Description

The present utility model will be described in further detail with reference to the accompanying drawings, for the purpose of making the objects, technical solutions and advantages of the present utility model more apparent. It is only stated that the terms of orientation such as up, down, left, right, front, back, inner, outer, etc. used in this document or the imminent present utility model, are used only with reference to the drawings of the present utility model, and are not meant to be limiting in any way.

Referring to fig. 1 and 2, the embodiment of the utility model discloses an assembling and welding production system for a climbing frame bottom plate 5, which is used for assembling and welding the climbing frame bottom plate 5, and comprises a transportation roller way 1, a pretreatment device 2, a material inlet and outlet device 3 and a welding device 4, wherein the pretreatment device 2, the material inlet and outlet device 3 and the welding device 4 are arranged along the transportation roller way 1, the climbing frame bottom plate 5 comprises a supporting plate 51, an end plate 52 and a connecting rod 53, the end plate 52 is arranged at two ends of the supporting plate 51, the connecting rod 53 is arranged at the bottom of the climbing frame bottom plate 5, the climbing frame bottom plate 5 is arranged on the transportation roller way 1 for transportation, the transportation roller way 1 comprises an upper roller way 11 and a lower roller way 12, the upper roller way 11 is arranged on the upper layer, the lower roller way 12 is arranged on the lower layer, the upper roller way 11 is used for conveying the climbing frame bottom plate 5 which is not yet welded, the lower layer 12 is used for conveying the climbing frame bottom plate 5 which is welded, and the climbing frame bottom plate 5 which is welded can be discharged in the lower layer 12. The pretreatment equipment 2 is arranged on the side part of the upper layer roller way 11, the feeding and discharging equipment 3 is arranged on the side parts of the upper layer roller way 11 and the lower layer roller way 12 so as to facilitate feeding, welding and finishing discharging of the climbing frame bottom plate 5, the welding equipment 4 is arranged on the side part of the feeding and discharging equipment 3, the number of the feeding and discharging equipment 3 and the number of the welding equipment 4 are multiple and distributed along the conveying roller way 1, the feeding and discharging equipment 3 and the welding equipment 4 can feed, weld and discharge the climbing frame bottom plate 5 simultaneously, and the discharging of the climbing frame bottom plate 5 is carried out in the lower layer roller way 12, so that the feeding and welding of the climbing frame bottom plate 5 on the upper layer roller way 11 cannot be influenced.

The pretreatment apparatus 2 comprises a preassembling platform 21 and preassembling limiting assemblies 22, wherein the supporting plate 51 is arranged on the preassembling platform 21 during preassembling, the preassembling limiting assemblies 22 are arranged at two ends of the preassembling platform 21, and the preassembling limiting assemblies 22 are used for fixing the end plates 52 at two ends of the supporting plate 51 so as to pre-fix the end plates 52.

The pre-assembled climbing frame bottom plate 5 can be transported to in the business turn over material equipment 3, business turn over material equipment 3 includes welding work platform 31, feeding subassembly 32, welding positioning assembly 33 and ejection of compact subassembly 34, welding work platform 31 is located upper roller table 11 lateral part, feeding subassembly 32 is located on the upper roller table 11, feeding subassembly 32 is used for with climbing frame bottom plate 5 propelling movement extremely on the welding work platform 31, welding positioning assembly 33 locates welding work platform 31 lateral part is used for carrying out spacing fixed to climbing frame bottom plate 5 before the welding, welding positioning assembly 33 includes side pressing mechanism and pushing down mechanism, side pressing mechanism locates welding work platform 31's both sides, side pressing mechanism is used for fixing climbing frame bottom plate 5's left and right sides, pushing down mechanism is located in the welding work platform 31 is close to one side of upper roller table 11, pushing down mechanism is used for fixing one side of climbing frame bottom plate 5 to further prevent climbing frame bottom plate 5 removes, and welding positioning assembly 33 includes side pressing mechanism and pushing down mechanism, side pressing mechanism is used for fixing climbing frame bottom plate 5, side plate 31 is located at the welding platform 31, the welding platform is connected to the welding platform 2, the welding work platform is in order to accomplish welding work platform 2, the welding work platform is welded to the bottom plate 5.

In the conventional production line, when the conveying roller way is only single-layer and is provided with a plurality of welding mechanisms, the welding mechanisms are arranged side by side and weld the climbing frame bottom plate 5, the climbing frame bottom plate 5 for completing welding needs to completely walk through the positions occupied by the welding mechanisms to discharge, and therefore, longer conveying distance and space are required after the welding mechanisms, but after the double-layer roller way is used, the lower roller way 12 can independently play a role in discharging, and the climbing frame bottom plate 5 for completing welding can be discharged at any appointed position of the lower roller way 12 without being constrained by the position of the welding equipment 4.

The embodiment of the utility model has the following beneficial effects:

The assembly and welding production system for the climbing frame bottom plate 5 is provided with a conveying roller way 1, a pretreatment device 2, a material inlet and outlet device 3 and a welding device 4, wherein the pretreatment device 2 is arranged along the conveying roller way 1, the conveying roller way 1 comprises an upper layer roller way 11 and a lower layer roller way 12, unlike a traditional conveying mechanism, the pretreatment device 2 is arranged on the side part of the upper layer roller way 11, the pretreatment device 2 is used for preassembling the climbing frame bottom plate 5, so that a supporting plate 51, an end plate 52 and a connecting rod 53 are pre-fixed together, the subsequent welding is convenient, the preassembled climbing frame bottom plate 5 can be conveyed from the upper layer roller way 11 to the material inlet and outlet device 3, a material inlet component 32 of the material inlet and outlet device 3 can push the climbing frame bottom plate 5 to a welding workbench 31 on the side part of the upper layer roller way 11, the welded climbing frame bottom plate 5 can be slid onto the lower layer roller way 12 by the material outlet component 34 of the material inlet and outlet device 3, and then the climbing frame bottom plate 5 can be continuously welded from the upper layer 11 to the lower layer roller way 12. The feeding and discharging of the climbing frame bottom plates 5 are divided into different conveying layers, the feeding and discharging equipment 3 and the welding equipment 4 are distributed along the conveying roller tables 1, the welding equipment 4 can weld the climbing frame bottom plates 5, the welding efficiency is improved, the welded climbing frame bottom plates 5 can be discharged without moving a certain distance in the upper roller tables 11, and the welding equipment can discharge only at a specified position in the lower roller tables 12, so that the conveying distance and the space can be saved.

Specifically, referring to fig. 3, the pre-assembly limiting assembly 22 includes a pre-assembly limiting block 221 and a pre-assembly side pressing mechanism 222 disposed at two ends of the pre-assembly platform 21, the pre-assembly side pressing mechanism 222 includes a pre-assembly side pressing block 2222 and a pre-assembly side pressing driver 2221, and during pre-assembly, the support plate 51 is disposed between the pre-assembly side pressing block 2222 and the pre-assembly limiting block 221, the pre-assembly limiting block 221 is a fixing member, the support plate 51 is first fixed at one end to the pre-assembly limiting block 221, then the entire support plate 51 is placed on the pre-assembly platform 21, the end plate 52 is disposed at two ends of the support plate 51, that is, at two ends of the pre-assembly side pressing block 2222 and the pre-assembly limiting block 221, and the pre-assembly side pressing driver 2221 is capable of driving the pre-assembly side pressing block 2222 to move toward the pre-assembly limiting block 221 to fix the end plate 52 to the support plate 51. The pre-loaded stop 221 can define the end plate 52 to prevent movement.

In order to further fix the end plate 52, the preassembly limiting assembly 22 further includes a turnover positioning mechanism 223 disposed on the preassembly limiting block 221 and the preassembly side pressing block 2222, the turnover positioning mechanism 223 includes a driving rod 2231, a connecting rod 2232 and a supporting rod 2233, one end of the driving rod 2231 is hinged to one end of the connecting rod 2232, the driving rod 2231 can turn over relative to the connecting rod 2232, the other end of the connecting rod 2232 is hinged to the supporting rod 2233, the supporting rod 2233 is located on the upper portion of the end plate 52, in use, the driving rod 2231 can be used to drive the connecting rod 2232 and pry the supporting rod 2233, and the driving rod 2231 can enable the side portion of the supporting rod 2233 to abut against the inner side portion of the side portion through turning over, so that the preassembly side pressing block 2222 and the supporting rod 2233 can limit the end plate 52 from two directions inside and outside.

Referring to fig. 4, the support plate 51 is in a groove shape, the connecting rod 53 is disposed in the groove, in order to fix the connecting rod 53, the pretreatment device 2 further includes a pre-loading frame 24, the pre-loading platform 21 is disposed on the pre-loading frame 24, the connecting rod limiting assembly 23 includes a moving rack 231 disposed on the pre-loading frame 24, a limiting driving member 232 engaged with the moving rack 231, a moving seat 233 disposed on the limiting driving member 232, a limiting lifting driving member 234 disposed on the moving seat 233, and a limiting clip 235 disposed on the limiting lifting driving member 234, wherein the moving rack 231 is disposed along a length direction of the pre-loading platform 21, and when the limiting driving member 232 is started, the limiting driving member 232 can drive the moving seat 233 to move along the moving rack 231, so that the limiting clip 235 is brought to a position above the connecting rod 53, and then the limiting lifting driving member 234 can drive the limiting clip 235 to descend, and the limiting clip 235 can clamp the connecting rod 53 to form a limiting effect.

Referring to fig. 5, the feeding assembly 32 includes a first feeding driving member 321, a first feeding push plate 322 disposed at a movable end of the first feeding push driving member, a feeding lifting driving member 323 disposed below the upper roller table 11 and disposed at two ends of the first feeding push plate 322, and a feeding lifting plate 324 connected to a movable end of the feeding lifting driving member 323, and when the frame base plate 5 moves to the position of the feeding assembly 32, the feeding lifting driving member 323 can drive the feeding lifting plate 324 to lift the frame base plate 5, so that the frame base plate 5 can move laterally, and then the first feeding driving member 321 can drive the first feeding push plate 322 to push the lifted frame base plate 5 to a side portion of the upper roller table 11. Further, the feeding assembly 32 further includes a second feeding driving member 325 disposed on the first feeding pushing plate 322 and a second feeding pushing plate 326 disposed at a movable end of the second feeding driving member 325, and after the first feeding driving member 321 drives the first feeding pushing plate 322 to push the climbing frame base plate 5 to the side, the second feeding driving member 325 can drive the second feeding pushing plate 326 to push the climbing frame base plate 5 located at the side of the upper roller table 11 to the welding workbench 31. The first and second feed drivers 321 and 325 can be driven simultaneously. The first feeding driving piece 321 is arranged below the upper roller way 11, so that the climbing frame bottom plate 5 can be prevented from being blocked by movement of the upper roller way 11, meanwhile, the second feeding driving piece 325 is arranged above the upper roller way 11, and the climbing frame bottom plate 5 can be prevented from being disturbed by movement of the climbing frame bottom plate 5 through reasonable height setting, so that the climbing frame bottom plate 5 can be ensured to fall into the welding workbench 31 completely.

Referring to fig. 6 and 7, the welding positioning assembly 33 includes a support frame 331, the support frame 331 is located the top of welding bench 31 one side, the mechanism of pushing down is including locating push down driving piece 332 on the support frame 331 with locate push down driving piece 332 expansion end's holding down plate 333, the support frame 331 below is equipped with dodges the space, it can get into through this dodging space to climb frame bottom plate 5 welding bench 31 climb frame bottom plate 5 and get into completely after the welding bench 31, push down driving piece 332 can drive holding down plate 333 down one side of climbing frame bottom plate 5, side pressing mechanism includes welding side pressure driving piece 334 and one end of which hinge in side pressing piece 335 of welding side pressure driving piece 334 expansion end, the middle part of side pressing piece 335 hinge in on the welding side pressure driving piece 334 casing, be located welding bench 31 both sides welding driving piece 334 can drive respectively side pressing piece supports climbing frame bottom plate 5 lateral part's upper surface and like this side pressing plate 335 can carry out spacing to the side of climbing frame bottom plate 5 side, can carry out the spacing direction to the bottom plate 333 simultaneously.

After the welding of the climbing frame bottom plate 5 is completed, in order to enable the climbing frame bottom plate 5 to move into the lower layer roller table 12, a fixing frame 35 is arranged below the welding workbench 31, the discharging assembly 34 comprises a turnover driving piece 341, the fixing end of the turnover driving piece 341 is hinged to the fixing frame 35, the turnover driving piece 341 can swing relative to the fixing frame 35, the movable end of the turnover driving piece 341 is hinged to one side, close to the transportation roller table 1, of the bottom of the welding workbench 31, the movable end of the turnover driving piece 341 can be driven to stretch, two ends, far away from one side, of the transportation roller table 1, of the bottom of the welding workbench 31 are hinged to the fixing frame 35, when the movable end of the turnover driving piece is driven to shrink, the welding workbench 31 can be turned downwards around the hinge joint of the turnover driving piece and the fixing frame 35, after the welding workbench 31 is turned downwards, the climbing frame bottom plate 5 can move towards the lower layer roller table 1 along the welding workbench 31 under the action of gravity, and therefore the welding workbench bottom plate 31 can be driven to move towards the lower layer roller table 12, and the welding workbench bottom plate 31 can be driven to move towards the lower layer roller table 12.

Referring to fig. 8, in order to prevent the welding table 31 from turning over during welding, the discharging assembly 34 further includes a clamping driving member 342 and a clamping telescopic rod 343, the clamping driving member 342 is disposed at two ends of the fixing frame 35 near one side of the transport roller table 1, the clamping telescopic rod 343 is disposed at a movable end of the clamping driving member 342, positioning holes 311 are disposed at two ends of the welding table 31, and during welding, the clamping driving member 342 can drive the clamping telescopic rod 343 to be inserted into the positioning holes 311, so as to position the welding table 31, and prevent the welding table from turning over. After the welding is completed, before the welding table 31 is turned over, the clamping driving member 342 drives the clamping telescopic rod 343 to retract, so that the welding table 31 is separated from the limiting position of the clamping telescopic rod 343, and the welding table is turned over conveniently.

In order to make the climbing frame bottom plate 5 slide down to the lower layer roller way 12 smoothly, the discharging assembly 34 further comprises a transition plate 345, the transition plate 345 is arranged at one side of the lower layer roller way 12, which is close to the clamping driving piece 342, the transition plate 345 is obliquely arranged, the transition plate 345 is inclined from top to bottom towards the direction of the lower layer roller way 12, and when the climbing frame bottom plate 5 slides down, the transition plate 345 can guide the climbing frame bottom plate 5 to the lower layer roller way 12, so that excessive collision of the climbing frame bottom plate 5 is avoided.

The foregoing is a preferred embodiment of the present utility model and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present utility model and are intended to be comprehended within the scope of the present utility model.

Claims (10)

1. The equipment welding production system for the climbing frame bottom plate is used for assembling and welding the climbing frame bottom plate and is characterized by comprising a conveying roller way, pretreatment equipment, material inlet and outlet equipment and welding equipment, wherein the pretreatment equipment, the material inlet and outlet equipment and the welding equipment are arranged along the conveying roller way;

The pretreatment equipment comprises a preassembling platform and preassembling limiting assemblies, wherein the climbing frame base plate comprises a supporting plate, end plates and connecting rods, the supporting plate is arranged on the preassembling platform, the preassembling limiting assemblies are arranged at two ends of the preassembling platform, and the preassembling limiting assemblies are used for fixing the end plates at two ends of the supporting plate;

The feeding and discharging equipment comprises a welding workbench, a feeding component, a welding positioning component and a discharging component, wherein the welding workbench is arranged on the side part of an upper layer roller way, the feeding component is arranged on the upper layer roller way, the feeding component is used for pushing a climbing frame bottom plate to the welding workbench, the welding positioning component is arranged on the side part of the welding workbench, the welding positioning component comprises a side pressing mechanism and a pressing mechanism, the side pressing mechanism is arranged on two sides of the welding workbench, the pressing mechanism is arranged on one side, close to the upper layer roller way, of the welding workbench, the pressing mechanism is used for fixing one side of the climbing frame bottom plate, the discharging component is connected with the welding workbench, and the discharging component can overturn the welding workbench so that the climbing frame bottom plate slides to the lower layer roller way.

2. The frame floor assembly welding production system of claim 1, wherein the preassembly limiting assembly comprises preassembly limiting blocks and preassembly side pressure mechanisms which are respectively arranged at two ends of the preassembly platform, the preassembly side pressure mechanisms comprise preassembly side pressing blocks and preassembly side pressure driving members, the support plates are arranged between the preassembly side pressing blocks and the preassembly limiting blocks, the end plates are arranged at two ends of the support plates, and the preassembly side pressure driving members can drive the preassembly side pressing blocks to move towards the preassembly limiting blocks so as to fix the end plates on the support plates.

3. The welding production system of claim 2, wherein the preassembly limiting assembly further comprises a turnover positioning mechanism arranged on the preassembly limiting block and the preassembly side pressing block, the turnover positioning mechanism comprises a driving rod, a connecting rod and a supporting rod, one end of the driving rod is hinged with one end of the connecting rod, the other end of the connecting rod is hinged with the supporting rod, the supporting rod is arranged on the upper portion of the end plate, and the driving rod can enable the side portion of the supporting rod to be abutted to the inner side portion of the side portion through turnover.

4. The welding production system for assembling the climbing frame bottom plates according to claim 1, wherein the pretreatment equipment further comprises a pre-loading frame, the pre-loading platform is arranged on the pre-loading frame, the connecting rod limiting assembly comprises a movable rack arranged on the pre-loading frame, a limiting driving piece meshed with the movable rack, a movable seat arranged on the limiting driving piece, a limiting lifting driving piece arranged on the movable seat, and a limiting clamp arranged on the limiting lifting driving piece, the movable rack is arranged along the length direction of the pre-loading platform, the limiting driving piece can drive the movable seat to move on the movable rack, the limiting lifting driving piece can drive the limiting clamp to lift, and the limiting clamp can clamp the connecting rod.

5. The frame floor assembly welding production system of claim 1, wherein the feed assembly comprises a first feed drive member, a first feed push plate disposed at a movable end of the first feed drive member, feed lifting drive members disposed below the upper roller bed and disposed at two ends of the first feed push plate, and feed lifting plates connected to the movable ends of the feed lifting drive members, the first feed drive member being capable of driving the first feed push plate to push the frame floor to a side portion of the upper roller bed, and the feed lifting drive member being capable of driving the feed lifting plates to lift the frame floor.

6. The creeper floor assembly welding production system of claim 5, wherein the feed assembly further includes a second feed drive located on the first feed push plate and a second feed push plate located at a movable end of the second feed drive, the second feed drive being capable of driving the second feed push plate to push the creeper floor toward the welding table.

7. The system of claim 1, wherein the welding positioning assembly comprises a support frame, the support frame is arranged above one side of the welding workbench, the pressing mechanism comprises a pressing driving piece arranged on the support frame and a pressing plate arranged at the movable end of the pressing driving piece, the pressing driving piece can drive the pressing plate to press one side of the climbing frame bottom plate downwards, the pressing mechanism comprises a welding side pressure driving piece and a side pressure block, one end of the side pressure block is hinged to the movable end of the welding side pressure driving piece, the middle part of the side pressure block is hinged to a welding side pressure driving piece shell, and the welding side pressure driving pieces arranged on two sides of the welding workbench can respectively drive the side pressure block to abut against the upper surface and the side surface of the side portion of the climbing frame bottom plate.

8. The welding production system for assembling the climbing frame bottom plate according to claim 1, wherein a fixing frame is arranged below the welding workbench, the discharging assembly comprises a turnover driving piece, a fixed end of the turnover driving piece is hinged to the fixing frame, a movable end of the turnover driving piece is hinged to one side, close to the conveying roller way, of the bottom of the welding workbench, two ends, far away from the conveying roller way, of the bottom of the welding workbench are hinged to the fixing frame, and the turnover driving piece can drive the welding workbench to turn towards the direction of the lower roller way so that the welded climbing frame bottom plate slides into the lower roller way.

9. The climbing frame bottom plate assembly welding production system according to claim 8, wherein the discharging assembly further comprises a clamping driving piece and clamping telescopic rods, the clamping driving piece is arranged at two ends of one side, close to the conveying roller way, of the fixing frame, the clamping telescopic rods are arranged at movable ends of the clamping driving piece, positioning holes are formed in two ends of the welding workbench, and the clamping driving piece can drive the clamping telescopic rods to be inserted into the positioning holes.

10. The frame floor assembly welding production system of claim 9, wherein the discharge assembly further comprises a transition plate, the transition plate is arranged on one side of the lower roller bed, which is close to the clamping driving piece, and the transition plate is obliquely arranged from top to bottom towards the direction in which the lower roller bed is located.