CN215393418U - Guide rail manufacturing workstation - Google Patents

Abstract

The utility model provides a guide rail manufacturing workstation, and belongs to the technical field of guide rail manufacturing equipment. It has solved the problem of current guide rail preparation equipment preparation guide rail inefficiency and inconvenient dismantlement guide rail. The guide rail manufacturing workstation comprises a turnover device, welding equipment and a clamping device; the two turnover devices are arranged, and the welding equipment is positioned between the two turnover devices, so that people can use the two turnover devices at the same time, namely, when two clamping devices of one turnover device are provided with guide rails, people can use the other turnover device for installing the guide rails, and thus, the efficiency of manufacturing the guide rails by people is further improved.

Description

Guide rail manufacturing workstation

Technical Field

The utility model belongs to the technical field of guide rail manufacturing equipment, and relates to a guide rail manufacturing workstation.

Background

In the field of escalators, it is a vehicle for transporting pedestrians in the form of a conveyor belt. Escalators are typically inclined. The steps automatically walking by the pedestrian on one end station of the escalator can be automatically taken to the other end of the escalator, and the steps can be kept horizontal all the way. Handrails which move synchronously with the steps are arranged at two sides of the escalator and are held by users. The escalator can always walk in one direction, but most of the escalators can control the walking direction according to the needs of time, people flow and the like. Another type of pedestrian transportation, which is very similar to escalators, is an automated Sidewalk (automated Sidewalk). The automatic pedestrian path and the automatic pedestrian path are respectively provided with no steps; most will only travel on flat ground or be slightly inclined. And the guide rail is as an important component device of staircase, only it is in stable state all the time in the use, just can guarantee this staircase can normal operating, consequently, the structural strength of guide rail is concerned with the quality of staircase, and the scheme of current preparation guide rail is directly adopted and is laid the guide rail on a board, process the guide rail again, through above-mentioned scheme, though can realize the preparation to the guide rail, this type of guide rail is after the preparation is accomplished, need demolish on this board on this guide rail, just can make another guide rail on this board again, so, the efficiency of people's preparation guide rail has greatly been reduced.

Disclosure of Invention

The utility model aims to solve the problems in the prior art and provides a guide rail manufacturing workstation which is high in guide rail manufacturing efficiency and convenient to disassemble a guide rail.

The purpose of the utility model can be realized by the following technical scheme: a rail making workstation comprising:

at least two turning devices;

the welding equipment is arranged between the two turnover devices, and two side surfaces of each turnover device are provided with clamping devices for clamping the guide rails;

after the welding equipment welds the guide rail, the clamping device upset that the turning device was accomplished the welding, and after the guide rail cooling on the clamping device was accomplished, the turning device overturns once more and releases the guide rail on this clamping device.

In the above-mentioned guide rail manufacturing workstation, each of the clamping devices includes a clamping plate installed on the turnover device, a plurality of outer clamping rods and inner clamping rods for clamping the guide rail, and a plurality of lifting rods for pushing the guide rail to move, each of the lifting rods movably penetrates through the clamping plate, and the outer clamping rods and the inner clamping rods are both installed on the clamping plate.

In the above-mentioned guide rail manufacturing workstation, each lifting rod includes a lifting rod contacting with the guide rail, one end of each lifting rod is provided with a penetrating rod movably penetrating through the clamping plate, one end of the penetrating rod far away from the lifting rod is provided with a protruding block, the penetrating rod is sleeved with a spring, one end of the spring abuts against the clamping plate, and the other end of the spring is connected with the penetrating rod.

In the above-described one of the rail making stations, each of the turning devices includes:

a base;

the shell turning device comprises a shell turning device, a base and a shell turning device, wherein the shell turning device is movably arranged above the base, and stops turning when the shell is turned for 180 degrees;

the two panels are movably mounted in the turnover shell, a push plate mechanism used for pushing the two panels to move is further arranged in the turnover shell, and when the push plate mechanism pushes the panels out, the panels push the lifting rods to move.

In the above-mentioned guide rail manufacturing workstation, the push plate mechanism includes a plurality of push plate assemblies arranged in a rectangular array, a transmission assembly for connecting each push plate assembly, and an internal motor for driving the transmission assembly to operate.

In foretell guide rail preparation workstation, every push pedal subassembly all includes the driving medium, the both ends of driving medium all are equipped with the dish that pushes away that is used for connecting corresponding panel, turn over and be equipped with the outer backup pad that is used for supporting the driving medium in the shell, be equipped with the transmission seat that is used for installing the driving medium in the outer backup pad.

In foretell guide rail preparation workstation, every drive assembly is including locating the commutator on corresponding outer brace plate, every the commutator all is located between two adjacent push pedal subassemblies, be connected through the second dowel bar between commutator and the driving medium, all be connected through first dowel bar between each commutator and the interior motor.

In foretell guide rail preparation workstation, turn over and be equipped with the drive plate that is used for installing interior motor in the shell, turn over and be equipped with two at least interior faggings in the shell, two at least movable rods are worn to be equipped with in the activity on the interior fagging, every the both ends of movable rod all are equipped with the connection pad that is used for connecting each panel.

In a foretell guide rail preparation workstation, welding equipment includes the welding seat, removes seat and welding arm, remove seat movable mounting on the welding seat, welding arm movable mounting is on removing the seat.

In the above-mentioned guide rail manufacturing workstation, be equipped with two at least slide rails that are used for guiding the directional removal of removal seat on the welded seat, the bottom of removing the seat is equipped with the stabilizer blade that corresponds the slide rail, every all be equipped with on the stabilizer blade with correspond slide rail sliding connection's slider, be equipped with the dog that is used for restricting the slider to break away from the slide rail on the welded seat.

Compared with the prior art, the utility model has the following beneficial effects:

1. the two turnover devices are arranged, and the welding equipment is positioned between the two turnover devices, so that people can use the two turnover devices at the same time, namely, when two clamping devices of one turnover device are provided with the guide rails, people can use the other turnover device to install the guide rails, and thus, the efficiency of manufacturing the guide rails by people is further improved.

2. After the guide rail on the clamping device is welded and cooled, the turnover device is turned over again, so that the guide rail is located right above the turnover device, and then the turnover device pushes out the guide rail on the clamping device, so that people can take out the guide rail on the clamping device conveniently.

3. When turning over the shell and rotating to 180, spacing subassembly will restrict to turn over the shell and continue to rotate to make people at the in-process of processing to the guide rail, should turn over the shell and can not rotate, promptly, make people can stabilize processing to the guide rail.

4. Through the cooperation of spacing subassembly, outer motor and detector for turn over the shell 180 backs in the upset, should turn over the shell and can stop the upset immediately, ensure that this turning device can be used by people's normal use.

5. After a guide rail welding was accomplished, overturn 180 with turning device to make the guide rail after the welding was accomplished be located turning device's below, and another clamping device is located turning device directly over just, so, people alright install another guide rail on second clamping device and weld this guide rail, and meanwhile, people alright carry out cooling treatment to the guide rail that is located under the turning device, so, accelerate the efficiency that people made the guide rail.

Drawings

Fig. 1 is a schematic view of the construction of the track making station of the present invention.

Fig. 2 is an assembly view of the turning device and the chucking device.

Figure 3 is an assembly view of two clamping devices in the same turning device.

Figure 4 is a side view of a clamping device.

Fig. 5 is a schematic structural view of the clamping device.

Fig. 6 is a schematic structural view of the lift lever.

Fig. 7 is a schematic structural view of the turning device.

Fig. 8 is a schematic view of the structure of fig. 7 from another view angle.

FIG. 9 is an assembly view of the pusher plate assembly and flip shell.

Fig. 10 is a schematic view of the structure of fig. 9 from another view angle.

Fig. 11 is a schematic configuration diagram of the welding apparatus.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1 to 11, a guide rail manufacturing station according to the present invention includes an overturning device 300, a welding apparatus 200, and a clamping device 100.

The guide rail manufacturing workstation comprises at least two turnover devices 300, welding equipment 200 is arranged between the two turnover devices 300, two side faces of each turnover device 300 are respectively provided with a clamping device 100 for clamping a guide rail, when the guide rail manufacturing workstation works, a user needs to place the guide rail on the clamping device 100 and then clamp the guide rail through the clamping device 100, then the user can operate the welding equipment 200 to weld the guide rail on the device, after the welding is finished, the turnover device 300 is turned over for 180 degrees, so that the welded guide rail is positioned below the turnover device 300, the other clamping device 100 is just positioned right above the turnover device 300, therefore, the user can install the other guide rail on the second clamping device 100 and weld the guide rail, and meanwhile, the user can cool the guide rail positioned right below the turnover device 300, therefore, the efficiency of making the guide rail by people is improved, and further, the two turnover devices 300 are arranged, and the welding equipment 200 is positioned between the two turnover devices 300, so that people can use the two turnover devices 300 at the same time, namely, when two clamping devices 100 of one turnover device 300 are provided with the guide rail, people can use the other turnover device 300 to install the guide rail, and therefore, the efficiency of making the guide rail by people is improved; after the cooling of the guide rail on the clamping device 100 is completed, the turnover device 300 is turned over again, so that the guide rail is located right above the turnover device 300, and then the turnover device 300 pushes out the guide rail on the clamping device 100, so that people can take out the guide rail on the clamping device 100 conveniently.

In the present invention, the guide rail includes a rail 410 and a connection plate 420, and in particular, the guide rail is welded by the rail 410 and the connection plate 420.

As shown in fig. 1 to 6, each of the clamping devices 100 includes a clamping plate 110 mounted on the turnover device 300, a plurality of outer clamping rods 111 and inner clamping rods 112 for clamping the guide rail, and a plurality of lifting rods 120 for pushing the guide rail to move, each of the lifting rods 120 movably penetrates through the clamping plate 110, the outer clamping rods 111 and the inner clamping rods 112 are mounted on the clamping plate 110, before welding the guide rail, one needs to mount the clamping plate 110 on a corresponding position of the turnover device 300, position the connecting plate 420 and the rail 410 on the corresponding clamping plate 110, and clamp the rail 410 between the plurality of outer clamping rods 111 and the corresponding inner clamping rods 112, so that the rail 410 and the connecting plate 420 are prevented from moving in a staggered manner during welding; when the rail 410 is positioned and installed on the clamping plate 110, the lifting rod 120 is stressed and moves towards the inside of the turnover device 300; after the welding of the rail 410 and the connecting plate 420 is completed, people only need to operate the turnover device 300, and the turnover device 300 can push each lifting rod 120 to move in the direction away from the turnover device 300, so that the lifting rods 120 move the welded guide rail in the direction away from the clamping plate 110 until the slide rail 211 is no longer limited by the outer clamping rod 111 and the outer clamping rod 111, and thus, people can take the guide rail away from the clamping device 100.

The clamping plates 110 are provided with a plurality of positioning rods 113, and when people install the connecting plates 420 on the corresponding clamping plates 110, the positioning rods 113 penetrate through the connecting plates 420 to realize that the connecting plates 420 are positioned and placed on the clamping plates 110.

The clamping plate 110 is detachably connected with a plurality of compression rods 170 used for pressing guide rails, when people position the connecting plate 420 on the clamping plate 110, the compression rods 170 are in threaded connection with the clamping plate 110, the compression rods 170 extrude the connecting plate 420, and therefore the connecting plate 420 can be positioned and installed on the clamping plate 110 through the matching of the positioning rods 113 and the compression rods 170.

The clamping plate 110 is provided with at least two pressing plates 130 for preventing the guide rails from moving in a dislocation manner, the rails 410 of the guide rails are clamped into the corresponding pressing plates 130, the clamping plate 110 is provided with at least two pairs of clamping rods 150 for preventing the pressing plates 130 from moving in a dislocation manner, the pressing plates 130 are clamped between the two clamping rods 150, the clamping plate 110 is provided with inner clamps 140 for pressing the pressing plates 130 onto the clamping plate 110, the clamping plate 110 is provided with a plurality of outer clamps 160 for pressing the rails 410 of the guide rails onto the clamping plate 110, when people position and mount the connecting plate 420 on the clamping plate 110 and clamp the rails 410 between the outer clamps 111 and the inner clamps 112, people need to clamp the pressing plates 130 between the two pairs of clamping rods 150 and clamp both ends of the pressing plates 130 between the two corresponding clamping plates, then, each pressing plate 130 is knocked towards the direction of the rails 410 to make the pressing plates 130 contact with the rails 410, and then the pressing plates 130 are pressed onto the clamping plate 110 through the inner clamps 140, and a certain extrusion force is provided between the pressing plate 130 and the rail 410, and the rail 410 is pressed on the clamping plate 110 by the plurality of outer clamps 160, so that the positioning and mounting of the connecting plate 420 and the rail 410 on the clamping plate 110 can be completed, and the rail 410 or the connecting plate 420 is prevented from moving in a dislocation way relative to the clamping plate 110 in the process of welding the guide rail by the welding device 200.

Each of the lifting rods 120 includes a lifting rod 121 contacting the guide rail, one end of each of the lifting rods 121 is provided with a penetrating rod 122 movably penetrating through the clamping plate 110, one end of the penetrating rod 122 far away from the lifting rod 121 is provided with a protruding block 124, the penetrating rod 122 is sleeved with a spring 123, one end of the spring 123 abuts against the clamping plate 110, and the other end of the spring 123 is connected with the penetrating rod 122, during installation, people need to movably penetrate each penetrating rod 122 through the clamping plate 110 and insert each protruding block 124 on the turnover device 300, when people position the rail 410 on the clamping plate 110, each lifting rod 121 is just under the rail 410 to contact the rail 410, when people take out the guide rail, the outer clamp 160 and the inner clamp 140 need to be opened first, the pressing plate 130 and the pressing rod 170 are detached, then the turnover device 300 is operated, and the lifting rod 121, the protruding blocks 124, the inner clamp 140, the turnover device 300 is operated, and the turnover device is turned on the basis of the protruding blocks 124, The penetrating rod 122 and the lifting rod 121 are integrally formed, so that when the turnover device 300 contacts the bump 124 and pushes the bump 124 to move, the bump 124, the penetrating rod 122 and the lifting rod 121 can simultaneously move in a direction away from the turnover device 300, meanwhile, as one end of the spring 123 is connected with one end of the penetrating rod 122 close to the bump 124, the other end of the spring 123 abuts against the clamping plate 110, so that the spring 123 is stressed and compressed to generate corresponding elastic force, thus the welded guide rail can be pushed out of the clamping plate 110, people can conveniently take the guide rail out of the clamping plate 110, when people take the guide rail out of the clamping plate 110, the turnover device 300 resets, at the moment, the penetrating rod 122 only receives the elastic force of the spring 123, so that the penetrating rod 122 drives the whole lifting rod 120 to move towards the turnover device 300, and all the bumps 124 are reset along with the turnover device 300 all the time, when the lifting rod 120 is completely reset, because the diameter of the lifting rod 121 is greater than that of the penetrating rod 122, one end of the lifting rod 121 close to the penetrating rod 122 abuts against the clamping plate 110, and meanwhile, the turnover device 300 is continuously reset, so that the turnover device 300 is separated from the bump 124, and after the turnover device 300 is completely reset, people can position and install another guide rail on the clamping plate 110 or close the guide rail manufacturing workstation.

As shown in fig. 7-10, each turnover device 300 includes a base 310 and a turnover cover 320, the turnover cover 320 is movably mounted above the base 310, and when the turnover cover 320 is turned over by 180 °, the turnover cover 320 stops turning over; the two panels 331 are movably mounted in the turnover case 320, a push plate mechanism 330 for pushing the two panels 331 to move is further arranged in the turnover case 320, before the guide rails are machined, people need to turn over the turnover case 320 to enable one of the panels 331 to face vertically upwards, because the panel 331 is always parallel to the clamping plate 110, one of the clamping plates 110 is located right above the panel 331, then the connecting plate 420 and the rail 410 which need to be machined are positioned and mounted on the clamping plate 110, then people need to weld the guide rails, after people finish machining the guide rails on the clamping plate 110, the turnover case 320 can be turned over to 180 degrees, so that the clamping plate 110 which machines the guide rails faces vertically downwards, the other clamping plate 110 which does not have the guide rails faces upwards, and the operations are repeated, therefore, people can mount a new guide rail on the clamping plate 110 which faces upwards, and at the same time, the clamping plate 110 which faces vertically downwards can be cooled, by using the turnover device 300, the machined guide rail can be cooled, and meanwhile, a new guide rail can be machined and assembled, so that the machining efficiency of the guide rail by people is effectively improved; after the guide rail on the lower clamping plate 110 is cooled, people need to rotate the turnover shell 320 by 180 degrees again, so that the cooled guide rail is vertically upward, then people can control the push plate mechanism 330 to push the panel 331 which is vertically upward at the moment upwards, and after the moving panel 331 contacts each bump 124, the panel 331 pushes the lifting rod 120 corresponding to each bump 124, so that the lifting rod 121 of the lifting rod 120 pushes the guide rail on the clamping plate 110 outwards until the guide rail is not clamped between the outer clamping rod 111 and the inner clamping rod 112 any more, thus being convenient for people to take down the cooled guide rail, repeating the above circular operation, and effectively improving the processing efficiency of people on the guide rail.

The push plate mechanism 330 includes a plurality of push plate assemblies 332 arranged in a rectangular array, a transmission assembly 333 for connecting each push plate assembly 332, and an inner motor 230334 for driving the transmission assembly 333 to operate, in operation, the inner motor 230334 drives the transmission assembly 333 to operate, and each push plate assembly 332 is connected with the transmission assembly 333, so that the transmission assembly 333 can drive each push plate assembly 332 to move, that is, the push plate assemblies 332 can push two panels 331 to move.

Each of the push plate assemblies 332 includes a transmission member 3321, two ends of the transmission member 3321 are respectively provided with a push plate 332b for connecting with a corresponding panel 331, the flip 320 is internally provided with an outer support plate 321 for supporting the transmission member 3321, the outer support plate 321 is provided with a transmission seat 332c for installing the transmission member 3321, specifically, the transmission member 3321 is formed by combining a worm wheel (not labeled in the figure) and a worm 3321a, two ends of the worm 3321a are respectively connected with the push plates 332b, during installation, one needs to engage the worm wheel with the worm 3321a and install the transmission member 3321 consisting of the worm wheel and the worm 3321a into the transmission seat 332c, and then connect the worm wheel with the transmission assembly 333, install the two push plates 332b at two ends of the worm 3321a respectively, and connect the panel 331 with each push plate 332b, so that when the transmission assembly 333 is driven by the inner motor 230334, the transmission assembly 333 drives the worm wheel to rotate, because the worm 3321a passes through the transmission seat 332c, the worm 3321a can move directionally relative to the transmission seat 332c, that is, the worm 3321a can move directionally relative to the outer supporting plate 321, that is, the worm 3321a drives the two panels 331 to move directionally.

Each of the driving assemblies 333 includes a commutator 333a provided on the corresponding outer plate 321, each of the commutators 333a is located between two adjacent push plate assemblies 332, the commutator 333a is connected with the transmission piece 3321 through a second transmission rod 333b, each commutator 333a is connected with the inner motor 230334 through a first transmission rod 334a, a driving plate 322 for mounting an internal motor 230334 is arranged in the turning shell 320, in the working process, the inner motor 230334 drives the two first transmission rods 334a to run synchronously, because one end of the first transmission rod 334a is connected with the corresponding commutator 333a, the two ends of the second transmission rod 333b are respectively connected with the corresponding worm wheel, the second transmission rod 333b passes through the corresponding commutator 333a, when the first transmission rod 334a rotates, the commutator 333a drives the second transmission rod 333b and the worm wheel to rotate, so that the worm 3321a drives the two panels 331 to move directionally; specifically, one end of the first transmission rod 334a inserted into the commutator 333a is installed with a main helical gear 232 (not labeled in the figure), the second transmission rod 333b is located inside the commutator 333a and installed with a secondary helical gear 232 (not labeled in the figure), the main helical gear 232 is meshed with the secondary helical gear 232, and thus, when the first transmission rod 334a rotates, the second transmission rod 333b can be driven to rotate through the action of the main helical gear 232 and the secondary helical gear 232, so as to drive worm gears at two ends of the second transmission rod 333b to rotate.

The turnover shell 320 is internally provided with at least two inner supporting plates 323, at least two movable rods 323a are movably arranged on the inner supporting plates 323 in a penetrating manner, two ends of each movable rod 323a are respectively provided with a connecting plate 323b used for connecting each panel 331, when the transmission piece 3321 drives the panels 331 to move, because the connecting plate 420 is connected with the corresponding panel 331, the movable rods 323a movably penetrate through the corresponding inner supporting plates 323, so that in the process that the panels 331 move relative to the turnover shell 320, the movable rods 323a also move relative to the inner supporting plates 323, thus, directional movement of the two panels 331 relative to the inner supporting plates 323 can be ensured, namely, the stability of the movement of the two panels 331 is ensured.

Be equipped with the left pillar 311 that is used for swing joint to turn over shell 320 one end on the base 310, still be equipped with the right branch 312 that is used for swing joint to turn over the shell 320 other end on the base 310, turn over and be equipped with left pivot 326 on the terminal surface that shell 320 is close to left branch 311, turn over and be equipped with right pivot 327 on the terminal surface that shell 320 is close to right branch 312, be equipped with two at least commentaries on classics cover 311b that are used for the activity to insert left pivot 326 on left branch 311 on the left branch 311, during the installation, people need with left pivot 326 movable mounting on left branch 311, and install two commentaries on classics cover 311b on left branch 311 to realize that left pivot 326 activity passes between left branch 311 and two commentaries on classics cover 311b, afterwards, with right pivot 327 movable mounting on right branch 312, so that turn over shell 320 in the in-process of upset, turn over shell 320 can use the central axis of left pivot 326 and right pivot 327 as the center to carry out circumferential direction.

The left pillar 311 is provided with a limiting component 313 for limiting the rotation of the turnover casing 320, and when the turnover casing 320 rotates to 180 degrees, the limiting component 313 limits the continuous rotation of the turnover casing 320, so that the turnover casing 320 cannot rotate in the process of processing the guide rail by people, that is, the people can stably process the guide rail.

The limiting component 313 comprises a cylinder 313a with a limiting rod 313b, two limiting plates 324 are arranged on one end face of the turnover shell 320 close to the limiting component 313, the two limiting plates 324 are symmetrical about the center of the end face, a limiting hole 324a for inserting the limiting rod 313b is arranged on each limiting plate 324, a detector 311a is arranged on the left support column 311, a detecting seat 325 is arranged on one end face of the turnover shell 320 close to the left support column 311, the detector 311a is electrically connected with the cylinder 313a, the turnover shell 320 stops rotating when the detector 311a abuts against the detecting seat 325 during rotation, at the moment, the limiting hole 324a of one limiting plate 324 and the limiting rod 313b are positioned on the same straight line, and then the cylinder 313a pushes out the limiting rod 313b until the limiting rod 313b is inserted into the limiting hole 324a of the limiting plate 324, so that the turnover shell 320 does not rotate any more, therefore, the turnover case 320 can not rotate when people process the guide rail; after the processing of the guide rail is completed, a person can operate the cylinder 313a to retract the limiting rod 313b into the cylinder 313a, then turn the flip 320 in the reverse direction by 180 °, when the flip 320 is reset to the initial position, the limiting hole 324a of the other limiting plate 324 and the limiting rod 313b are located on the same straight line, and then the cylinder 313a pushes out the limiting rod 313b again until the limiting rod 313b is inserted into the limiting hole 324a, so that the person can process the guide rail on the clamping plate 110 conveniently.

The base 310 is provided with an outer motor 230314 for driving the turnover case 320 to rotate, the outer motor 230314 is electrically connected with the detector 311a, the outer motor 230314 is provided with a rotating rod 314a, the right support 312 is provided with a coupling 312a for connecting the right rotating shaft 327 and the rotating rod 314a, when the turnover case works, the outer motor 230314 drives the rotating rod 314a to rotate, and the right rotating shaft 327 and the rotating rod 314a are connected through the coupling 312a, so that the right rotating shaft 327 rotates along with the rotating rod 314a, and therefore, the turnover case 320 can rotate in the circumferential direction by taking the central axes of the left rotating shaft 326 and the right rotating shaft 327 as the center.

As shown in fig. 11, the welding apparatus 200 includes a welding base 210, a moving base 220, and a welding arm 240, the moving base 220 is movably mounted on the welding base 210, the welding arm 240 is movably mounted on the moving base 220, at least two sliding rails 211 for guiding the moving base 220 to move directionally are disposed on the welding base 210, a support leg 221 corresponding to the sliding rail 211 is disposed at the bottom of the moving base 220, a slider 222 slidably connected to the corresponding sliding rail 211 is disposed on each support leg 221, during operation, the moving base 220 can move relative to the welding base 210, specifically, because the support leg 221 is connected to the bottom of the moving base 220, the slider 222 is connected to the support leg 221, and the slider 222 is slidably mounted on the corresponding sliding rail 211, so that when the moving base 220 moves relative to the welding base 210, the moving base 220 will move directionally along the trajectory of the sliding rail 211, and because the welding arm 240 is movably mounted on the moving base 220, the moving base 220 can drive the welding arm 240 to reach a designated position, in this way, the welding arm 240 can weld each position of the guide rail on the clamping plate 110, and the welding efficiency of the guide rail is improved.

The welding seat 210 is provided with a stopper 212 for limiting the slider 222 to be separated from the slide rail 211, when the moving plate moves to the edge of the welding seat 210, that is, when the moving block moves to the edge of the slide rail 211, the stopper 212 will block the slider 222, and because the slider 222 is connected with the corresponding support leg 221, the support leg 221 is connected with the moving plate, so that the stopper 212 limits the moving seat 220 to continue moving outwards, thereby preventing the moving seat 220 and the welding arm 240 from falling off from the welding seat 210.

Move and set up the motor 230 that has the ratch 231 on the seat 220, the ratch 231 passes and moves the seat 220, the one end of ratch 231 is equipped with the gear 232, be equipped with the rack 213 with the gear 232 meshing on the welding seat 210, when moving the relative welding seat 210 of seat 220 and move directionally, motor 230 passes through ratch 231 and drives gear 232 synchronous motion, because of gear 232 and rack 213 meshing for gear 232 carries out the meshing motion along rack 213, so, alright realize moving seat 220 and move along the orbit of slide rail 211, thereby make welding arm 240 can weld each position of guide rail.

It should be noted that all the directional indicators (such as up, down, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly.

Moreover, descriptions of the present invention as relating to "first," "second," "a," etc. are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit ly indicating a number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "connected," "secured," and the like are to be construed broadly, and for example, "secured" may be a fixed connection, a removable connection, or an integral part; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In addition, the technical solutions in the embodiments of the present invention may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination of technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

Claims (10)

1. A guide rail manufacturing workstation, comprising:

at least two turning devices;

the welding equipment is arranged between the two turnover devices, and two side surfaces of each turnover device are provided with clamping devices for clamping the guide rails;

after the welding equipment welds the guide rail, the clamping device upset that the turning device was accomplished the welding, and after the guide rail cooling on the clamping device was accomplished, the turning device overturns once more and releases the guide rail on this clamping device.

2. The guide rail manufacturing workstation of claim 1, wherein each of the clamping devices comprises a clamping plate mounted on the turnover device, a plurality of outer clamping rods and inner clamping rods for clamping the guide rail, and a plurality of lifting rods for pushing the guide rail to move, each of the lifting rods movably penetrates through the clamping plate, and the outer clamping rods and the inner clamping rods are mounted on the clamping plate.

3. The guide rail manufacturing workstation according to claim 2, wherein each lifting rod comprises a lifting rod contacting with the guide rail, a through rod movably penetrating through the clamping plate is arranged at one end of each lifting rod, a protruding block is arranged at one end of each through rod far away from the lifting rod, a spring is sleeved on each through rod, one end of each spring abuts against the clamping plate, and the other end of each spring is connected with the through rod.

4. A guide rail making station according to claim 2, wherein each of said turning devices comprises:

a base;

the shell turning device comprises a shell turning device, a base and a shell turning device, wherein the shell turning device is movably arranged above the base, and stops turning when the shell is turned for 180 degrees;

the two panels are movably mounted in the turnover shell, a push plate mechanism used for pushing the two panels to move is further arranged in the turnover shell, and when the push plate mechanism pushes the panels out, the panels push the lifting rods to move.

5. The guide rail manufacturing workstation of claim 4, wherein the push plate mechanism comprises a plurality of push plate assemblies arranged in a rectangular array, a transmission assembly for connecting each push plate assembly, and an internal motor for driving the transmission assembly to operate.

6. The guide rail manufacturing workstation of claim 5, wherein each of the push plate assemblies comprises a transmission member, two ends of the transmission member are respectively provided with a push plate for connecting a corresponding panel, an outer supporting plate for supporting the transmission member is arranged in the flip shell, and the outer supporting plate is provided with a transmission seat for mounting the transmission member.

7. The guide rail manufacturing workstation of claim 6, wherein each transmission assembly comprises a commutator arranged on the corresponding outer support plate, each commutator is arranged between two adjacent push plate assemblies, the commutator is connected with the transmission member through a second transmission rod, and each commutator is connected with the inner motor through a first transmission rod.

8. The guide rail manufacturing workstation of claim 7, wherein a driving plate for installing an internal motor is arranged in the flip shell, at least two internal supporting plates are arranged in the flip shell, at least two movable rods are movably arranged on the internal supporting plates in a penetrating manner, and connecting discs for connecting the panels are arranged at two ends of each movable rod.

9. The guide rail manufacturing workstation of claim 1, wherein the welding device comprises a welding base, a moving base and a welding arm, the moving base is movably mounted on the welding base, and the welding arm is movably mounted on the moving base.

10. The guide rail manufacturing workstation according to claim 9, wherein the welding base is provided with at least two slide rails for guiding the moving base to move directionally, the bottom of the moving base is provided with support legs corresponding to the slide rails, each support leg is provided with a slide block slidably connected to the corresponding slide rail, and the welding base is provided with a stop block for limiting the slide block to be detached from the slide rail.

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