CN113290840A - Steel-plastic conversion 3PE baking equipment - Google Patents

Abstract

The invention provides steel-plastic conversion 3PE baking equipment, and belongs to the technical field of pipeline processing. The invention realizes the automatic transfer of the pipelines between different stations through the moving stations on the automatic transfer base with a plurality of annular lifting baking mechanisms, and each pipeline can pass through each annular lifting baking mechanism, and the plurality of annular baking mechanisms are divided into at least one preheating component and a plurality of baking components, so that the pipelines can be preheated and baked first, thereby ensuring the baking quality, shortening the baking time of the pipelines at a single baking component under the condition of certain total time for baking the pipelines, realizing the dispersion of the baking time, thereby improving the processing efficiency, in addition, each annular lifting baking mechanism can be sleeved outside the pipeline through an annular heating ring, realizing the simultaneous baking of the pipelines in the circumferential direction, avoiding the defect problems of stripes, bubbles and the like of a rubber sleeve, and ensuring the smoothness of the surface of the rubber sleeve, further improving the processing quality of the product.

Description

Steel-plastic conversion 3PE baking equipment

Technical Field

The invention relates to the technical field of pipeline processing, in particular to steel-plastic conversion 3PE baking equipment.

Background

For special pipelines such as gas pipes and the like, because the use environment is complex, a layer of rubber sleeve needs to be sleeved outside the pipeline, the pipeline is protected by the rubber sleeve, and the problems that the pipeline is easy to rust and the like after being deeply buried underground are prevented.

At present, generally for the mode of above-mentioned pipeline processing toasts for reuse roast rifle behind the artificial rubber sleeve, not only machining efficiency is low, and the work burden is heavy, moreover to the other operation of the pipeline that the weight is heavier, and use the roast rifle of high temperature, the safety risk is higher. In addition, the heat coverage range of the gun head of the baking gun is limited, so that the problem of uneven baking is easily caused in the processing process, the defects of stripes and air bubbles of the rubber sleeve are caused, the smoothness of the surface of the rubber sleeve is influenced, and the quality of a product is influenced.

Disclosure of Invention

To the above-mentioned problem that exists among the prior art, it toasts equipment to aim at providing steel-plastic conversion 3PE now, toast the mechanism with setting up automatic transportation base and a plurality of annular lift, realized the automatic transportation on different stations to the pipeline, and simultaneously, toast the mechanism through a plurality of annular lifts and realize preheating and toasting one by one, the dispersion of toasting time has been realized, shorten the toasting time of simplex structure, thereby machining efficiency has been improved, and, each annular toasts outside the mechanism can the cover locates the pipeline of treating toasting, the ascending while of pipeline circumference toasts has been realized, the gum cover defect problems such as stripe have been avoided, the bubble, the smooth degree on gum cover surface has been guaranteed, the product processing quality has been promoted.

The specific technical scheme is as follows:

steel-plastic conversion 3PE baking equipment has such characteristics that:

the automatic transfer base comprises a rack, a plurality of moving stations and a transfer driving mechanism, wherein the rack is a rectangular frame, the moving stations are arranged on two sides of the length direction of the rack in a sliding mode in two rows, the transfer driving mechanism is arranged on the rack, and the transfer driving mechanism can be selectively connected with any one moving station;

the annular lifting baking mechanism comprises at least one preheating assembly and a plurality of baking assemblies, the preheating assembly and the baking assemblies are arranged on two sides of the length direction of the rack at intervals, the preheating assembly is arranged in the front of the baking assemblies along the moving direction of the moving stations, the preheating assembly and the baking assemblies are provided with annular heating rings, and each moving station moves under the annular heating rings of the preheating assembly and the baking assemblies in sequence.

Foretell steel is moulded conversion 3PE and is toasted equipment, wherein, preheat the subassembly and toast the subassembly and all still include lifting support, lifting guide, the lift seat, the lifting rack, the lifting rotary drive ware, the lifting gear, lifting support sets up in the both sides of frame, lifting guide is vertical to be set up on lifting support, the lift seat is slided and is located on lifting guide, the lifting rack sets up on lifting support and is on a parallel with lifting guide and arranges, the lifting rotary drive ware sets up on the lift seat and installs on its rotation axis with lifting rack's lifting gear, and simultaneously, the annular heating collar is installed on the lift seat.

Foretell steel is moulded conversion 3PE and is toasted equipment, wherein, the frame includes the support body, two first guide rails, subassembly is transported at two second guide rails and both ends, the support body is rectangular frame and arranges, the support body has a processing mesa, the subassembly is transported at both ends sets up respectively on the processing mesa and is located support body length direction's both ends, two first guide rails set up in the both sides of processing mesa and are located between the subassembly is transported at both ends along the length direction of support body, two second guide rails set up respectively on the subassembly is transported at both ends, and, two second guide rails all are on a parallel with first guide rail and arrange, and simultaneously, the equal selectivity of each second guide rail is moved to the extension of first guide rail tip on.

The steel-plastic conversion 3PE baking equipment comprises an end effector, end guide rails and end sliding plates, wherein the end effector, the end guide rails and the end sliding plates are arranged at two ends of a processing table board of a frame body and are arranged in a direction perpendicular to the first guide rails; and the number of the first and second electrodes,

the end effector comprises an end rack, an end rotary driver and an end gear, the end rack is arranged on the frame body and located below the processing table board, the end rack is arranged in parallel to the end guide rail, the end rotary driver is fixedly mounted at the bottom of the end sliding plate, the end gear is fixedly mounted on a rotating shaft of the end rotary driver, and the end gear is meshed with the end rack.

Foretell steel is moulded and is converted 3PE toasts equipment, wherein, the removal station includes the sliding block, the shifting board, the support column, support platen and locating piece, the shifting board sets up in the top of first guide rail or second guide rail, the bottom of shifting board is provided with a plurality of sliding blocks, and the sliding block cunning is located on first guide rail or second guide rail, support platen parallel arrangement in the top of shifting board, the support column sets up between support platen and the shifting board and with both fixed connection, the locating piece sets up on the support platen and stretches out upwards.

The steel-plastic conversion 3PE baking equipment comprises a moving station, a sliding plate and a support bedplate, wherein the moving station further comprises an adjusting component, the adjusting component is arranged between the sliding plate and the support bedplate and comprises a rotating shaft, a ratchet wheel, a shifting tooth, a rotating disc, a connecting column, an adjusting guide rail and a limiting disc, the rotating shaft is rotatably arranged in the middle of the sliding plate, the upper end of the rotating shaft extends towards one side of the support bedplate, the lower end of the rotating shaft extends to the lower part of the sliding plate and is fixedly provided with the ratchet wheel, the shifting tooth is arranged below the sliding plate and is abutted against the ratchet wheel, meanwhile, the rotating disc is fixedly arranged at the upper end of the rotating shaft and is positioned below the support bedplate, a plurality of arc slideways which correspond to the positioning blocks one by one in an annular array are arranged on the rotating disc, each arc slideway extends outwards from the center of the rotating disc, a connecting column is arranged in each arc slideway in a sliding mode, and a plurality of first linear slideways are arranged on the support bedplate along the radial direction of the arc slideways, and a locating block is arranged in the first linear slideway in a sliding manner, the limiting disc is arranged below the supporting bedplate and above the turntable, a plurality of adjusting guide rails which are in one-to-one correspondence with the first linear slideway are arranged on the limiting disc along the radial direction of the limiting disc, the bottom of each locating block extends to the adjusting guide rails and is arranged on the corresponding adjusting guide rails in a sliding manner, a second linear slideway which is parallel to the corresponding adjusting guide rails is arranged on the limiting disc and is positioned at the side of each adjusting guide rail, and the upper end of the connecting column is connected with the locating block arranged on the corresponding adjusting guide rail in a sliding manner after penetrating through the second linear slideway.

Foretell steel is moulded conversion 3PE and is toasted equipment, wherein, transport actuating mechanism includes that first middle part drags the subassembly, the second middle part drags the subassembly and the tip drags the subassembly, first middle part drags the subassembly and the second middle part drags the subassembly to set up on the support body and be located between two rows of mobile station along the length direction of frame, the tip drags the subassembly to be provided with four, four tip drags the subassembly to set up respectively in four corners of support body both sides, and the tip drags the both ends that the subassembly is located the tip guide rail of both ends subassembly respectively and be vertical layout with the tip guide rail.

The steel-plastic conversion 3PE baking equipment comprises a first middle dragging assembly, a second middle dragging assembly, a first end fixing seat, a second longitudinal telescopic driver, a second transverse telescopic driver, a support rod and a first clamping block, wherein the first middle dragging assembly comprises a first dragging slide rail, a first dragging slide plate, an end fixing seat, the first longitudinal telescopic driver, the second transverse telescopic driver, the support rod and the first clamping block, the first dragging slide rail is arranged on a processing table board and arranged in parallel to a first guide rail, the first dragging slide plate is arranged on the first dragging slide rail in a sliding mode, the end fixing seat is arranged on the processing table board and located at one end of the first dragging slide rail, the first longitudinal telescopic driver is arranged along the first dragging slide rail, the first longitudinal telescopic driver is arranged on the first dragging slide plate, the telescopic shaft of the first longitudinal telescopic driver is connected to the end fixing seat, the first transverse telescopic driver is arranged on the first dragging slide plate and arranged perpendicular to the first guide rail, the support rod is arranged in parallel to the first guide rail and located at one side close to a moving station, a plurality of first clamping blocks are arranged on the supporting rod at intervals, and meanwhile, a first clamping groove corresponding to the first clamping blocks is formed in one side, close to the supporting rod, of each moving station.

The steel-plastic conversion 3PE baking equipment comprises a second middle dragging assembly, a second middle dragging assembly and a second middle dragging assembly, wherein the second middle dragging assembly comprises a second dragging slide rail, a second dragging slide plate, a dragging rack, a dragging gear, a dragging rotary driver and a second fixture block, the second dragging slide rail is arranged on the processing table top and is arranged in parallel with the first guide rail, the second dragging slide plate is arranged on the second dragging slide rail in a sliding manner, the dragging rack is arranged on the processing table top and is arranged in parallel with the second dragging slide rail, the dragging rotary driver is arranged on the second dragging slide plate, a dragging gear meshed with the dragging rack is arranged on a rotating shaft of the dragging rotary driver, a telescopic slide rail arranged perpendicular to the second dragging slide rail is arranged on the second dragging slide plate, meanwhile, a telescopic slide plate is arranged on the telescopic slide rail in a sliding manner, a fixture block pushing telescopic driver connected to the telescopic slide plate is further arranged on the second dragging slide plate, and a plurality of second fixture blocks are arranged on one side of the telescopic slide plate, which is close to the moving station, meanwhile, a second clamping groove corresponding to the second clamping block is formed in one side, close to the second dragging sliding rail, of each moving station.

The steel-plastic conversion 3PE baking equipment comprises an end dragging assembly, a first dragging slide rail, a first dragging slide plate, a moving gear, a moving rack, a moving rotary driver, a moving guide rail, a moving slide plate, a moving chuck and a moving telescopic driver, wherein the end dragging assembly comprises the first dragging slide rail, the moving gear, the moving rack, the moving rotary driver, the moving guide rail, the moving slide plate, the moving chuck and the moving telescopic driver, the first dragging slide rail is arranged on the side part of the processing table board and is arranged in parallel to the first dragging slide rail, the moving rotary driver is arranged on the first dragging slide plate, the rotating shaft of the moving rotary driver is provided with the moving gear meshed with the moving rack, the moving guide rail is arranged on the first dragging slide rail and is arranged in the direction perpendicular to the first guide rail, the moving slide plate is arranged on the moving guide rail in a sliding mode, the moving telescopic driver is arranged on the first dragging slide plate and is connected to the moving slide plate in a telescopic shaft, meanwhile, one side of the movable sliding plate, which is close to the movable stations, is provided with a movable clamping head, and one side of each movable station, which is close to the movable clamping head, is provided with a clamping hole corresponding to the movable clamping head.

The positive effects of the technical scheme are as follows:

the steel-plastic conversion 3PE baking equipment realizes automatic transfer of the pipeline on different stations by arranging the automatic transfer base and the plurality of annular lifting baking mechanisms arranged on the automatic transfer base, so that the pipeline can pass through each annular lifting baking mechanism in sequence, meanwhile, the plurality of annular lifting baking mechanisms are sequentially set as the preheating assembly and the plurality of baking assemblies, so that preheating can be realized, the quality of subsequent baking is ensured, the baking time can be dispersed, the baking time of the pipeline at a single baking assembly is shortened, thereby machining efficiency has been improved to, outside the pipeline of treating the stoving was located to each annular lift stoving mechanism homoenergetic cover, realized that the pipeline toasts in the ascending time of circumference, avoided the gum cover to appear defect problems such as stripe, bubble, guaranteed the smooth degree on gum cover surface, further promoted product processing quality.

Drawings

FIG. 1 is a block diagram of an embodiment of a steel-plastic conversion 3PE baking apparatus of the present invention;

FIG. 2 is a block diagram of an automatic transfer base according to a preferred embodiment of the present invention;

FIG. 3 is a structural diagram of a ring-shaped elevating baking mechanism according to a preferred embodiment of the present invention;

FIG. 4 is a block diagram of an end transfer module according to a preferred embodiment of the present invention;

FIG. 5 is a block diagram of a mobile station in accordance with a preferred embodiment of the present invention;

FIG. 6 is a block diagram of an adjustment assembly in accordance with a preferred embodiment of the present invention;

FIG. 7 is a block diagram of a first middle dragging assembly according to a preferred embodiment of the present invention;

FIG. 8 is a block diagram of a second middle dragging assembly according to a preferred embodiment of the present invention;

FIG. 9 is a block diagram of an end pull assembly in accordance with a preferred embodiment of the present invention.

In the drawings: 1. an automatic transfer base; 11. a frame; 12. moving the station; 13. a transfer drive mechanism; 111. a frame body; 112. a first guide rail; 113. a second guide rail; 114. an end transfer assembly; 121. a sliding block; 122. a slide plate; 123. a support pillar; 124. a support platen; 125. positioning blocks; 126. an adjustment assembly; 127. a first card slot; 128. a second card slot; 131. a first mid-section drag assembly; 132. a second mid-section drag assembly; 133. an end drag assembly; 1141. an end guide rail; 1142. an end slide plate; 1143. an end rack; 1144. an end rotation driver; 1261. a rotating shaft; 1262. a ratchet wheel; 1263. shifting teeth; 1264. a turntable; 1265. connecting columns; 1266. adjusting the guide rail; 1267. a limiting disc; 1311. a first dragging slide rail; 1312. a first dragging slide plate; 1313. an end fixing seat; 1314. a first longitudinal telescopic driver; 1315. a first lateral telescopic driver; 1316. a support bar; 1317. a first clamping block; 1321. a second dragging slide rail; 1322. a second dragging sliding plate; 1323. dragging the rack; 1324. a dragging gear; 1325. a drag rotation driver; 1326. a second fixture block; 1327. a telescopic slide rail; 1328. a telescopic sliding plate; 1329. the clamping block pushes the telescopic driver; 1331. a third dragging slide rail; 1332. a third dragging sliding plate; 1333. a moving gear; 1334. moving the rack; 1335. a mobile rotary drive; 1336. a moving guide rail; 1337. moving the sliding plate; 1338. moving the chuck; 1339. moving the telescopic driver; 2. an annular lifting baking mechanism; 21. an annular heating ring; 22. a lifting support; 23. a lifting guide rail; 24. a lifting seat; 25. a lifting rack; 26. a lifting rotary driver; 27. a lifting gear; 3. a limiting component; 31. a limit telescopic driver; 32. and a limiting clamping block.

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the effects of the present invention easy to understand, the following embodiments specifically describe the technical solutions provided by the present invention with reference to fig. 1 to 9, but the following contents are not to be taken as limitations of the present invention.

Fig. 1 is a structural diagram of an embodiment of the steel-plastic conversion 3PE baking equipment of the invention. As shown in fig. 1, the baking equipment for converting steel into plastic 3PE provided by this embodiment includes: automatic transport base 1 and set up a plurality of annular lift baking machine 2 on automatic transport base 1.

Fig. 2 is a structural diagram of an automatic transfer base according to a preferred embodiment of the present invention. As shown in fig. 1 and 2, the automatic transfer base 1 further includes a frame 11, a plurality of moving stations 12, and a transfer driving mechanism 13. At this time, the frame 11 is a rectangular frame, so that the frame 11 has a certain length, and meanwhile, the plurality of moving stations 12 are arranged in two rows and slidably arranged on two sides of the length direction of the frame 11, thereby ensuring that the moving stations 12 can be arranged on the frame 11 in rows, and providing conditions for realizing the cyclic movement of the moving stations 12 on the frame 11. And, will transport actuating mechanism 13 and set up on frame 11, and transport actuating mechanism 13 optional connection arbitrary removal station 12, make when removing station 12 and need remove, transport actuating mechanism 13 can select to be connected with this removal station 12, thereby drive this removal station 12 and remove in frame 11, realize removing the circulation of station 12 on frame 11, whole journey need not artifical the intervention, has lightened operator's work burden, and the security has improved, and simultaneously, the machining efficiency has been improved.

FIG. 3 is a structural diagram of a ring-shaped lifting/lowering baking mechanism according to a preferred embodiment of the present invention. As shown in fig. 1 and 3, the annular lifting baking mechanisms 2 are provided with a plurality of annular lifting baking mechanisms 2, and each of the plurality of annular lifting baking mechanisms 2 comprises at least one preheating assembly and a plurality of baking assemblies. At this moment, will preheat the subassembly and toast the subassembly interval and set up in the length direction's of frame 11 both sides, realized preheating the subassembly and toasting the installation of subassembly in frame 11, and can adapt to the corresponding demand that is two rows of mobile station 12 of arranging. And, on the moving direction of moving station 12, preheat the subassembly and set up in the place ahead of toasting the subassembly, make each moving station 12 all need pass through earlier the subassembly of preheating at the removal in-process, then pass through a plurality of subassemblies of toasting in proper order again, thereby make each pipeline all carry out preheating operation before toasting, the effect of follow-up toasting has effectively been guaranteed, the processing quality has been promoted, and simultaneously, when the pipeline toasted under the certain condition of total time, the dwell time of pipeline in single subassembly department of toasting has been shortened, the dispersion of toasting time has been realized, the machining efficiency is further improved. And, preheat the subassembly and toast the subassembly and all have annular heating ring 21, and, each removal station 12 all passes through the annular heating ring 21 below of preheating the subassembly and toasting the subassembly in proper order at the removal in-process, make preheat the subassembly and toast the outside that the subassembly can locate the pipeline on the removal station 12 through its below through its annular heating ring 21 cover, make the pipeline can evenly preheat and toast in the course of working in circumference, avoid appearing the gum cover surface and have the stripe, surface defect problems such as bubble, the processing quality of product has further been promoted.

More specifically, the preheating assembly and the baking assembly include a lifting bracket 22, a lifting guide rail 23, a lifting seat 24, a lifting rack 25, a lifting rotary driver 26 and a lifting gear 27 in addition to the annular heating ring 21. At this time, the lifting bracket 22 is vertically disposed at two sides of the frame 11, and can correspond to the two rows of moving stations 12, meanwhile, the lifting rail 23 is vertically disposed on the lifting bracket 22, the lifting seat 24 is slidably disposed on the lifting rail 23, so that the lifting seat 24 can be seated on the lifting rail 23 for lifting movement, and the lifting rack 25 is disposed on the lifting bracket 22 and is parallel to the lifting rail 23, the lifting rotary driver 26 is disposed on the lifting seat 24, and the lifting gear 27 engaged with the lifting rack 25 is mounted on the rotating shaft 1261 of the lifting rotary driver 26, so that the lifting rotary driver 26 can drive the lifting seat 24 to be lifted on the lifting rail 23 through the cooperation of the lifting gear 27 and the lifting rack 25, and at the same time, the annular heating ring 21 is mounted on the lifting seat 24, i.e. the lifting rotary driver 26 can drive the annular heating ring 21 to be lifted, when the pipeline is located to the annular heating ring 21 cover, the annular heating ring 21 can be repeatedly lifted, preheated and baked, so that the pipeline can be uniformly heated in the axial direction, and the processing quality is further improved.

More specifically, the frame 11 further includes a frame body 111, two first guide rails 112, two second guide rails 113, and two end transfer assemblies 114. At this time, the frame body 111 is a rectangular frame, and the frame body 111 has a processing platform, and provides a mounting carrier for the first guide rail 112, the second guide rail 113 and a part of the structure of the end transfer assembly 114 through the processing platform. The two end transfer assemblies 114 are respectively arranged on the processing table top and located at two ends of the length direction of the frame body 111, the two first guide rails 112 are arranged on two sides of the processing table top along the length direction of the frame body 111 and located between the two end transfer assemblies 114, so that the two end transfer assemblies 114 and the two first guide rails 112 can be enclosed into a rectangular structure, meanwhile, the two second guide rails 113 are respectively arranged on the two end transfer assemblies 114, so that the corresponding second guide rails 113 can be conveyed to the first guide rails 112 at the other side from the first guide rails 112 at one side through the end transfer assemblies 114, and the movement of the second guide rails 113 between the two first guide rails 112 is realized. Moreover, the two second guide rails 113 are arranged parallel to the first guide rail 112, and each second guide rail 113 can be selectively moved to the extension direction of the end of the first guide rail 112, that is, when the second guide rail 113 is moved to one of the first guide rails 112, the second guide rail 113 can be integrally connected with the first guide rail 112, so that a condition is provided for the subsequent moving station 12 to be transferred between the first guide rail 112 and the second guide rail 113 to realize the cyclic movement of the moving station 12.

FIG. 4 is a block diagram of an end transfer module according to a preferred embodiment of the present invention. As shown in fig. 1, 2 and 4, the end transfer assembly 114 further includes an end effector, an end guide 1141 and an end slider 1142, the end guide 1141 is disposed at two ends of the processing table of the frame 111 and is arranged along a direction perpendicular to the first guide rails 112, the two ends of the end guide 1141 extend toward the two first guide rails 112 respectively, and meanwhile, the end slider 1142 is slidably disposed on the end guide 1141, so that the end slider 1142 can move between the two first guide rails 112. And, the end effector is disposed below the processing table to avoid the end effector from being disposed to affect the movement of the end slide 1142. Moreover, the end effector is connected to the bottom of the end slider 1142, so that the end slider 1142 can be driven by the end effector to move on the end guide rail 1141, and meanwhile, the second guide rail 113 is disposed on the end slider 1142, so that the second guide rail 113 can be transferred between the two first guide rails 112 along with the end slider 1142, thereby realizing selective connection between the second guide rail 113 and the two first guide rails 112.

More specifically, the end effector includes an end rack 1143, an end rotary drive 1144, and an end gear. At this time, the end rack 1143 is disposed on the frame body 111 and below the processing table, so as to avoid interference with the movement of the end slide 1142 disposed on the processing table on the end guide rail 1141. Moreover, the end rack 1143 is arranged parallel to the end guide rail 1141, the end rotary driver 1144 is fixedly mounted at the bottom of the end sliding plate 1142, the end gear is fixedly mounted on the rotating shaft 1261 of the end rotary driver 1144, and the end gear is meshed with the end rack 1143, so that the end rotary driver 1144 can drive the end gear to move on the end rack 1143, the end sliding plate 1142 is driven to move upwards at the end, the second guide rail 113 is selectively contacted with one of the two first guide rails 112, and conditions are provided for realizing the transfer of the mobile station 12 between the two first guide rails 112 through the second guide rail 113.

FIG. 5 is a block diagram of a mobile station according to a preferred embodiment of the present invention. As shown in fig. 1, 2 and 5, each moving station 12 further includes a sliding block 121, a sliding plate 122, a supporting column 123, a supporting platen 124 and a positioning block 125. At this time, the sliding plate 122 is disposed above the first guide rail 112 or the second guide rail 113, and meanwhile, a plurality of sliding blocks 121 are disposed at the bottom of the sliding plate 122, and the sliding blocks 121 are slidably disposed on the first guide rail 112 or the second guide rail 113, so that the sliding plate 122 can slide on the first guide rail 112 or the second guide rail 113 through the sliding blocks 121. Meanwhile, the supporting platen 124 is arranged above the sliding plate 122 in parallel, and the supporting column 123 is arranged between the supporting platen 124 and the sliding plate 122 and fixedly connects the supporting platen 124 and the sliding plate 122, so that the supporting platen 124 can be fixedly installed on the sliding plate 122 through the supporting column 123, and a placement foundation is provided for placing the pipeline through the supporting platen 124. In addition, the positioning block 125 is arranged on the support platen 124 and extends upwards, so that after the pipeline is placed on the support platen 124, the positioning block 125 can extend into the pipeline, the pipeline is positioned and fixed through the positioning block 125, the stability of clamping the pipeline on the moving station 12 is ensured, conditions are provided for driving the pipeline to move by the subsequent moving station 12, and the safety guarantee performance is higher.

FIG. 6 is a block diagram of an adjustment assembly in accordance with a preferred embodiment of the present invention. As shown in fig. 1, 2, 5 and 6, each moving station 12 is further provided with an adjusting assembly 126, and the adjusting assembly 126 is disposed between the sliding plate 122 and the supporting platen 124. At this time, the adjusting assembly 126 further includes a rotating shaft 1261, a ratchet wheel 1262, a set tooth 1263, a rotating disc 1264, a connecting column 1265, an adjusting guide rail 1266 and a limiting disc 1267. And, pivot 1261 rotates and installs in the middle part of shifting board 122 for pivot 1261 can rotate on shifting board 122, and, the upper end of pivot 1261 extends towards support platen 124 one side, the lower extreme of pivot 1261 extends to the below of shifting board 122 and a fixed mounting has a ratchet 1262, simultaneously, set up dialling tooth 1263 in the below of shifting board 122 and lean on ratchet 1262, make the operator can drive ratchet 1262 through dialling tooth 1263 and rotate, thereby drive pivot 1261 rotates, and also can pass through the rotation of dialling tooth 1263 restriction ratchet 1262, realize the lock of pivot 1261 rotation direction, improve the security of structure. Meanwhile, the rotating plate 1264 is fixedly installed at the upper end of the rotating shaft 1261 and located below the supporting platen 124, so that the rotating shaft 1261 can drive the rotating plate 1264 to rotate. Meanwhile, a plurality of arc-shaped slideways corresponding to the positioning blocks 125 one by one are arranged in an annular array on the turntable 1264, each arc-shaped slideway extends outwards from the center of the turntable 1264, so that the distances between different positions in each arc-shaped slideway and the center of each arc-shaped slideway are different, meanwhile, a connecting column 1265 is arranged in each arc-shaped slideway in a sliding manner, a plurality of first linear slideways are radially arranged on the support bedplate 124 along the support bedplate, a positioning block 125 is arranged in each first linear slideway in a sliding manner, so that the positioning block 125 can slide in the corresponding first linear slideway, the position of the positioning block 125 on the support bedplate 124 is adjusted, the clamping of pipelines with different pipe diameters is realized, and the adaptability is improved. In addition, the limiting disc 1267 is arranged below the supporting platen 124 and above the rotating disc 1264, a plurality of adjusting guide rails 1266 corresponding to the first linear slide ways one by one are arranged on the limiting disc 1267 along the radial direction, the bottom of each positioning block 125 extends to the adjusting guide rails 1266 and is arranged on the corresponding adjusting guide rails 1266 in a sliding manner, a guide is provided for the movement of the positioning block 125 in the first linear slide way through the adjusting guide rails 1266 on the limiting disc 1267, meanwhile, a second linear slide way parallel to the corresponding adjusting guide rail 1266 is arranged on the limiting disc 1267 and at the side of each adjusting guide rail 1266, the upper end of the connecting column 1265 passes through the second linear slide way and is connected with the positioning block 125 arranged on the corresponding adjusting guide rail 1266 in a sliding manner, namely, when the ratchet wheel 1262 is driven by an operator through the shifting tooth 1263 to rotate, the rotating disc 1264 rotates along with the rotating shaft 1261, the lower end of the connecting column 1265 moves in the corresponding arc-shaped slide way, and the middle part of spliced pole 1265 removes in the second straight line slide of spacing dish 1267 to make spliced pole 1265 drive locating piece 125 and remove on adjusting guide rail 1266, realize the regulation of locating piece 125 position on supporting platen 124, thereby the clamping of the pipeline of adaptation different specifications, the structure flexibility is higher, and the adaptability is better.

More specifically, the transfer driving mechanism 13 of the rack 11 further includes a first middle dragging assembly 131, a second middle dragging assembly 132 and an end dragging assembly 133. At this time, the first middle dragging assembly 131 and the second middle dragging assembly 132 are arranged on the frame body 111 along the length direction of the rack 11 and located between the two rows of moving stations 12, dragging of one row of moving stations 12 is achieved through the first middle dragging assembly 131, dragging of the other row of moving stations 12 is achieved through the second middle dragging assembly 132, and the moving stations 12 slide on the two first guide rails 112. In addition, the end dragging assemblies 133 are four, and the four end dragging assemblies 133 are respectively arranged at four corners of two sides of the frame 111, so that the moving station 12 can be dragged to the second guide rail 113 connected with the first guide rail 112 from the first guide rail 112 or dragged to the first guide rail 112 connected with the second guide rail 113 from the second guide rail 113 through the end dragging assemblies 133, and therefore the moving station 12 can be transferred between the two first guide rails 112. Moreover, the end dragging assemblies 133 are respectively located at two ends of the end guide rails 1141 of the two end assemblies and are arranged perpendicular to the end guide rails 1141, that is, the end dragging assemblies 133 only act between the first guide rail 112 and the second guide rail 113, so as to realize the movement of the moving station 12 between the first guide rail 112 and the second guide rail 113.

FIG. 7 is a block diagram of a first middle dragging assembly according to a preferred embodiment of the present invention. As shown in fig. 1, 2 and 7, the first middle dragging assembly 131 further includes a first dragging sliding rail 1311, a first dragging sliding plate 1312, an end fixing seat 1313, a first longitudinal telescopic driver 1314, a first transverse telescopic driver 1315, a supporting rod 1316 and a first latch 1317. At this time, the first dragging slide rail 1311 is disposed on the processing platform and is parallel to the first guide rail 112, and the first dragging slide plate 1312 is slidably disposed on the first dragging slide rail 1311, so that the first dragging slide plate 1312 can move on the first dragging slide rail 1311, meanwhile, the end fixing seat 1313 is disposed on the processing platform and is located at one end of the first dragging slide rail 1311, the first longitudinal telescopic driver 1314 is disposed along the first dragging slide rail 1311, and the first longitudinal telescopic driver 1314 is disposed on the first dragging slide plate 1312 and its telescopic shaft is connected to the end fixing seat 1313, so that the first longitudinal telescopic driving can drive the first dragging slide plate 1312 to move on the first dragging slide rail 1311 along the length direction of the first guide rail 112, thereby providing conditions for the subsequent driving of the mobile station 12 to move on the first guide rail 112. And, a first transversely-extending driver 1315 is disposed on the first dragging sliding plate 1312 and is arranged along a direction perpendicular to the first guide rail 112, and a support rod 1316 is arranged parallel to the first guide rail 112 and is arranged at a side close to the moving station 12, so that the support rod 1316 can move away from the moving station 12 or close to the moving station 12 under the action of the first transversely-extending driver 1315. Moreover, a plurality of first clamping blocks 1317 are arranged on the support rod 1316 at intervals, and a first clamping groove 127 corresponding to the first clamping block 1317 is formed in one side of each mobile station 12 close to the support rod 1316, that is, when the support rod 1316 drives the first clamping block 1317 to move towards the mobile station 12, the first clamping block 1317 can be clamped into the first clamping groove 127, so that the first longitudinal telescopic driver 1314 can drive the mobile station 12 to move on the first guide rail 112, thereby realizing the position switching of the processing stations, and when the first clamping block 1317 is separated from the first clamping groove 127, the mobile station 12 cannot move on the first guide rail 112, thereby ensuring the smooth proceeding of the preheating process.

FIG. 8 is a diagram of a second middle dragging assembly according to a preferred embodiment of the present invention. As shown in fig. 1, 2 and 8, the second middle dragging assembly 132 further includes a second dragging sliding rail 1321, a second dragging sliding plate 1322, a dragging rack 1323, a dragging gear 1324, a dragging rotary driver 1325 and a second clamping block 1326. At this time, the second dragging sliding rail 1321 is disposed on the processing platform and parallel to the first guiding rail 112, and the second dragging sliding plate 1322 is slidably disposed on the second dragging sliding rail 1321, so that the second dragging sliding plate 1322 can move on the second dragging sliding rail 1321. Meanwhile, the dragging rack 1323 is disposed on the processing platform and is parallel to the second dragging slide rail 1321, the dragging rotary driver 1325 is disposed on the second dragging slide plate 1322, and the rotating shaft 1261 of the dragging rotary driver 1325 is provided with a dragging gear 1324 engaged with the dragging rack 1323, so that the dragging rotary driver 1325 can drive the dragging gear 1324 to move on the dragging rack 1323, and the second dragging slide plate 1322 is driven to move on the second dragging slide rail 1321 along the length direction of another first guide rail 112, thereby providing a condition for moving the station 12 on the first guide rail 112. Moreover, a telescopic slide rail 1327 arranged perpendicular to the second dragging slide rail 1321 is arranged on the second dragging slide plate 1322, meanwhile, a telescopic slide plate 1328 is arranged on the telescopic slide rail 1327 in a sliding manner, a fixture block pushing telescopic driver 1329 connected to the telescopic slide plate 1328 is further arranged on the second dragging slide plate 1322, a plurality of second fixture blocks 1326 are arranged on one side of the telescopic slide plate 1328 close to the moving stations 12, meanwhile, a second fixture slot 128 corresponding to the second fixture block 1326 is arranged on one side of each moving station 12 close to the second dragging slide rail 1321, so that when the fixture block pushing telescopic driver 1329 drives the second fixture block 1326 to be clamped into the second fixture slot 128 through the telescopic slide plate 1328, the moving station 12 is driven to move on the first guide rail 112 by dragging the rotary driver 1325, and when the fixture block pushing telescopic driver 1329 drives the second fixture block 1326 to be separated from the second fixture slot 128, the moving station 12 is stabilized on the first guide rail 112, provides conditions for baking the pipeline.

FIG. 9 is a block diagram of an end pull assembly in accordance with a preferred embodiment of the present invention. As shown in fig. 1, 2 and 9, the end dragging assembly 133 further includes a third dragging sliding rail 1331, a third dragging sliding plate 1332, a moving gear 1333, a moving rack 1334, a moving rotating driver 1335, a moving guide rail 1336, a moving sliding plate 1337, a moving chuck 1338 and a moving telescopic driver 1339. At this time, the third dragging slide rail 1331 is disposed at the side of the processing platform and is parallel to the second guide rail 113, and the third dragging slide rail 1331 is located between the first guide rail 112 and the second guide rail 113, so as to provide conditions for the subsequent transfer of the moving station 12 between the first guide rail 112 and the second guide rail 113. And, the third dragging slide plate 1332 is slidably disposed on the third dragging slide rail 1331, so that the third dragging slide plate 1332 can move on the third dragging slide rail 1331, meanwhile, the moving rack 1334 is disposed at the side of the processing table and is parallel to the third dragging slide rail 1331, the moving rotary driver 1335 is disposed on the third dragging slide plate 1332, and the rotating shaft 1261 thereof is mounted with a moving gear 1333 engaged with the moving rack 1334, so that the moving rotary driver 1335 drives the moving gear 1333 to move on the moving rack 1334, thereby driving the third dragging slide plate 1332 to move on the third dragging slide rail 1331. And, a moving guide 1336 is provided on the third dragging sliding plate 1332 and is arranged in a direction perpendicular to the second guide 113, a moving sliding plate 1337 is slidably provided on the moving guide 1336, a moving telescopic driver 1339 is installed on the third dragging sliding plate 1332 and its telescopic shaft is connected to the moving sliding plate 1337, so that the moving telescopic driver 1339 can move the moving slide 1337 on the moving guide 1336 in a direction perpendicular to the second guide 113, meanwhile, one side of the movable sliding plate 1337, which is close to the movable stations 12, is provided with a movable clamp 1338, one side of each movable station 12, which is close to the movable clamp 1338, is provided with a clamping hole corresponding to the movable clamp 1338, so that after the mobile slide 1337 is moved to drive the mobile chuck 1338 into the chuck hole of the mobile station 12, the moving station 12 can be driven to move between the first guide rail 112 and the second guide rail 113 through the moving rotary driver 1335, and conditions are provided for realizing the cyclic movement of the moving station 12. It should be noted that the clamping hole on the moving station 12 may be the first clamping groove 127 or the second clamping groove 128, so that the existing structure is utilized, and the processing cost and the processing burden are reduced.

As a preferred embodiment, the side of the rack 11 is further provided with a plurality of limiting assemblies 3, each limiting assembly 3 includes a limiting telescopic driver 31 and a limiting clamping block 32, each limiting clamping block 32 is installed in each limiting telescopic driver 31, and each limiting clamping block 32 can be matched with the first clamping groove 127 and/or the second clamping groove 128, so that when the mobile station 12 needs to be stationary, the limiting clamping blocks 32 can be driven by the limiting telescopic drivers 31 to be clamped into the first clamping grooves 127 and/or the second clamping grooves 128, the mobile station 12 is prevented from moving on the first guide rail 112, and safety and security are higher.

The baking equipment for converting steel into plastic and 3PE provided by the embodiment comprises an automatic transfer base 1 and a plurality of annular lifting baking mechanisms 2; the plurality of annular lifting baking mechanisms 2 are arranged on two sides of the automatic transfer base 1, automatic transfer of pipelines between different stations is achieved through the moving stations 12 on the automatic transfer base 1, each pipeline can pass through each annular lifting baking mechanism 2, the annular lifting baking mechanisms 2 are divided into at least one preheating assembly and a plurality of baking assemblies, the pipelines can be preheated firstly and then baked, baking quality is guaranteed, baking time of the pipelines at a single baking assembly can be shortened under the condition that the total baking time of the pipelines is constant, dispersion of baking time is achieved, machining efficiency is improved, in addition, each annular lifting baking mechanism 2 can be sleeved outside the pipelines through the annular heating rings 21, circumferential simultaneous baking of the pipelines is achieved, and stripes of rubber sleeves are avoided, The smooth degree of the surface of the rubber sleeve is ensured due to the defects of air bubbles and the like, and the processing quality of the product is further improved.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention.

Claims (10)

1. Steel is moulded and is converted 3PE and toast equipment, its characterized in that includes:

the automatic transfer base comprises a frame, a plurality of moving stations and a transfer driving mechanism, wherein the frame is a rectangular frame, the moving stations are arranged on two rows of two sides of the length direction of the frame in a sliding manner, the transfer driving mechanism is arranged on the frame, and the transfer driving mechanism can be selectively connected with any one moving station;

annular lift toasts mechanism, annular lift toasts mechanism includes that at least one preheats subassembly and a plurality of subassembly that toasts, preheat the subassembly with toast the subassembly interval set up in the length direction's of frame both sides, and follow on the direction of movement of removal station, preheat the subassembly set up in toast the place ahead of subassembly, and, preheat the subassembly with toast the subassembly and all have the annular heating circle, and, each it all passes through in proper order to remove the station in the removal process preheat the subassembly with toast the subassembly annular heating circle below.

2. The steel-plastic conversion 3PE baking equipment according to claim 1, wherein each of the preheating assembly and the baking assembly further comprises a lifting support, a lifting guide rail, a lifting seat, a lifting rack, a lifting rotary driver and the lifting gear, the lifting support is arranged on two sides of the rack, the lifting guide rail is vertically arranged on the lifting support, the lifting seat is slidably arranged on the lifting guide rail, the lifting rack is arranged on the lifting support and is parallel to the lifting guide rail, the lifting rotary driver is arranged on the lifting seat and is provided with the lifting gear meshed with the lifting rack on a rotating shaft, and meanwhile, the annular heating ring is arranged on the lifting seat.

3. The steel-plastic conversion 3PE baking equipment according to claim 1, wherein the frame comprises a frame body, two first guide rails, two second guide rails and two end transfer assemblies, the frame body is a rectangular frame and is arranged, the frame body is provided with a processing table board, two the end transfer assemblies are respectively arranged on the processing table board and are located at two ends of the length direction of the frame body, two the first guide rails are arranged along the length direction of the frame body in two sides of the processing table board and located in two between the end transfer assemblies, two the second guide rails are respectively arranged on the end transfer assemblies, and two the second guide rails are all parallel to the first guide rails are arranged, and simultaneously, each of the second guide rails can be selectively moved to the extension direction of the end parts of the first guide rails.

4. The steel-plastic conversion 3PE baking equipment according to claim 3, wherein the end transfer assembly comprises end effectors, end guide rails and end slide plates, the end guide rails are arranged at two ends of the processing table of the frame body and are arranged along a direction perpendicular to the first guide rails, the two ends of the end guide rails extend towards the two first guide rails respectively, the end slide plates are slidably arranged on the end guide rails, meanwhile, the end effectors are arranged below the processing table, the end effectors are connected with the bottoms of the end slide plates, and the second guide rails are arranged on the end slide plates; and the number of the first and second electrodes,

the end effector comprises an end rack, an end rotary driver and an end gear, the end rack is arranged on the frame body and located below the processing table board, the end rack is arranged in parallel to the end guide rail, the end rotary driver is fixedly installed at the bottom of the end sliding plate, the end gear is fixedly installed on a rotating shaft of the end rotary driver, and the end gear is meshed with the end rack.

5. The steel-plastic conversion 3PE baking equipment according to claim 1, wherein the moving station comprises a sliding block, a sliding plate, a supporting column, a supporting platen and a positioning block, the sliding plate is arranged above the first guide rail or the second guide rail, a plurality of sliding blocks are arranged at the bottom of the sliding plate and are arranged on the first guide rail or the second guide rail in a sliding manner, the supporting platen is arranged above the sliding plate in a parallel manner, the supporting column is arranged between the supporting platen and the sliding plate and fixedly connects the supporting platen and the sliding plate, and the positioning block is arranged on the supporting platen and extends upwards.

6. The steel-plastic conversion 3PE baking equipment according to claim 5, wherein the moving station further comprises an adjusting assembly, the adjusting assembly is arranged between the sliding plate and the supporting platen, the adjusting assembly comprises a rotating shaft, a ratchet wheel, a shifting tooth, a rotating disc, a connecting column, an adjusting guide rail and a limiting disc, the rotating shaft is rotatably mounted in the middle of the sliding plate, the upper end of the rotating shaft extends towards one side of the supporting platen, the lower end of the rotating shaft extends below the sliding plate and is fixedly provided with the ratchet wheel, the shifting tooth is arranged below the sliding plate and is abutted against the ratchet wheel, meanwhile, the rotating disc is fixedly mounted at the upper end of the rotating shaft and is positioned below the supporting platen, and the rotating disc is provided with a plurality of arc-shaped slideways in one-to-one correspondence with the positioning blocks in an annular array, each arc-shaped slideway extends outwards from the center of the turntable, the connecting column is arranged in each arc-shaped slideway in a sliding way, a plurality of first linear slideways are arranged on the supporting bedplate along the radial direction of the supporting bedplate, and the first linear slideway is internally provided with the positioning block in a sliding way, the limiting disc is arranged below the supporting bedplate and above the turntable, a plurality of adjusting guide rails which are in one-to-one correspondence with the first linear slide rails are arranged on the limiting disc along the radial direction of the limiting disc, the bottom of each positioning block extends to the adjusting guide rails and is arranged on the corresponding adjusting guide rails in a sliding manner, and a second linear slideway parallel to the corresponding adjusting guide rail is arranged on the limiting disc and positioned at the side of each adjusting guide rail, the upper end of the connecting column penetrates through the second linear slide rail and then is connected with the corresponding positioning block which is arranged on the adjusting guide rail in a sliding manner.

7. The steel is moulded and is converted 3PE toasting equipment according to claim 4, characterized in that, transport actuating mechanism includes that first middle part drags the subassembly, second middle part drags the subassembly and the tip drags the subassembly, first middle part drags the subassembly and second middle part drags the subassembly to be followed the length direction of frame set up in on the support body and be located two rows between the removal station, the tip drags the subassembly to be provided with four, four the tip drags the subassembly set up respectively in four corners of support body both sides, just the tip drags the subassembly to be located two respectively the tip subassembly the both ends of tip guide rail and with the tip guide rail is vertical arrangement.

8. The steel-plastic conversion 3PE baking equipment according to claim 7, wherein the first middle dragging assembly comprises a first dragging slide rail, a first dragging slide plate, an end fixing seat, a first longitudinal telescopic driver, a first transverse telescopic driver, a support rod and a first fixture block, the first dragging slide rail is arranged on the processing table top and arranged parallel to the first guide rail, the first dragging slide plate is slidably arranged on the first dragging slide rail, the end fixing seat is arranged on the processing table top and located at one end of the first dragging slide rail, the first longitudinal telescopic driver is arranged along the first dragging slide rail, the first longitudinal telescopic driver is arranged on the first dragging slide plate and connected with the end fixing seat through a telescopic shaft, the first transverse telescopic driver is arranged on the first dragging slide plate and arranged perpendicular to the first guide rail, the bracing piece is on a parallel with first guide rail is arranged and is located and is close to one side of moving the station arranges, the interval is provided with a plurality of on the bracing piece first fixture block, simultaneously, each move the station and be close to one side of bracing piece all seted up with first draw-in groove that first fixture block corresponds.

9. The steel-plastic conversion 3PE baking equipment according to claim 8, wherein the second middle dragging assembly comprises a second dragging slide rail, a second dragging slide plate, a dragging rack, a dragging gear, a dragging rotary driver and a second fixture block, the second dragging slide rail is arranged on the processing table and arranged in parallel with the first guide rail, the second dragging slide plate is slidably arranged on the second dragging slide rail, the dragging rack is arranged on the processing table and arranged in parallel with the second dragging slide rail, the dragging rotary driver is arranged on the second dragging slide plate, the dragging gear meshed with the dragging rack is mounted on a rotating shaft of the dragging rotary driver, the second dragging slide plate is provided with a telescopic slide rail arranged perpendicular to the second dragging slide rail, and a telescopic slide plate is slidably arranged on the telescopic slide rail, and a fixture block pushing telescopic driver connected to the telescopic sliding plate is further arranged on the second dragging sliding plate, a plurality of second fixture blocks are arranged on one side, close to the moving stations, of the telescopic sliding plate, and second clamping grooves corresponding to the second fixture blocks are formed in one side, close to the second dragging sliding rail, of each moving station.

10. The steel-plastic conversion 3PE baking equipment according to claim 9, wherein the end dragging assembly comprises a third dragging slide rail, a third dragging slide plate, a moving gear, a moving rack, a moving rotary driver, a moving guide rail, a moving slide plate, a moving chuck and a moving telescopic driver, the third dragging slide rail is arranged on the side portion of the processing table and arranged in parallel with the second guide rail, the third dragging slide plate is slidably arranged on the third dragging slide rail, the moving rack is arranged on the side portion of the processing table and arranged in parallel with the third dragging slide rail, the moving rotary driver is arranged on the third dragging slide plate and provided with the moving gear engaged with the moving rack on a rotating shaft thereof, the moving guide rail is arranged on the third dragging slide plate and arranged in a direction perpendicular to the second guide rail, the movable sliding plate is slidably arranged on the movable guide rail, the movable telescopic driver is installed on the third dragging sliding plate and is connected with a telescopic shaft of the third dragging sliding plate, meanwhile, the movable sliding plate is close to one side of the movable station and is provided with the movable clamping head, and each movable station is close to one side of the movable clamping head and is provided with a clamping hole corresponding to the movable clamping head.

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