CN118124058B - Cooling shaping die for basalt fiber reinforced polyethylene drain pipe processing - Google Patents

Abstract

The invention relates to the technical field of pipe molding. The invention discloses a cooling shaping die for processing basalt fiber reinforced polyethylene drain pipes, which comprises a base, wherein a cooling pool for cooling shaping is arranged on the base, a blanking machine is arranged at the side end of the cooling pool, a driving component is arranged at the side end of the blanking machine and is positioned at one side of the cooling pool, a placing device for receiving the drain pipes is arranged on the driving component, a linkage component is arranged at the bottom of the placing device, a switching device is arranged above the linkage component, an auxiliary collecting component is arranged at one side of the driving component far away from the blanking machine and is positioned at the side end of the cooling pool, and the switching device comprises a triggering component and an adjusting component. The invention can synchronously cool the whole surface of the drain pipe and automatically clean the cooled surface of the drain pipe through the placing device and the switching device, so that the cooling effect and the convenience are greatly improved.

Description

Cooling shaping die for basalt fiber reinforced polyethylene drain pipe processing

Technical Field

The invention relates to the technical field of pipe molding, in particular to a cooling and shaping mold for processing a basalt fiber reinforced polyethylene drain pipe.

Background

The drain pipe is a pipe for water supply and drainage, which is produced by taking sanitary polyvinyl chloride resin as a main raw material, adding quantitative stabilizers, lubricants, fillers, color enhancers and the like, extruding and molding by a plastic extruder, performing injection molding by an injection molding machine, and performing procedures of cooling, solidification, shaping, inspection, packaging and the like.

In the prior art, in the process of cooling and shaping the drain pipe, the surface of the pipe is usually subjected to staged spraying, so that the outside of the pipe is completely cooled, the time spent is generally longer, the long-time cooling process is easy to deform the pipe in the cooling process, the pipe cannot be normally used, the cooling speed is low, the cooling effect is insufficient, meanwhile, the surface of the drain pipe is usually adhered with a large amount of water vapor after the cooling is finished, workers are often required to manually wipe the surface of the pipe, the drain pipe for cooling and shaping is convenient to store, the working steps are complicated, the convenience is low, and therefore, the device which can synchronously cool the whole surface of the drain pipe and automatically clean the surface of the drain pipe after the cooling is required to avoid the cooling effect is insufficient and the convenience is low.

Disclosure of Invention

The invention aims to provide a cooling shaping die for processing a basalt fiber reinforced polyethylene drain pipe, which aims to solve the problems in the background technology. In order to achieve the above purpose, the present invention provides the following technical solutions: the cooling shaping die for basalt fiber reinforced polyethylene drain pipe processing comprises a base, be equipped with the cooling tank that is used for cooling shaping on the base, the side of cooling tank is equipped with the blanking machine, the side of blanking machine is equipped with drive assembly and is located one side of cooling tank, be equipped with the placer that is used for accepting the drain pipe on the drive assembly, placer's bottom is equipped with linkage subassembly, linkage subassembly's top is equipped with auto-change over device, one side that the blanking machine was kept away from to the drive assembly is equipped with supplementary collection subassembly, and is located the side of cooling tank, auto-change over device includes trigger subassembly and adjustment subassembly, trigger subassembly sets up on linkage subassembly, adjustment subassembly sets up one side at trigger subassembly.

Preferably, the drive assembly comprises a drive frame, the bottom of drive frame and the top fixed connection of base, and be located one side of cooling bath, the center department rotation that the drive frame is close to one side of cooling bath is connected with the rotating turret, one side fixedly connected with internal gear frame that the rotating turret is close to the cooling bath, internal gear frame and rotating turret set up with one heart, be equipped with the gear post that the level set up in the internal gear frame, the side and the drive frame fixed connection of gear post, the tooth's socket end meshing of gear post is provided with the planetary gear, the center department of planetary gear is equipped with the removal axle, the one end that the removal axle is close to the drive frame is inlayed and is established in the ring channel, the side and the ring channel inner wall sliding fit of removal axle, one side that the planetary gear kept away from the gear post and the tooth's socket end meshing of internal gear frame are equipped with driving motor on the drive frame, the cover is equipped with first drive belt on driving motor's the output, the outside at the rotating turret is established to another end cover of first drive belt, the fixed connection in the internal gear frame outside.

Preferably, the placing device comprises a bearing component and an auxiliary component, the bearing component is arranged on the movable frame, the auxiliary component is arranged in the bearing component, the bearing component comprises a bearing arm, the bearing arm is horizontally arranged on one side of the movable frame away from the driving frame, the bearing arm is hollow, two horizontally arranged linkage columns are symmetrically arranged in the bearing arm, a second transmission belt is sleeved on the center of the driving frame, which is far away from the planetary gear, the second transmission belt is sleeved on the two linkage columns through a through hole at the side end of the bearing arm, two sliding grooves are formed in the top of the bearing arm, each sliding groove is provided with a control box and is positioned on the two linkage columns, the control box is in sliding fit with the linkage columns, the top of the control box is provided with a clamping groove for clamping a drain pipe, the inner wall of the clamping groove is provided with a water absorbing sponge, two rotating pieces are rotatably arranged in the control box, the two rotating pieces are symmetrically arranged, the top of the two rotating pieces are matched with the two clamping pieces in the two through holes, and the two rotating pieces are matched with the two rotating pieces in the corresponding through grooves.

Preferably, the auxiliary assembly comprises a drive threaded rod, the drive threaded rod is horizontally arranged below the two linkage columns, two ends of the drive threaded rod respectively penetrate through the adjacent control boxes and are in threaded fit with the adjacent control boxes, two ends of the drive threaded rod are rotationally connected with the inner walls of the adjacent bearing arms, threads with opposite directions are formed in two ends of the drive threaded rod, and a matched gear is arranged at the center of the drive threaded rod.

Preferably, the linkage assembly comprises a linkage frame, the top of linkage frame and the bottom fixed connection who accepts the arm, the sliding is equipped with the linkage board in the linkage frame, the linkage board is close to the bottom fixedly connected with wedge of moving frame one end, the top of wedge is through the bottom swing joint of extrusion spring and moving frame, and the inclined plane of wedge keep away from the center setting of drive frame, the one end fixedly connected with linkage piece of wedge is kept away from to the linkage board, and is located the below of cooperation gear, the linkage piece with accept arm sliding fit, the both sides of linkage piece all are the slant setting, the bilateral symmetry of linkage piece is equipped with the gangbar, the center department of gangbar rotates with adjacent auxiliary frame respectively to be connected, the side of auxiliary frame is connected with adjacent accepting the arm inner wall, the opening at gangbar top is located the outside that accepts the arm top, the top rotation of gangbar is connected with the pressing shaft that the flexibility set up, the bottom rotation of gangbar is connected with the cooperation axle, the side end of cooperation axle is contradicted in the side end of linkage piece, two sides of cooperation axle are through the side connection of extrusion spring, side connection has the wedge to the arc-shaped block when the side of moving frame, arc-shaped connection has the arc-shaped spring.

Preferably, the trigger assembly comprises a trigger frame, the bottom of trigger frame and the top fixed connection of linkage piece, the side fixedly connected with level of trigger frame sets up spacing slip post, the symmetry is equipped with two slip lasso on the spacing slip post, and all rather than sliding fit, two pass through reset spring swing joint before the slip lasso, the bilateral symmetry of spacing slip post is equipped with the articulated frame, the both sides of articulated frame are articulated respectively to have a hinge rod, the one end that the hinge rod kept away from the articulated frame articulates respectively at the side of a slip lasso, one of them the articulated frame slides and sets up on the movable rod of trigger frame side, the side of movable rod passes through L type pole articulated the setting at the side of trigger frame, wherein keep away from the trigger frame the side fixedly connected with telescopic link of slip lasso, the telescopic link articulated side of setting is at the lateral wall of adjacent control box.

Preferably, the adjusting part comprises an adjusting bracket, the adjusting bracket is arranged at the side end of the limiting sliding column and is rotationally connected with the side end of the adjacent triggering bracket, the side end of the adjusting bracket is hinged with the side end of the adjacent hinging bracket, the bottom of the adjusting bracket is opened and is rotationally connected with an adjusting shaft, an adjusting piece is arranged on the adjusting shaft, the adjusting shaft is clamped in a groove formed in the adjusting piece, one end of the adjusting piece, far away from the adjusting bracket, is provided with a spiral spring, the other end of the spiral spring is movably connected with the adjusting shaft, the bottom of the adjusting piece is in sliding fit with the arc-shaped bracket below the adjusting piece, the top of the adjusting bracket is fixedly connected with a switching bracket, one side, far away from the triggering bracket, of the switching bracket is rotationally connected with two mutually meshed switching gears, the adjusting bracket is in an inclined arrangement, the tooth slot end of the switching gear is mutually meshed with the tooth slot end of the matching gear, one of the center of the switching gears is sleeved with a telescopic belt, and the other end of the telescopic belt is sleeved on the adjacent linkage column.

Preferably, the auxiliary collecting assembly comprises a collecting box, the collecting box is arranged on one side, far away from the blanking machine, of the cooling pool, a guide plate is arranged on one side, close to the top of the arc-shaped block, of the collecting box, the side end of the guide plate is rotatably connected with a connecting frame of the side end of the collecting box through a connecting shaft, and the connecting shaft is movably connected with the connecting frame through a coil spring.

Preferably, the inner wall of the clamping groove is paved with a water absorbing sponge.

Compared with the prior art, the invention has the beneficial effects that:

According to the invention, when the device is used, a worker firstly works by controlling the blanking machine to enable the drain pipe to sequentially blanking onto the placement device, then works by controlling the driving assembly, the placement device with the drain pipe placed thereon enters the cooling tank to be cooled, and in the working process of the driving assembly, the placement device is synchronously driven to synchronously work, so that the drain pipe continuously rolls in the placement device, and further when the drain pipe enters the cooling device, the flow rate of water around the drain pipe can be increased through continuous rotation of the placement device, meanwhile, the surface and the inner wall of the water pipe can be uniformly contacted with the water surface, and then the cooling speed of the drain pipe is improved, so that the cooling effect is improved.

According to the invention, when a worker works by controlling the blanking machine, the drain pipe is blanked into the two control boxes of the sliding groove at the top of the bearing arm at one time and is automatically clamped into the clamping groove, then the driving motor is controlled to work, the rotating frame synchronously rotates on the driving frame through the first transmission belt, the planetary gear is driven to rotate around the gear column by the aid of the inner gear frame, the planetary gear is driven to rotate around the gear column by taking the gear column as the center through the matching of the moving shaft and the annular groove, the planetary gear rotates while rotating, the two linkage columns are driven to synchronously rotate through the second transmission belt, the rotating piece synchronously rotates in the same direction, the drain pipe positioned in the clamping groove is driven to synchronously move through the moving frame while the inner gear frame rotates, the flow rate of water around the drain pipe can be increased through continuous rotation of the inner gear frame, the surface and the inner wall of the water pipe can be uniformly contacted with the water surface of the drain pipe, and the cooling speed of the drain pipe is improved, and the cooling effect of the drain pipe is improved.

According to the invention, when the movable frame is driven to rotate by taking the gear column as an axis and pass through the side end of the arc-shaped block through rotation of the inner gear frame, the bearing arm drives the drain pipe to move out of the cooling pond through rotation and incline, the wedge-shaped block is driven to move towards the movable frame and compress the extrusion spring through cooperation of the wedge-shaped block and the arc-shaped block, so that the linkage plate is driven to slide in the linkage frame, the linkage block slides at the bottom of the bearing arm, the linkage rods at the two sides of the linkage block are respectively rotated to be close to the auxiliary frame through cooperation of the shafts, the two sides of the drain pipe are conveniently pressed by the pressing shafts at the tops of the linkage rods respectively, the linkage rod is conveniently fixed in the clamping grooves, the drain pipe is conveniently cleaned after the bearing arm inclines, the practicability of the device is improved, and after the wedge-shaped block loses the abutting pressure, the linkage plate is reset in the linkage frame, the linkage rod is reset under the action of the telescopic spring, so that the drain pipe is conveniently unlocked.

According to the invention, when the linkage block moves towards the direction of the receiving arm through the arc block, the trigger frame is synchronously driven to move, the adjusting frame and the switching frame are synchronously driven to move, one switching gear and the matched gear are driven to be meshed with each other, when the linkage column rotates in the same direction through the second transmission belt, the switching gear is driven to rotate through the telescopic belt, the matched gear and the driving threaded rod are synchronously rotated, the two control boxes are driven to be separated from each other, the water vapor on the surface of the drain pipe is cleaned through the water absorption sponge, when one control box moves, the telescopic rod is synchronously stretched, after the control box moves to a designated position, the sliding ferrule fixedly connected with the control box is pulled through the telescopic rod, the adjusting frame is driven to be deflected through the matching of the hinge rod and the hinge frame, the spiral spring is compressed through the adjusting shaft in the deflecting process of the adjusting frame, and the switching of the switching gear is completed under the matching of the adjusting piece and the arc frame, and after the other switching gear and the matched gear are meshed with each other, the two switching gears are driven to be separated from each other, and the two control boxes are driven to rotate in opposite directions, the two control boxes are driven to be separated from each other, and the two control boxes are driven to be in opposite directions, the two control boxes are driven to be close to each other, and the hinge rod is reset to the hinge frame is driven to the corresponding position, and the two control boxes are required to be cleaned conveniently to be cleaned, and convenient to work, and the work is convenient and easy, and easy to clean is required to move to be moved to the drain.

According to the invention, when the receiving arm drives the drain pipe to move upwards from the lower part of the guide plate, the guide plate can be driven to deflect towards the direction of the collecting box, and after the guide plate passes through the guide plate, the guide plate is reset through the connecting shaft under the action of the coil spring, so that after the wedge-shaped block unlocks the cleaned drain pipe through the arc-shaped block, the receiving arm moves to the top of the driving frame, so that the drain pipe can drop into the collecting box along the guide plate after falling from the clamping groove, and further collection is completed.

According to the invention, the water vapor adhered to the surface of the drain pipe can be further absorbed by the water absorbing sponge, so that the cleaning effect is improved.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic view of a partial perspective view of the present invention;

FIG. 3 is a schematic diagram of a partial perspective view of the present invention;

FIG. 4 is a schematic view of a partial exploded view of the drive assembly of the present invention;

FIG. 5 is a schematic view of a partial perspective view of a driving assembly according to the present invention;

FIG. 6 is a schematic view of a partial perspective view of a third embodiment of the present invention;

FIG. 7 is a schematic view of a partial perspective view of the drive assembly and placement device of the present invention;

FIG. 8 is a cross-sectional view of a receiving arm of the present invention;

FIG. 9 is a cross-sectional view of the control box of the present invention;

FIG. 10 is a schematic view of a partial perspective view of a placement device according to the present invention;

FIG. 11 is a schematic diagram of a partial perspective view of the present invention;

FIG. 12 is an enlarged schematic view of area A of FIG. 11;

FIG. 13 is a schematic view of a partial perspective view of a receiving device and a linkage assembly according to the present invention;

FIG. 14 is a schematic view showing a partial perspective view of a receiving assembly and a linkage assembly according to the present invention;

FIG. 15 is a schematic view of a partial perspective view of a linkage assembly and a switching device according to the present invention;

FIG. 16 is a schematic view of a second perspective view of a portion of the linkage assembly and switching device of the present invention;

fig. 17 is a schematic view of a partial perspective view of an auxiliary collection assembly according to the present invention.

In the figure: 1. a base; 2. a cooling pool; 3. a blanking machine; 4. a drive assembly; 41. a drive rack; 42. a rotating frame; 43. an inner gear frame; 44. a gear post; 45. a planetary gear; 46. a movable shaft; 47. an annular groove; 48. a driving motor; 49. a first drive belt; 50. a moving rack; 6. a placement device; 61. a receiving assembly; 611. a receiving arm; 612. a linkage column; 613. a second drive belt; 614. a through hole; 615. a sliding groove; 616. a control box; 617. a clamping groove; 618. a rotating member; 62. an auxiliary component; 621. driving a threaded rod; 622. a mating gear; 7. a linkage assembly; 71. a linkage frame; 72. a linkage plate; 73. wedge blocks; 74. extruding a spring; 75. a linkage block; 76. a linkage rod; 77. an auxiliary frame; 78. pressing the shaft; 79. a mating shaft; 80. a telescopic spring; 81. an arc-shaped block; 9. a switching device; 91. a trigger assembly; 911. a trigger frame; 912. a limit sliding column; 913. sliding the ferrule; 914. a return spring; 915. a hinge bracket; 916. a hinge rod; 917. a moving rod; 918. a telescopic rod; 10. an adjustment assembly; 101. an adjusting frame; 102. an adjusting shaft; 103. an adjusting member; 104. a coil spring; 105. an arc-shaped frame; 106. a switching frame; 107. a switching gear; 108. a retractable belt; 11. an auxiliary collection assembly; 111. a collection box; 112. a guide plate; 113. a connecting shaft; 114. a connecting frame; 115. a coil spring.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which are obtained by a worker of ordinary skill in the art without creative efforts, are within the protection scope of the present invention based on the embodiments of the present invention.

Referring to fig. 1 to 17, the present invention provides a cooling shaping mold for processing basalt fiber reinforced polyethylene drain pipe: including base 1, be equipped with the cooling tank 2 that is used for the cooling design on the base 1, the side of cooling tank 2 is equipped with blanking machine 3, the side of blanking machine 3 is equipped with drive assembly 4 and is located one side of cooling tank 2, be equipped with the placer 6 that is used for accepting the drain pipe on the drive assembly 4, the bottom of placer 6 is equipped with linkage assembly 7, linkage assembly 7's top is equipped with auto-change over device 9, one side that drive assembly 4 kept away from blanking machine 3 is equipped with supplementary collection subassembly 11, and is located the side of cooling tank 2, auto-change over device 9 includes trigger assembly 91 and adjustment subassembly 10, trigger assembly 91 sets up on linkage assembly 7, adjustment subassembly 10 sets up one side at trigger assembly 91.

In this embodiment, as shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9 and fig. 10, the driving assembly 4 includes a driving rack 41, the bottom of the driving rack 41 is fixedly connected with the top of the base 1 and is located at one side of the cooling tank 2, a rotating rack 42 is rotatably connected to the center of one side of the driving rack 41, one side of the rotating rack 42, which is close to the cooling tank 2, is fixedly connected with an inner gear rack 43, the inner gear rack 43 is concentrically arranged with the rotating rack 42, a horizontally arranged gear post 44 is arranged in the inner gear rack 43, the side end of the gear post 44 is fixedly connected with the driving rack 41, a tooth slot end of the gear post 44 is meshed with a planetary gear 45, a moving shaft 46 is arranged at the center of the planetary gear 45, one end of the moving shaft 46, which is close to the driving rack 41, is slidably matched with the inner wall of the annular groove 47, one side of the planetary gear 45, which is far from the gear post 44, is meshed with a tooth slot end 43, a motor end of the inner gear rack 43, a driving belt 48 is arranged on the driving rack 48, and a driving belt is fixedly connected with the other end of the driving rack 48, which is connected with the driving belt 48, and is fixedly arranged on the outer side of the driving rack 48;

The placement device 6 comprises a bearing assembly 61 and an auxiliary assembly 62, the bearing assembly 61 is arranged on the movable frame 50, the auxiliary assembly 62 is arranged in the bearing assembly 61, the bearing assembly 61 comprises a bearing arm 611, the bearing arm 611 is horizontally arranged on one side of the movable frame 50 far away from the driving frame 41, the bearing arm 611 is hollow, two horizontally arranged linkage columns 612 are symmetrically arranged in the bearing arm 611, a second transmission belt 613 is sleeved on the center of the planetary gear 45 far away from the driving frame 41, the second transmission belt 613 is sleeved on the two linkage columns 612 through a through hole 614 at the side end of the bearing arm 611, two sliding grooves 615 are formed in the top of the bearing arm 611, each sliding groove 615 is internally provided with a control box 616, the control box 616 is in sliding fit with the corresponding linkage column 612, the top of the control box 616 is provided with a clamping groove 617 of a drain pipe, the control box 616 is internally provided with two clamping pieces 618 which are rotatably sleeved on the two corresponding two clamping pieces 618, and the two clamping pieces 618 are rotatably matched with the two corresponding two rotating pieces 618, and the two rotating pieces 618 are rotatably sleeved on the two rotating pieces 618 and are rotatably matched with the two corresponding two rotating pieces 617;

The auxiliary assembly 62 comprises a driving threaded rod 621, the driving threaded rod 621 is horizontally arranged below the two linkage columns 612, two ends of the driving threaded rod 621 respectively penetrate through the adjacent control boxes 616 and are in threaded fit with the adjacent control boxes, two ends of the driving threaded rod 621 are rotatably connected with the inner walls of the adjacent receiving arms 611, two ends of the driving threaded rod 621 are provided with threads in opposite directions, and a matched gear 622 is arranged at the center of the driving threaded rod 621;

When a worker works by controlling the blanking machine 3, the drain pipe is blanked into the two control boxes 616 of the sliding groove 615 at the top of the receiving arm 611 at one time and is automatically clamped into the clamping groove 617, then the driving motor 48 is controlled to work, the rotating frame 42 synchronously rotates on the driving frame 41 through the arranged first transmission belt 49, the planetary gear 45 is driven to rotate around the gear post 44 by the arranged inner gear frame 43, the moving shaft 46 and the annular groove 47 are matched, the planetary gear 45 rotates around the gear post 44 and rotates while rotating, the second transmission belt 613 is arranged, the two linkage posts 612 are driven to synchronously rotate, the rotating piece 618 synchronously rotates in the same direction, the drain pipe positioned in the clamping groove 617 is driven to rotate, the inner gear frame 43 rotates and simultaneously drives the receiving arm 611 and the drain pipe to synchronously move through the moving frame 50, the flow rate of water around the drain pipe can be increased through continuous rotation of the self-driven when the drain pipe enters the cooling tank 2, the surface and the inner wall of the water pipe can be uniformly contacted with the water surface of the drain pipe, and the cooling effect of the drain pipe can be improved.

In this embodiment, as shown in fig. 11 and 12, the linkage assembly 7 includes a linkage frame 71, the top of the linkage frame 71 is fixedly connected with the bottom of the receiving arm 611, a linkage plate 72 is slidably disposed in the linkage frame 71, a wedge block 73 is fixedly connected to the bottom of the linkage plate 72 near one end of the moving frame 50, the top of the wedge block 73 is movably connected to the bottom of the moving frame 50 through a compression spring 74, the inclined surface of the wedge block 73 is disposed away from the center of the driving frame 41, one end of the linkage plate 72 away from the wedge block 73 is fixedly connected with a linkage block 75 and is disposed below the mating gear 622, the linkage block 75 is slidably mated with the receiving arm 611, two sides of the linkage block 75 are disposed in slant directions, two sides of the linkage block 75 are symmetrically provided with linkage rods 76, the center of the linkage rod 76 is respectively and rotatably connected with the adjacent auxiliary frames 77, the side ends of the auxiliary frames 77 are connected with the inner walls of the adjacent bearing arms 611, the top of the linkage rod 76 is positioned at the outer side of the top of the bearing arms 611 through an opening at the top of the bearing arms 611, the top of the linkage rod 76 is rotatably connected with a flexibly arranged pressing shaft 78, the bottom of the linkage rod 76 is rotatably connected with a matching shaft 79, the side ends of the matching shaft 79 are abutted against the side ends of the linkage blocks 75, the bottoms between the two linkage rods 76 are connected through a telescopic spring 80, the side ends of the driving frames 41 are fixedly connected with arc blocks 81 and positioned at the outer sides of the inner gear frames 43, and when the moving frames 50 drive the wedge blocks 73 to move to one side of the arc blocks 81, the wedge blocks 73 can be pressed through the side ends of the arc blocks 81 and the pressing springs 74 are compressed;

When the movable frame 50 is driven to rotate by the inner gear frame 43 by taking the gear post 44 as an axis and passing through the side end of the arc-shaped block 81, the receiving arm 611 drives the drain pipe to move out of the cooling pool 2 through rotation and incline, the wedge-shaped block 73 is matched with the arc-shaped block 81, so that the wedge-shaped block 73 is driven to move towards the movable frame 50 and compress the extrusion spring 74, the linkage plate 72 is driven to slide in the linkage frame 71, the linkage block 75 slides at the bottom of the receiving arm 611, the linkage rods 76 at the two sides of the linkage block are respectively and mutually rotated to be close to the auxiliary frame 77 by taking the matching shaft 79 as the center, the pressing shafts 78 at the tops of the linkage rods 76 are conveniently pressed at the two sides of the drain pipe respectively, the linkage rods are conveniently fixed in the clamping grooves 617, the drain pipe is prevented from falling after the receiving arm 611 inclines, the surface of the drain pipe is conveniently cleaned, the practicability of the device is improved, after the wedge-shaped block 73 loses the pressing force, the linkage plate 72 is reset in the linkage frame 71, and the reset is completed under the action of the telescopic spring 80, so that the drain pipe is conveniently unlocked.

In this embodiment, as shown in fig. 13, 14, 15 and 16, the trigger assembly 91 includes a trigger frame 911, the bottom of the trigger frame 911 is fixedly connected with the top of the linkage block 75, the side ends of the trigger frame 911 are fixedly connected with a horizontal limiting sliding column 912, two sliding ferrules 913 are symmetrically arranged on the limiting sliding column 912 and are in sliding fit with the two sliding ferrules 913, the two sliding ferrules 913 are movably connected by a return spring 914, two sides of the limiting sliding column 912 are symmetrically provided with hinge frames 915, two sides of each hinge frame 915 are respectively hinged with a hinge rod 916, one end of each hinge rod 916 away from the hinge frame 915 is hinged with a side end of one sliding ferrule 913, one of the hinge rods 915 is slidably arranged on a moving rod 917 at the side end of the trigger frame 911, the side end of each moving rod 917 is hinged with a side end of the trigger frame 911 by an L-shaped rod, the side ends of the sliding ferrules far from the trigger frame 913 are fixedly connected with telescopic rods 918, and the ends of the telescopic rods 918 are hinged with the side walls of adjacent control boxes 616;

The adjusting assembly 10 comprises an adjusting frame 101, the adjusting frame 101 is arranged at the side end of a limit sliding column 912, the center of the adjusting frame 101 is rotationally connected with the side end of an adjacent trigger frame 911, the side end of the adjusting frame 101 is hinged with the side end of an adjacent hinged frame 915, the bottom of the adjusting frame 101 is opened, an adjusting shaft 102 is rotationally connected with the adjusting frame, an adjusting piece 103 is arranged on the adjusting shaft 102, the adjusting shaft 102 is clamped in a groove on the adjusting piece 103, one end of the adjusting piece 103 far away from the adjusting frame 101 is provided with a spiral spring 104, the other end of the spiral spring 104 is movably connected with the adjusting shaft 102, the bottom of the adjusting piece 103 is in sliding fit with an arc-shaped frame 105 below the adjusting piece 103, the top of the adjusting frame 101 is fixedly connected with a switching frame 106, one side of the switching frame 106 far away from the trigger frame 911 is rotationally connected with two mutually meshed switching gears 107, the tooth socket ends of the switching gears 107 are obliquely arranged, the tooth socket ends of the switching gears 107 are mutually meshed with tooth socket ends of the matching gears 622, one of the switching gears 107 is sleeved with the center of the other end of the switching gears 108, and the other end of the adjacent telescopic belt is sleeved with a telescopic belt 612;

When the linkage block 75 moves towards the direction of the receiving arm 611 through the arc block 81, thereby synchronously driving the trigger frame 911 to move, thereby driving the adjusting frame 101 and the switching frame 106 to synchronously move, further driving one of the switching gears 107 to be meshed with the matched gear 622, thereby when the linkage column 612 rotates in the same direction through the second transmission belt 613, driving the switching gear 107 to rotate through the telescopic belt 108, further driving the matched gear 622 and the driving threaded rod 621 to synchronously rotate, thereby driving the two control boxes 616 to be mutually far away, further cleaning water vapor on the surface of the drain pipe through the water absorbing sponge, and synchronously stretching the telescopic rod 918 when one of the control boxes 616 moves, pulling the sliding collar 913 fixedly connected with the telescopic rod 918 after moving to a designated position, thereby pulling the adjusting frame 101 through the matching of the hinging rod 916 and the hinging frame 915, and driving the switching gear 107 to deflect, and in the deflecting process of the sliding collar through the adjusting shaft 102, and under the matching of the adjusting piece 103 and the arc frame 105, and driving the switching gear 107 to be meshed with the matched gear 622, thereby the two switching gears 107 to be meshed with the matched gear 622, and the two control boxes 616 are mutually, and the water vapor on the surface of the drain pipe is cleaned conveniently, and the two control boxes are mutually meshed with each other, and the two control boxes are required to be mutually meshed, and the two control boxes are mutually meshed with each other, and the two control boxes are simultaneously, and the two control boxes are mutually meshed with each other, and the water-and the water draining pipe is conveniently and the water draining pipe is cleaned.

In this embodiment, as shown in fig. 17, the auxiliary collecting assembly 11 includes a collecting box 111, the collecting box 111 is disposed on a side of the cooling tank 2 far away from the blanking machine 3, a guide plate 112 is disposed on a side of the collecting box 111 near the top of the arc block 81, a side end of the guide plate 112 is rotatably connected with a connection frame 114 at a side end of the collecting box 111 through a connection shaft 113, and the connection shaft 113 is movably connected with the connection frame 114 through a coil spring 115;

When the receiving arm 611 drives the drain pipe to move upwards from the lower part of the guide plate 112, the guide plate 112 can be driven to deflect towards the direction of the collection box 111, and after the drain pipe passes through the guide plate, the guide plate 112 resets through the connecting shaft 113 under the action of the coil spring 115, so that the wedge-shaped block 73 unlocks the cleaned drain pipe through the arc-shaped block 81, the receiving arm 611 moves to the top of the driving frame 41, so that the drain pipe can fall into the collection box 111 along the guide plate 112 after falling from the clamping groove 617, and collection is completed.

In this embodiment, as shown in fig. 10, a water-absorbing sponge is laid on the inner wall of the clamping groove 617; through the sponge that absorbs water that sets up, can further absorb the steam that the surface of drain pipe was stained with to improve the clearance effect.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present invention, and are not intended to limit the invention, and that various changes and modifications may be made therein without departing from the spirit and scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. The cooling shaping die for processing the basalt fiber reinforced polyethylene drain pipe is characterized in that: the automatic cleaning device comprises a base (1), a cooling pool (2) for cooling and shaping is arranged on the base (1), a blanking machine (3) is arranged at the side end of the cooling pool (2), a driving component (4) is arranged at the side end of the blanking machine (3) and is positioned at one side of the cooling pool (2), a placing device (6) for carrying a drain pipe is arranged on the driving component (4), a linkage component (7) is arranged at the bottom of the placing device (6), a switching device (9) is arranged above the linkage component (7), an auxiliary collecting component (11) is arranged at one side, far away from the blanking machine (3), of the driving component (4) and is positioned at the side end of the cooling pool (2), the switching device (9) comprises a triggering component (91) and an adjusting component (10), the triggering component (91) is arranged on the linkage component (7), and the adjusting component (10) is arranged at one side of the triggering component (91) and is controlled to work through the set triggering component (91), so that the surface of the drain pipe is conveniently wiped back and forth;

The driving component (4) comprises a driving frame (41), the bottom of the driving frame (41) is fixedly connected with the top of the base (1) and is positioned on one side of the cooling pool (2), the center of one side of the driving frame (41) close to the cooling pool (2) is rotationally connected with a rotating frame (42), one side of the rotating frame (42) close to the cooling pool (2) is fixedly connected with an inner gear frame (43), the inner gear frame (43) and the rotating frame (42) are concentrically arranged, a horizontally arranged gear column (44) is arranged in the inner gear frame (43), the side end of the gear column (44) is fixedly connected with the driving frame (41), the tooth socket end of the gear column (44) is meshed with a planetary gear (45), the center of the planetary gear (45) is provided with a movable shaft (46), one end of the movable shaft (46) close to the driving frame (41) is embedded in an annular groove (47), the side end of the movable shaft (46) is in sliding fit with the inner wall of the annular groove (47), one side of the planetary gear (45) far away from the tooth socket (44) is meshed with the inner gear frame (43), the driving end of the driving frame (48) is meshed with a first belt (48), the other end of the first transmission belt (49) is sleeved on the outer side of the rotating frame (42), and a movable frame (50) is fixedly connected to the outer side of the inner gear frame (43);

The placement device (6) comprises a bearing component (61) and an auxiliary component (62), the bearing component (61) is arranged on the movable frame (50), the auxiliary component (62) is arranged in the bearing component (61), the bearing component (61) comprises a bearing arm (611), the bearing arm (611) is horizontally arranged on one side of the movable frame (50) away from the driving frame (41), the bearing arm (611) is in a hollow arrangement, two horizontally arranged linkage columns (612) are symmetrically arranged in the bearing arm (611), a second transmission belt (613) is sleeved on the center of the planetary gear (45) away from the driving frame (41), the second transmission belt (613) is sleeved on the two linkage columns (612) through a through hole (614) at the side end of the bearing arm (611), two sliding grooves (615) are formed in the top of the bearing arm (611), a control box (616) is arranged in each sliding groove (615), the two linkage columns (612) are arranged in a hollow mode, the control box (612) is provided with two control boxes (616), the control box (616) is provided with a hollow control box (616), the control box (616) is provided with a water draining pipe (616), the two rotating parts (618) are symmetrically arranged, the tops of the two rotating parts (618) penetrate through the bottom of the clamping groove (617) and are positioned in the clamping groove (617), the two rotating parts (618) are in rotating fit with the clamping groove (617), and each rotating part (618) is respectively sleeved on one linkage column (612) and is in sliding fit with the same;

The auxiliary assembly (62) comprises a driving threaded rod (621), the driving threaded rod (621) is horizontally arranged below the two linkage columns (612), two ends of the driving threaded rod (621) respectively penetrate through the adjacent control boxes (616) and are in threaded fit with the control boxes, two ends of the driving threaded rod (621) are rotatably connected with the inner walls of the adjacent receiving arms (611), threads with opposite directions are formed at two ends of the driving threaded rod (621), and a matching gear (622) is arranged at the center of the driving threaded rod (621);

The linkage assembly (7) comprises a linkage frame (71), the top of the linkage frame (71) is fixedly connected with the bottom of a bearing arm (611), a linkage plate (72) is arranged in the linkage frame (71) in a sliding mode, a wedge block (73) is fixedly connected to the bottom of one end of the linkage block (72) close to the movable frame (50), the top of the wedge block (73) is movably connected with the bottom of the movable frame (50) through a pressing spring (74), the inclined surface of the wedge block (73) is far away from the center of the driving frame (41), one end of the linkage plate (72) far away from the wedge block (73) is fixedly connected with a linkage block (75) and is located below a matched gear (622), both sides of the linkage block (75) are obliquely arranged, two sides of the linkage block (75) are symmetrically provided with a wedge rod (76), the centers of the adjacent auxiliary frames (77) are respectively connected in a rotating mode, the side ends of the auxiliary frames (77) are far away from the center of the driving frame (41), one end of the wedge block (73) is fixedly connected with the bearing arm (611) and the top of the bearing arm (611) is located at the outer side of the bearing arm (76), the bottom of gangbar (76) rotates and is connected with cooperation axle (79), the side of cooperation axle (79) is contradicted and is held in the side of gangbar (75), two the bottom between gangbar (76) is connected through telescopic spring (80), the side fixedly connected with arc piece (81) of drive frame (41), and be located the outside of internal gear frame (43), works as when remove frame (50) drive wedge (73) and remove to arc piece (81) one side, can extrude wedge (73) and compression extrusion spring (74) through the side of arc piece (81).

2. The cooling and shaping mold for processing basalt fiber reinforced polyethylene drain pipe according to claim 1, wherein: the utility model provides a trigger subassembly (91) is including triggering frame (911), the bottom of triggering frame (911) and the top fixed connection of linkage piece (75), the side fixedly connected with level that triggers frame (911) sets up spacing slip post (912), spacing slip post (912) go up the symmetry and be equipped with two slip lasso (913), and all with its sliding fit, two before slip lasso (913) through reset spring (914) swing joint, the bilateral symmetry of spacing slip post (912) is equipped with articulated frame (915), articulated frame (915) both sides have a hinge rod (916) respectively, one end that articulated frame (915) were kept away from to hinge rod (916) articulates respectively in the side of one slip lasso (913), one of them hinge rod (915) slip sets up on movable rod (917) of trigger frame (911) side, the side of movable rod (917) articulates the side of setting at trigger frame (911) through L type pole, wherein keep away from the side of slip lasso (918) is fixed with telescopic link (918) and is provided with telescopic link (918) adjacent.

3. The cooling and shaping mold for processing basalt fiber reinforced polyethylene drain pipe according to claim 2, wherein: the adjusting component (10) comprises an adjusting frame (101), the adjusting frame (101) is arranged at the side end of a limit sliding column (912) and is rotationally connected with the side end of an adjacent triggering frame (911) at the center of the adjusting frame (101), the side end of the adjusting frame (101) is hinged with the side end of an adjacent hinging frame (915), the bottom of the adjusting frame (101) is in an open arrangement and is rotationally connected with an adjusting shaft (102), an adjusting piece (103) is arranged on the adjusting shaft (102), the adjusting shaft (102) is clamped in a groove formed in the adjusting piece (103), one end of the adjusting piece (103) far away from the adjusting frame (101) is provided with a spiral spring (104), the other end of the spiral spring (104) is movably connected with the adjusting shaft (102), the bottom of the adjusting piece (103) is in sliding fit with an arc-shaped frame (105) below the adjusting piece (103), the top of the adjusting frame (101) is fixedly connected with a switching frame (106), one side of the switching frame (106) far away from the triggering frame (911) is connected with two gears (107) which are in a groove connection, two gears (107) are in a groove connection, one of the groove is meshed with each other, the two gears (107) are meshed with each other, and the two gears (107) are meshed with each other, the other end of the telescopic belt (108) is sleeved on the adjacent linkage column (612).

4. The cooling and shaping mold for processing basalt fiber reinforced polyethylene drain pipe according to claim 3, wherein: the auxiliary collection assembly (11) comprises a collection box (111), the collection box (111) is arranged on one side, far away from the blanking machine (3), of the cooling pond (2), a guide plate (112) is arranged on one side, close to the top of the arc-shaped block (81), of the collection box (111), the side end of the guide plate (112) is rotationally connected with a connecting frame (114) of the side end of the collection box (111) through a connecting shaft (113), and the connecting shaft (113) is movably connected with the connecting frame (114) through a coil spring (115).

5. The cooling and shaping mold for processing basalt fiber reinforced polyethylene drain pipe according to claim 1, wherein: the inner wall of the clamping groove (617) is paved with a water absorbing sponge.