CN213412683U - Swing equipment - Google Patents

Abstract

The utility model provides a swing equipment belongs to the quick-witted technical field that sways. The swinging machine solves the problems that the existing swinging machine is low in heat treatment efficiency and large in electric energy consumption. The utility model relates to a swing equipment includes rocking frame, cooling mechanism, rocking bed, commentaries on classics car assembly and flip. The utility model discloses in, in putting the mould into rocking bed when people, cover flip, so that the mould is located between flip and the rocking bed, afterwards, let in steam in rocking bed, alright carry out hot-working to the mould, after the mould heating is accomplished, rocking bed is static relatively to rocking frame, the assembly of the commentaries on classics car no longer drives the mould motion, flip opens, afterwards, take out the mould through the manipulator that uses in this mould, meanwhile, in rocking bed with another mould centre gripping through another manipulator, afterwards, cover flip again, so as to reduce the loss of heat energy in the rocking machine, and simultaneously, the efficiency of thermal treatment has also been improved.

Description

Swing equipment

Technical Field

The utility model belongs to the technical field of the machine that sways, a equipment sways is related to.

Background

The oscillating wobbler is the simplest way for a rotomoulding machine to form a complete product. The mold in the swing type rotational molding machine is continuously heated in a 360-degree mode around the small shaft, so that the heat treatment of the swing type rotational molding machine on the mold is realized.

Disclosure of Invention

The utility model aims at solving the problems in the prior art and providing the swinging equipment with high heat treatment efficiency and less electric energy consumption.

The purpose of the utility model can be realized by the following technical proposal: a rocking device comprising:

a swing frame;

the cooling mechanism is arranged on one side of the swing frame, and the cooling mechanism and the swing frame are positioned on the same plane;

the rocking bed is arranged in the rocking frame and rotates relative to the rocking frame; a pair of rotating car assemblies are arranged on the swing frame, a turnover cover is arranged between the two rotating car assemblies, the rotating car assemblies drive the turnover covers to rotate, and each rotating car assembly can move relative to the swing bed; one side of the rocking bed is provided with at least two heaters, the bottom surface of the rocking bed is provided with a ventilation shell corresponding to the heaters, the heaters are inserted into the corresponding ventilation shell, each ventilation shell is internally provided with an internal fan, and each ventilation shell is communicated with the bottom of the rocking bed.

In the above swing equipment, each of the turning cart assemblies includes a mounting plate, a sliding plate and a rotating cylinder which are mounted on the swing bed, the sliding plate moves relative to the mounting plate, the rotating cylinder is movably mounted on the sliding plate, a third motor for driving the sliding plate to move is arranged on the mounting plate, and a fourth motor for driving the rotating cylinder to rotate relative to the sliding plate is arranged on the sliding plate.

In foretell equipment of swaing, the side that the slide is close to the mounting panel is equipped with a plurality of sliders, be equipped with the guide rail that is used for guiding the directional removal of slider on the mounting panel, slider and guide rail sliding connection still are equipped with fixed cover on the side that the slide is close to the mounting panel, movable mounting has the screw rod on the mounting panel, screw rod and fixed cover threaded connection.

In the above swing device, the mounting plate is provided with a rod block for movably mounting the screw rod, the screw rod penetrates through the rod block, one end of the screw rod is provided with a second gear, and the third motor is provided with a first gear meshed with the second gear.

In the above swing apparatus, the rotating cylinder is detachably connected to a fourth gear, the fourth motor is provided with a third gear engaged with the fourth gear, the rotating cylinder is movably mounted on the sliding plate through a fixing hoop, and both the rotating cylinders pass through the flip cover.

In the above swing equipment, one end of the rotary drum is provided with a mounting hole, the cross section of the mounting hole may be triangular, quadrangular, pentagonal or hexagonal, and one end of the rotary drum, which is located at the mounting hole, is provided with a supporting plate having a circular arc-shaped cross section.

In the above-mentioned equipment that sways, cooling mechanism includes a plurality of outer fans and centre gripping subassembly, every centre gripping subassembly's below all is equipped with the mount.

In the swing equipment, the bottom end of the swing frame is provided with a pair of support frames, two sides of the swing bed are respectively provided with a first rotating shaft movably arranged in the corresponding support frames, and one of the support frames is provided with a first motor used for driving the swing bed to rotate relative to the swing frame.

In foretell equipment of swaing, the bottom of rocking bed is equipped with the carousel, be equipped with the dish rack on the carousel, be close to movable mounting has first bull stick on the support frame of carousel, the one end of first bull stick is equipped with the dish gear with dish rack toothing, the other end of first bull stick is equipped with the lower sprocket, install the sprocket on the first motor, it passes through the chain with the lower sprocket and is connected.

In the above swing apparatus, the two ends of the side surface of the flip cover are both provided with cover racks, and the swing bed is provided with a driving member engaged with the cover racks.

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

1. the utility model discloses in, in putting the mould into rocking bed when people, cover flip, so that the mould is located between flip and the rocking bed, afterwards, let in steam in rocking bed, alright carry out hot-working to the mould, after the mould heating is accomplished, rocking bed is static relatively to rocking frame, the assembly of the commentaries on classics car no longer drives the mould motion, flip opens, afterwards, take out the mould through the manipulator that uses in this mould, meanwhile, in rocking bed with another mould centre gripping through another manipulator, afterwards, cover flip again, so as to reduce the loss of heat energy in the rocking machine, and simultaneously, the efficiency of thermal treatment has also been improved.

2. When the mold is subjected to hot working, people can control the rocking bed to rotate relative to the rocking frame, and the two rotating car assemblies synchronously drive the mold to rotate, so that the mold clamped between the two rotating car assemblies is heated more uniformly.

3. When the manipulator clamps the mould in the rocking bed to cooling mechanism department, in the rocking bed was put into to another mould of other manipulator for when a mould was being cooled down and is handled, another mould can carry out thermal treatment simultaneously, so, has effectively improved this equipment of swaing to the thermal treatment efficiency of mould.

4. In the process of carrying out heat treatment on the die, the heater generates heat, the inner fan generates air convection in the ventilation shell, so that the heat of the heater flows only in the swing bed through the air convection, the temperature in the swing bed is increased, and the heat treatment efficiency of the swing machine on the die is improved.

5. The one end that the rotary drum is located the mounting hole is equipped with the layer board that the cross-section is convex, and when the manipulator contacted the corresponding layer board respectively with the mould both ends, the mounting hole that corresponds was aimed at just in the both ends of mould, later, when the rotary drum removed to the mould direction, the mounting hole of rotary drum can be inject smoothly in the both ends of mould.

Drawings

FIG. 1 is a schematic structural diagram of a preferred embodiment of the present invention.

Fig. 2 is a schematic structural diagram of another view angle of the present invention.

Fig. 3 is a cross-sectional view at a-a of fig. 2.

Fig. 4 is a schematic structural view of fig. 1 with the rocking frame and the cooling mechanism removed.

Fig. 5 is a schematic view of the structure of fig. 4 from another view angle.

Fig. 6 is a cross-sectional view at B-B of fig. 5.

Fig. 7 is a schematic structural view of the truck assembly.

Fig. 8 is a schematic structural view of another view angle of the truck assembly.

Fig. 9 is an enlarged schematic view of the structure at C in fig. 1.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1-9, the swing device of the present invention includes a swing frame 100, a cooling mechanism 400, a swing bed 200, a swing car assembly 300, and a flip cover 110.

The cooling mechanism 400 is arranged on one side of the rocking frame 100, and the cooling mechanism 400 and the rocking frame 100 are positioned on the same plane; the rocking bed 200 is installed in the rocking frame 100, and the rocking bed 200 rotates relative to the rocking frame 100; the rocking frame 100 is provided with a pair of rotary trolley assemblies 300, a turnover cover 110 is arranged between the two rotary trolley assemblies 300, the rotary trolley assemblies 300 drive the turnover covers 110 to rotate, each rotary trolley assembly 300 can move relative to the rocking bed 200, when the rocking frame works, a mold needs to be placed in the rocking bed 200, two ends of the mold are clamped through the two rotary trolley assemblies 300, then the turnover covers 110 are covered to enable the mold to be positioned between the turnover covers 110 and the rocking bed 200, and then, the mold can be thermally processed only by introducing hot air into the rocking bed 200, furthermore, when the mold is thermally processed, the rocking bed 200 can be controlled to rotate relative to the rocking frame 100 by people, the mold clamped between the two rotary trolley assemblies 300 synchronously rotates, so that the mold is heated more uniformly, and when the mold is heated, the rocking bed 200 is static relative to the rocking frame 100, the turning assembly 300 does not drive the mold to move any more, the flip cover 110 is opened, and then the mold is clamped by a manipulator (not marked in the figure) used for the mold, and the mold is simultaneously loosened by the two turning assemblies 300, so that the mold can be clamped to the cooling mechanism 400 by the manipulator, meanwhile, the other manipulator and the other mold can be placed into the rocking bed 200, so that when one mold is cooled, the other mold can be simultaneously subjected to heat treatment, and thus, the heat treatment efficiency of the rocking device on the mold is effectively improved.

As shown in fig. 1 and 7-8, each of the turning cart assemblies 300 includes a mounting plate 310 mounted on the swing bed 200, a sliding plate 320, and a rotating drum 350, the sliding plate 320 moves relative to the mounting plate, the rotating drum 350 is movably mounted on the sliding plate 320, the mounting plate 310 is provided with a third motor 330 for driving the sliding plate 320 to move, the sliding plate 320 is provided with a fourth motor 340 for driving the rotating drum 350 to rotate relative to the sliding plate 320, when the manipulator clamps the mold in the swing bed 200 and is located between the two rotating drums 350, one can activate the third motor 330, so that the sliding plate 320 moves relative to the mounting plate 310 toward the mold until the two rotating drums 350 clamp the mold, and when one withdraws the manipulator and wraps the mold in the swing bed 200 through the flip 110, the fourth motor 340 is activated, so that the fourth motor 340 rotates the corresponding rotating drum 350, thereby enabling the mold to rotate relative to the swing bed 200, so that the mold located within the rocking bed 200 is heated uniformly.

Furthermore, a plurality of sliding blocks 321 are arranged on one side surface of the sliding plate 320 close to the mounting plate 310, a guide rail 311 for guiding the sliding blocks 321 to move directionally is arranged on the mounting plate 310, the sliding blocks 321 are connected with the guide rail 311 in a sliding manner, a fixing sleeve 322 is further arranged on one side surface of the sliding plate 320 close to the mounting plate 310, a screw 312 is movably mounted on the mounting plate 310, the screw 312 is in threaded connection with the fixing sleeve 322, a rod block 313 for movably mounting the screw 312 is arranged on the mounting plate 310, the screw 312 passes through the rod block 313, a second gear 312a is mounted at one end of the screw 312, a first gear 331 meshed with the second gear 312a is arranged on the third motor 330, when the first gear 331 rotates in the ground hole of the third motor 330, because the second gear 312a is meshed with the first gear 331, the second gear 312a is clamped on the screw 312, and the screw 312 is movably mounted on the rod block 313, the first gear 331 can drive the second gear 312a and, because the fixing sleeve 322 is fixedly installed on the lower end face of the sliding plate 320, the sliding block 321 is in threaded connection with the sliding block 321, and the sliding block 321 is movably installed on the corresponding guide rail 311, so that the sliding block 321 and the sliding plate 320 can simultaneously move directionally along the track of the guide rail 311 in the rotation process of the screw 312, further, when the two drums 350 move to the direction of the mold to the moving distance, the two drums 350 clamp the mold, and when the two drums 350 move to the direction far away from the mold, the drums 350 can loosen the mold, so that the manipulator can smoothly clamp the mold from the swing bed 200.

A fourth gear 351 is detachably connected on the rotary drum 350, a third gear 341 engaged with the fourth gear 351 is arranged on the fourth motor 340, the rotating drum 350 is movably mounted on the sliding plate 320 by a fixed hoop 352, and specifically, a bearing (not labeled in the figure) is mounted between the fixed hoop 352 and the rotating drum 350, so that the drum 350 can rotate relative to the slide plate 320, both of the drums 350 pass through the flip 110, when the two drums 350 clamp the mold and the lid 110 is turned over to the position right above the mold, one can turn on the fourth motor 340, so that the fourth motor 340 drives the third gear 341 to rotate, and since the fourth gear 351 is threadedly mounted on the drum 350, and the fourth gear 351 is engaged with the third gear 341 so that, when the fourth gear 351 is rotated, the drum 350 is rotated relative to the slide plate 320, in this manner, the mold between the two drums 350 is rotated with the rotation of the drums 350.

One end of the rotating drum 350 is provided with a mounting hole 353, and in the process of clamping the mold, one end of the mold needs to be aligned with the mounting hole 353 of one rotating drum 350, the other end of the mold needs to be aligned with the mounting hole 353 of the other rotating drum 350, so that when the two drums 350 are moved in the mold direction, both ends of the mold can be inserted into the corresponding mounting holes 353, respectively, and further, the sectional shape of the mounting hole 353 may be a triangle or a quadrangle or a pentagon or a hexagon, through the arrangement of the cross section, when the rotary drum 350 drives the mold to rotate, the mold does not move in a dislocation way relative to the rotary drum 350, that is, the drum 350 can drive the mold to rotate stably, and in addition, the sectional shape of the mounting hole 353 is set to be triangular, quadrangular, pentagonal or hexagonal, the rotary drum 350 can clamp molds with different specifications, so that the swing machine can process the molds with different specifications; the supporting plate 354 with the circular arc-shaped cross section is arranged at one end of the rotary drum 350, which is located in the mounting hole 353, so that when the manipulator contacts two ends of the mold with the corresponding supporting plate 354, the two ends of the mold are just aligned with the corresponding mounting hole 353, and then when the rotary drum 350 moves towards the mold, the two ends of the mold can be smoothly inserted into the mounting hole 353 of the rotary drum 350.

Cooling mechanism 400 includes a plurality of outer fans 410 and clamping component 420, and a plurality of outer fans 410 all are located between two clamping component 420, but every outer fan 410 is all not on two clamping component 420 lines, every clamping component 420's below all is equipped with mount 430, and every clamping component 420's structure all is the same with the structure of commentaries on classics car assembly 300, and when the manipulator will be through the mould centre gripping after the thermal treatment to between two clamping component 420, clamping component 420 grasps the mould, and a plurality of outer fans 410 are in the open mode all the time to make a plurality of outer fans 410 can reduce the temperature of mould fast.

As shown in fig. 1 to 7, a pair of support frames 120 are disposed at the bottom end of the swing frame 100, first rotating shafts 210 movably mounted in the corresponding support frames 120 are disposed on both sides of the swing bed 200, specifically, the two first rotating shafts 210 are connected with the corresponding support frames 120 through bearings (not labeled in the figures), a first motor 121 for driving the swing bed 200 to rotate relative to the swing frame 100 is disposed on one of the support frames 120, a rotating disc 220 is disposed at the bottom of the swing bed 200, a disc rack 221 is disposed on the rotating disc 220, a first rotating rod 122 is movably mounted on the support frame 120 close to the rotating disc 220, specifically, the first rotating rod 122 is connected with the support frame 120 through bearings (not labeled in the figures), a disc gear 122a meshed with the disc rack 221 is disposed at one end of the first rotating rod 122, a lower chain wheel 122b is disposed at the other end of the first rotating rod 122, an upper chain wheel 121a is mounted on the first motor 121, the upper sprocket 121a and the lower sprocket 122b are connected by a chain 130, when in operation, the first motor 121 drives the upper sprocket 121a to rotate, the lower sprocket 122b and the upper sprocket 121a are connected by the chain 130, the lower sprocket 122b is mounted on the first rotating rod 122, the disk gear 122a is mounted on the first rotating rod 122, and the disk gear 122a is meshed with the rotating disk 220, the rotating disk 220 is fixedly mounted at the bottom of the rocking bed 200, so that the rotating disk 220 can rotate along with the upper sprocket 122b, the first rotating rod 122 and the disk gear 122a during the synchronous rotation of the upper sprocket 121a, the two first rotating shafts 210 of the rocking bed 200 are movably mounted in the corresponding supporting frames 120, so that the rocking bed 200 can rotate around the first rotating shafts 210 during the movement of the disk gear 122a driving the rotating disk 220, and the rocking bed 200 can swing relative to the supporting frames 120 during the thermal processing of the mold by the rocking machine, so that the mold is heated more uniformly.

As shown in fig. 1, 4 and 9, the two ends of the side of the flip 110 are respectively provided with a cover rack 111, the swing bed 200 is provided with driving members 230 engaged with the cover rack 111, each of the driving members 230 includes a second motor 231 and a driving seat 232 which are arranged on the swing bed 200, the second motor 231 is provided with a main gear 231a, the driving seat 232 is internally provided with a driving shaft 2321, the driving shaft 2321 is provided with a main rotating wheel 2321b, the driving seat 232 is internally movably provided with a sub-rotating wheel 2322 engaged with the main rotating wheel 2321b, the sub-rotating wheel 2322 is engaged with the cover rack 111, one end of the driving shaft 2321 is further provided with a sub-gear 2321a engaged with the main gear 231a, when the flip 110 needs to be flipped, one only needs to control the second motor 231, so that the second motor 231 drives the main gear 231a to rotate, because the sub-gear 2321a is engaged with the main gear 231a, the sub-gear 2321a is arranged on the driving shaft 232, the driving shaft 2321 is movably mounted on the driving seat 232, the main rotating wheel 2321b is mounted on the driving shaft 2321, so that the main gear 231a drives the secondary gear 2321a, the driving shaft 2321, the main rotating wheel 2321b and the secondary rotating wheel 2322 to rotate simultaneously, as the secondary rotating wheel 2322 is engaged with the cover rack 111, the cover rack 111 is mounted on the corresponding flip 110, and both ends of the flip 110 are respectively movably mounted on the corresponding drums 350, so that when the secondary rotating wheel 2322 rotates, the flip 110 rotates around a connecting line of the two drums 350, so that when a mold is to be hot-machined, the flip 110 can seal the rocking bed 200 to avoid heat loss, and when the mold is to be taken out, the flip 110 is opened to facilitate a person to grasp the mold by a manipulator (not shown).

At least two heaters 240 are arranged on one side of the rocking bed 200, a ventilation shell 250 corresponding to the heaters 240 is arranged on the bottom surface of the rocking bed 200, the heaters 240 are inserted into the corresponding ventilation shells 250, an inner fan 251 is arranged in each ventilation shell 250, each ventilation shell 250 is communicated with the bottom of the rocking bed 200, when a user closes the flip cover 110, the heaters 240 and the inner fans 251 can be opened, and when the rocking bed works, the heaters 240 generate heat, the inner fans 251 generate air convection in the ventilation shells 250, so that the heat of the heaters 240 flows only in the rocking bed 200 through the air convection, the temperature inside the rocking bed 200 is increased, and the heat treatment efficiency of the rocking bed on a mold is improved.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (10)

1. A rocking device, comprising:

a swing frame;

the cooling mechanism is arranged on one side of the swing frame, and the cooling mechanism and the swing frame are positioned on the same plane;

the rocking bed is arranged in the rocking frame and rotates relative to the rocking frame; a pair of rotating car assemblies are arranged on the swing frame, a turnover cover is arranged between the two rotating car assemblies, the rotating car assemblies drive the turnover covers to rotate, and each rotating car assembly can move relative to the swing bed; one side of the rocking bed is provided with at least two heaters, the bottom surface of the rocking bed is provided with a ventilation shell corresponding to the heaters, the heaters are inserted into the corresponding ventilation shell, each ventilation shell is internally provided with an internal fan, and each ventilation shell is communicated with the bottom of the rocking bed.

2. The rocking apparatus of claim 1, wherein each of the carriages comprises a mounting plate mounted on the rocking bed, a slide plate for movement relative to the mounting plate, and a drum movably mounted on the slide plate, wherein the mounting plate is provided with a third motor for driving the slide plate in motion, and wherein the slide plate is provided with a fourth motor for driving the drum in rotation relative to the slide plate.

3. The swing device according to claim 2, wherein a plurality of sliding blocks are disposed on a side of the sliding plate close to the mounting plate, the mounting plate is provided with a guide rail for guiding the sliding blocks to move directionally, the sliding blocks are slidably connected with the guide rail, a fixing sleeve is further disposed on a side of the sliding plate close to the mounting plate, a screw rod is movably mounted on the mounting plate, and the screw rod is in threaded connection with the fixing sleeve.

4. The swing apparatus as claimed in claim 3, wherein the mounting plate is provided with a rod block for movably mounting a screw, the screw passes through the rod block, one end of the screw is provided with a second gear, and the third motor is provided with a first gear engaged with the second gear.

5. The rocking apparatus of claim 2, wherein the drum has a fourth gear detachably connected thereto, the fourth motor has a third gear engaged with the fourth gear, the drum is movably mounted to the slide plate by a fixing band, and both drums pass through the lid.

6. The swing equipment according to claim 2, wherein a mounting hole is formed at one end of the rotating drum, the mounting hole has a triangular or quadrangular or pentagonal or hexagonal cross section, and a supporting plate having a circular arc cross section is formed at one end of the rotating drum at the mounting hole.

7. The rocking device of claim 1, wherein the cooling mechanism comprises a plurality of external fans and clamping assemblies, and a mount is provided below each of the clamping assemblies.

8. The rocking device of claim 1, wherein the rocking frame has a pair of support frames at a bottom end thereof, the rocking bed has first shafts movably mounted on opposite sides thereof, and one of the support frames has a first motor for driving the rocking bed to rotate relative to the rocking frame.

9. The swing device as claimed in claim 8, wherein the swing bed has a rotary table at the bottom thereof, the rotary table has a plate rack, a first rotary rod is movably mounted on the support frame near the rotary table, one end of the first rotary rod has a plate gear engaged with the plate rack, the other end of the first rotary rod has a lower sprocket, the first motor has an upper sprocket, and the upper sprocket is connected to the lower sprocket through a chain.

10. The rocking device of claim 1, wherein the rocking bed is provided with cover racks on both ends of the sides of the lid, and wherein the rocking bed is provided with a driving member engaging with the cover racks.

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