CN213056083U - Full-automatic injection molding integrated equipment - Google Patents

Abstract

The utility model discloses a full-automatic injection moulding all-in-one equipment belongs to injection moulding technical field, including injection moulding device, shaping cooling device, the moulding device of shaping, cutting device and collection device, shaping cooling device sets up the side at the injection moulding device, the cooling forming device includes mounting bracket, air cooling component, coolant cooling module, water cooling module and hydrologic cycle extraction subassembly, the mounting bracket is vertical setting, air cooling component sets up the one end side at the mounting bracket, the water cooling module sets up the top at the mounting bracket, coolant cooling module sets up on the water cooling module, the hydrologic cycle extraction subassembly sets up the side at the mounting bracket, the hydrologic cycle extraction subassembly is linked together with the water cooling module. The utility model discloses a hydrologic cycle extraction subassembly, two water boxes of crossing are received the water that the water-cooling bin oozed out and are preserved and erect and carry to hydrologic cycle extraction subassembly in, can circulate water and recycle.

Description

Full-automatic injection molding integrated equipment

Technical Field

The utility model belongs to the technical field of the injection moulding technique and specifically relates to a full-automatic injection moulding all-in-one equipment is related to.

Background

Plastic pipes are generally produced by extruding synthetic resins, i.e. polyesters, as raw materials in a pipe-making machine by the "plastic" method with the addition of stabilizers, lubricants, plasticizers, etc. The pipe is mainly used as a running water supply system pipe, a drainage, exhaust and pollution discharge sanitary pipe, an underground drainage pipe system, a rainwater pipe, a threading pipe for electric wire installation and assembly sleeve and the like of a house building.

The plastic pipes are classified into thermoplastic plastic pipes and thermosetting plastic pipes. The thermoplastic material includes polyvinyl chloride pipe, polyethylene pipe, polypropylene pipe, polyformaldehyde pipe, etc.; belongs to thermosetting phenolic plastic pipes and the like.

However, the prior device has the following problems in use: first, accomplish the shaping back at the plastic tubing, the plastic tubing all cools off the plastic tubing through the manual work and the refrigerated effect is not good, and the second, after cooling the plastic tubing, the water of refrigerated can not cyclic utilization lead to the wasting of resources.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an integrative equipment of full-automatic injection moulding to solve among the prior art and accomplish the shaping back plastic tubing at the plastic tubing all through the manual work to the plastic tubing cool off and refrigerated water can not cyclic utilization lead to the technical problem of wasting of resources.

The utility model provides a full-automatic injection molding integrated device, which comprises an injection molding device, a molding cooling device and a molding assembly, the molding component comprises a molding and shaping device, a cutting device and a collecting device, the injection molding device is vertically arranged, the molding cooling device is arranged beside the injection molding device and comprises a mounting rack, an air cooling component, a coolant cooling component, a water cooling component and a water circulation extraction component, the mounting rack is vertically arranged, the air cooling component is arranged beside one end of the mounting rack and is positioned at the discharge end of the injection molding device, the water cooling component is arranged at the top of the mounting rack, the coolant cooling component is arranged on the water cooling component and positioned beside the air cooling component, the water circulation extraction assembly is arranged on the side of the mounting frame and communicated with the water cooling assembly.

Further, the air cooling assembly comprises a cold air pipe, a cold air cylinder and a fixing frame, the fixing frame is horizontally arranged, the top of the cold air pipe is connected with the top of the fixing frame, the cold air pipe penetrates through the fixing frame, the cold air cylinder is horizontally arranged, and the top of the cold air cylinder is communicated with the bottom of the cold air pipe.

Further, coolant cooling subassembly includes coolant storage cylinder, two coolant input holes and two coolant output holes, coolant storage cylinder level sets up on water cooling subassembly's lateral wall, two coolant input hole symmetry sets up the one end at coolant storage cylinder and is linked together with coolant storage cylinder, two coolant output hole symmetry sets up the other end at coolant storage cylinder and is linked together with coolant storage cylinder.

Further, the water cooling subassembly includes water cooling support, water cooling bin, prevents floating pipe and two water tanks, the water cooling support is the level setting, the water cooling bin is the level setting at the top of water cooling support, the top at the water cooling support is installed to the water cooling bin, prevent floating the pipe and be the level setting, prevent floating the pipe setting in the inboard of water cooling bin, the water tank is the level setting, two it installs the both ends at the water cooling bin to cross the water tank, it is connected with the water cooling bin to cross the water tank.

Further, hydrologic cycle extraction subassembly includes hydrologic cycle extraction support, hydrologic cycle extraction case, water pump and two pipelines, hydrologic cycle extraction support is the side of vertical setting at the water-cooling support, the hydrologic cycle extraction case is the level setting, the top at the hydrologic cycle extraction support is installed to the hydrologic cycle extraction case, on the lateral wall of water pump installation hydrologic cycle extraction case, the water pump is linked together through two pipelines and hydrologic cycle extraction case and water-cooling bin.

Furthermore, a filter screen is arranged on the water circulation extraction box and is horizontally arranged, and the filter screen is arranged on the inner side of the water circulation extraction box.

Compared with the prior art, the beneficial effects of the utility model reside in that:

one of the two, the utility model discloses air-cooled subassembly is when handling, and the cold air pipe is connected with external air-cooled fan, and the mount is fixed the cold air pipe, and the cold air pipe inhales external wind, cools off the plastic tubing from cold wind section of thick bamboo discharge again.

It is two, the utility model discloses coolant cooling subassembly is when handling, and two coolant input holes carry the coolant to the coolant storage cylinder in, and the coolant cools off the plastic tubing in the coolant storage cylinder, and two coolant delivery holes outwards discharge the coolant in the refrigerated while, can ensure when cooling off the plastic tubing, and the coolant can obtain recycling, lasts the cooling operation to the plastic tubing uninterruptedly.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic perspective view of a full-automatic injection molding integrated device;

FIG. 2 is a side view of the fully automatic injection molding integrated apparatus;

FIG. 3 is a top view of the fully automatic injection molding integrated apparatus;

FIG. 4 is a first schematic perspective view of an injection molding apparatus and a mold cooling apparatus;

FIG. 5 is a schematic perspective view of a second injection molding apparatus and a second mold cooling apparatus;

FIG. 6 is a third schematic perspective view of the molding and shaping device, the cutting device and the collecting device;

FIG. 7 is a schematic perspective view of a molding and shaping apparatus;

FIG. 8 is a perspective view of the cutting device;

FIG. 9 is a schematic perspective view of the collecting device;

reference numerals:

the injection molding device 1, the molding cooling device 2, the mounting frame 21, the air cooling assembly 22, the cold air pipe 221, the cold air drum 222, the mounting frame 223, the coolant cooling assembly 23, the coolant storage drum 231, the coolant input hole 232, the coolant output hole 233, the water cooling assembly 24, the water cooling bracket 241, the water cooling storage tank 242, the anti-floating pipe 243, the water passing box 244, the water circulation extraction assembly 25, the water circulation extraction bracket 251, the water circulation extraction box 252, the water pump 253, the pipeline 254, the filter screen 256, the molding device 3, the support frame 31, the molding assembly 32, the adjusting plate 321, the mounting plate 322, the adjusting screw 323, the rotating hand plate 324, the connecting disc 325, the threaded disc 326, the support column 327, the molding adjusting assembly 33, the buffer gear 331, the chain 332, the buffer gear fixing plate 333, the rotating motor 334, the rotating gear 335, the motor supporting plate 336 and the upper molding roller 337, lower forming roller 338, upper mounting base 339, lower mounting base 341, rotary gear 342, rotary shaft 343, cutting device 4, cutting support 41, air cylinder mounting frame 42, cutting air cylinder 43, cutting blade 44, moving rod 45, blade mounting base 46, cutting base 47, collecting device 5, support bracket 51, collecting box 52, sliding plate 53 and spacer block 54.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention.

The components of the embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 9, an embodiment of the present invention provides a full-automatic injection molding device, including an injection molding device 1, a molding cooling device 2 and a molding assembly, where the molding assembly includes a molding device 3, a cutting device 4 and a collecting device 5, the injection molding device 1 is vertically disposed, the molding cooling device 2 is disposed beside the injection molding device 1, the molding cooling device 2 includes a mounting frame 21, an air cooling assembly 22, a coolant cooling assembly 23, a water cooling assembly 24 and a water circulation extraction assembly 25, the mounting frame 21 is vertically disposed, the air cooling assembly 22 is disposed beside one end of the mounting frame 21 and located at a discharge end of the injection molding device 1, the water cooling assembly 24 is disposed at a top of the mounting frame 21, the coolant cooling assembly 23 is disposed on the water cooling assembly 24 and located beside the air cooling assembly 22, the water circulation extraction assembly 25 is arranged at the side of the mounting frame 21, the water circulation extraction assembly 25 is communicated with the water cooling assembly 24, the molding and shaping device 3 is arranged at the side of the mounting frame 21, the molding and shaping device 3 comprises a support frame 31, a molding assembly 32 and a molding adjusting assembly 33, the support frame 31 is vertically arranged, the molding assembly 32 is arranged on the support frame 31, the molding adjusting assembly 33 is arranged on the molding assembly 32, the molding adjusting assembly 33 is in sliding fit with the molding assembly 32, the cutting device 4 is arranged at the side of the support frame 31 and is fixedly connected with the support frame 31, and the collecting device 5 is arranged at the side of the cutting device 4; the injection molding device 1 works to mold and produce the plastic pipe and continuously move the plastic pipe forward.

Specifically, the air cooling assembly 22 includes a cold air pipe 221, a cold air cylinder 222 and a fixing frame 223, the fixing frame 223 is horizontally arranged, the top of the cold air pipe 221 is connected with the top of the fixing frame 223, the cold air pipe 221 penetrates through the fixing frame 223, the cold air cylinder 222 is horizontally arranged, and the top of the cold air cylinder 222 is communicated with the bottom of the cold air pipe 221; the cold air pipe 221 is connected with an external air cooler, the cold air pipe 221 is fixed by the fixing frame 223, external air is sucked into the cold air pipe 221, and then the cold air is discharged from the cold air cylinder 222 to cool the plastic pipe.

Specifically, the coolant cooling assembly 23 includes a coolant storage cylinder 231, two coolant input holes 232 and two coolant output holes 233, the coolant storage cylinder 231 is horizontally disposed on the side wall of the water cooling assembly 24, the two coolant input holes 232 are symmetrically disposed at one end of the coolant storage cylinder 231 and communicated with the coolant storage cylinder 231, and the two coolant output holes 233 are symmetrically disposed at the other end of the coolant storage cylinder 231 and communicated with the coolant storage cylinder 231; the two coolant input holes 232 transmit the coolant into the coolant storage cylinder 231, the coolant cools the plastic pipe in the coolant storage cylinder 231, and the two coolant output holes 233 discharge the coolant outwards while cooling, so that the coolant can be recycled when cooling the plastic pipe, and continuous cooling operation can be continuously performed on the plastic pipe.

Specifically, the water cooling assembly 24 includes a water cooling support 241, a water cooling storage tank 242, a floating-prevention pipe 243 and two water passing boxes 244, wherein the water cooling support 241 is horizontally arranged, the water cooling storage tank 242 is horizontally arranged on the top of the water cooling support 241, the water cooling storage tank 242 is mounted on the top of the water cooling support 241, the floating-prevention pipe 243 is horizontally arranged, the floating-prevention pipe 243 is arranged on the inner side of the water cooling storage tank 242, the water passing boxes 244 are horizontally arranged, the two water passing boxes 244 are mounted at two ends of the water cooling storage tank 242, and the water passing boxes 244 are connected with the water cooling storage tank 242; water cooling support 241 supports water cooling storage tank 242, water cooling storage tank 242 stores water, cool down the processing to the plastic tubing, prevent that pipe 243 that floats is with the plastic tubing control that the intaking floats in water, prevent that the plastic tubing floats on the surface of water at refrigerated in-process, the influence is to the cooling of plastic tubing, two water boxes 244 of crossing connect the water that water cooling storage tank 242 oozed out to get and preserve in erecting the transportation to hydrologic cycle extraction subassembly 25, can circulate water and reuse.

Specifically, the water circulation extraction assembly 25 comprises a water circulation extraction bracket 251, a water circulation extraction tank 252, a water pump 253 and two pipelines 254, wherein the water circulation extraction bracket 251 is vertically arranged at the side of the water cooling bracket 241, the water circulation extraction tank 252 is horizontally arranged, the water circulation extraction tank 252 is installed at the top of the water circulation extraction bracket 251, the water pump 253 is installed on the side wall of the water circulation extraction tank 252, and the water pump 253 is communicated with the water circulation extraction tank 252 and the water cooling storage tank 242 through the two pipelines 254; the water circulation extraction support 251 is used for fixing the water circulation extraction box 252, the water circulation extraction box 252 is used for storing water, the water pump 253 is connected with the water circulation extraction box 252 through one of the pipelines 254, the water in the water circulation extraction box 252 is extracted, and the water cooling storage tank 242 is connected through the other pipeline 254 to recycle the water, so that the water resource is not wasted.

Specifically, a filter screen 256 is arranged on the water circulation extraction tank 252, the filter screen 256 is horizontally arranged, and the filter screen 256 is arranged on the inner side of the water circulation extraction tank 252; the filter screen 256 filters the sewage that the water cooling storage tank 242 flows into, thereby prevents that the water pump 253 from when extracting water, causing the jam of water pump 253 to influence subsequent use.

Specifically, the shaping adjusting assembly 33 includes an adjusting plate 321, an installing plate 322, an adjusting screw 323, a rotating hand disc 324, a connecting disc 325, a threaded disc 326 and four supporting columns 327, four of the supporting columns 327 are arranged at the top of the supporting frame 31 in a rectangular shape, the four supporting columns 327 are vertically arranged, the adjusting plate 321 is horizontally arranged on the four supporting columns 327, the adjusting plate 321 is in sliding fit with the four supporting columns 327, the installing plate 322 is horizontally arranged at the top of the four supporting columns 327, the threaded disc 326 is horizontally arranged at the top of the installing plate 322, the connecting disc 325 is arranged at the top of the adjusting plate 321, the bottom of the adjusting screw 323 is in rotating fit with the connecting disc 325, the adjusting screw 323 is in threaded connection with the threaded disc 326, and the rotating hand disc 324 is arranged at the top of the adjusting screw 323; the rotating hand disc 324 rotates to drive the adjusting screw rod 323 to rotate on the threaded disc 326, so that the connecting disc 325 is driven to move up and down, the connecting disc 325 moves up and down to drive the adjusting plate 321 to slide up and down on the four supporting columns 327, the adjusting plate 321 slides up and down to drive the four upper forming rollers 337 in the shaping assembly 32 to move, shaping of the plastic pipe is adjusted, the plastic pipes with different sizes can be adjusted, and the plastic pipe shaping device is suitable for shaping of the plastic pipes with different specifications.

Specifically, the shaping assembly 32 includes a buffer gear 331, a chain 332, a buffer gear fixing plate 333, a rotating motor 334, a rotating gear 335, a motor supporting plate 336, four upper forming rollers 337, four lower forming rollers 338, four sets of upper mounting seats 339, four sets of lower mounting seats 341, four rotating gears 342, and a plurality of rotating shafts 343, the motor supporting plate 336 is horizontally disposed on the supporting frame 31, the rotating motor 334 is disposed on the motor supporting plate 336, the rotating gear 335 is disposed on a main shaft of the rotating motor 334, the four sets of upper mounting seats 339 are equidistantly disposed at the bottom of the adjusting plate 321, the number of upper mounting seats 339 in each set of upper mounting seats 339 is two, the four sets of lower mounting seats 341 are equidistantly disposed at the top of the supporting frame 31, the number of lower mounting seats 341 in each set of lower mounting seats 341 is two, each upper forming roller 337 is rotatably connected with its corresponding two upper mounting seats 339 through the rotating shafts 343, each lower forming roller 338 is rotatably connected with the two corresponding lower mounting seats 341 through a rotating shaft 343, four rotating gears 342 are respectively arranged at one end of the rotating shaft 343 of the four lower forming rollers 338, the buffer gear fixing plate 333 is vertically arranged on the side wall of the support frame 31, the buffer gear 331 is arranged on the buffer gear fixing plate 333 and is rotatably connected with the buffer gear fixing plate 333, the chain 332 is sleeved on the rotating gears 342 and the four buffer gears 331, and the chain 332 penetrates through the buffer gear 331; the rotating gear 335 is driven to rotate by the rotating motor 334 during operation, thereby the rotating gear 335 rotates to drive the buffer gear 331 to rotate to drive the four rotating gears 342 to rotate, the four rotating gears 342 rotate the four rotating shafts 343 to rotate, the four rotating shafts 343 rotate to drive the four lower forming rollers 338 to rotate on the four lower groups of mounting seats 341, the four lower forming rollers 338 drive the four upper forming rollers 337 to rotate on the four upper groups of mounting seats 339 through the four rotating shafts 343, the four upper forming rollers 337 and the four lower forming rollers 338 rotate to shape the plastic pipe, and the accuracy of the plastic pipe in the processing process of the plastic pipe is ensured.

Specifically, the cutting device 4 includes a cutting support frame 41, a cylinder mounting frame 42, a cutting cylinder 43, a cutting blade 44, a moving rod 45, a blade mounting seat 46 and a cutting seat 47, the cutting support frame 41 is vertically disposed, the cutting support frame 41 is fixedly connected with one end of the support frame 31, the cylinder mounting frame 42 is vertically disposed, the cylinder mounting frame 42 is mounted at the top of the cutting support frame 41, the cutting cylinder 43 is vertically disposed, the cutting cylinder 43 is mounted at the top of the cylinder mounting frame 42, the blade mounting seat 46 is at one end of the inner side of the cutting support frame 41, the top of the blade mounting seat 46 is connected to the telescopic end of the cutting cylinder 43, the moving rods 45 are provided with two moving rods 45, the two moving rods 45 are vertically disposed on the cylinder mounting frame 42, and the two moving rods 45 are both slidably disposed with the blade mounting seat 46, the cutting blade 44 is mounted on the inner side of the blade mounting seat 46 and is fixedly connected with the blade mounting seat 46; the cutting cylinder 43 drives the blade mounting base 46 to move up and down on the two moving rods 45 when working, so that the cutting blade 44 is ensured not to deviate in position in the process of moving up and down, the accuracy of the plastic pipe is not influenced, the blade mounting base 46 moves to drive the cutting blade 44 to move, the cutting blade 44 is pressed into a groove of the cutting base 47, the plastic pipe is cut off, the automatic cutting operation of the plastic pipe is realized, and the working efficiency is improved.

Specifically, the collecting device 5 comprises a supporting bracket 51, a collecting box 52, a sliding plate 53 and a cushion block 54, wherein the supporting bracket 51 is arranged vertically, the collecting box 52 is arranged in the collecting box 52 in an inclined manner, the cushion block 54 is arranged horizontally, and the cushion block 54 is arranged at one end of the top of the collecting box 52; the support bracket 51 supports a collection box 52, spacers 54 protect the plastic tubes, and the collection box 52 stores the cut plastic tubes.

Specifically, each of the upper forming rollers 337 and each of the lower forming rollers 338 are sleeved with a rubber pad; the upper forming roller 337 and each lower forming roller 338 are sleeved with rubber pads to protect the plastic pipe, so that the plastic pipe is prevented from being damaged when being subjected to plastic, and subsequent use is influenced.

The utility model discloses a theory of operation: when the utility model is used, the injection molding device 1 works to perform molding production on the plastic pipe and continuously moves the plastic pipe forward, the cold air pipe 221 is connected with an external air cooling machine, the fixing frame 223 fixes the cold air pipe 221, the cold air pipe 221 sucks external air, the cold air pipe 222 discharges the air to cool the plastic pipe, the two coolant input holes 232 convey the coolant into the coolant storage cylinder 231, the coolant cools the plastic pipe in the coolant storage cylinder 231, the two coolant output holes 233 discharge the coolant outwards during cooling, the coolant can be recycled when cooling the plastic pipe, the plastic pipe is continuously cooled, the plastic pipe is conveyed forward into the water cooling storage tank 242, the water cooling storage tank 242 stores water, the plastic pipe is cooled, the anti-floating pipe 243 controls the plastic pipe floated by the water inflow in water to prevent the plastic pipe from floating on the water surface in the cooling process and affecting the cooling of the plastic pipe, the two water passing boxes 244 receive, store and vertically convey the water seeped from the water cooling storage tank 242 into the water circulation extraction assembly 25 to recycle the water, the water circulation extraction bracket 251 fixes the water circulation extraction tank 252, the water circulation extraction tank 252 stores the water, the water pump 253 is connected with the water circulation extraction tank 252 through one pipeline 254 to extract the water in the water circulation extraction tank 252, and then is connected with the water cooling storage tank 242 through the other pipeline 254 to recycle the water, so that the water resource is not wasted, the rotary motor 334 drives the rotary gear 335 to rotate when in operation, the rotary gear 335 rotates to drive the buffer gear 331 to rotate so as to drive the four rotary gears 342 to rotate, the four rotating gears 342 rotate the four rotating shafts 343, the four rotating shafts 343 rotate to drive the four lower forming rollers 338 to rotate on the four groups of lower mounting seats 341, the four lower forming rollers 338 drive the four upper forming rollers 337 to rotate on the four groups of upper mounting seats 339 through the four rotating shafts 343, the four upper forming rollers 337 and the four lower forming rollers 338 rotate to perform plastic shaping operation on the plastic pipe, the accuracy of plastic pipe shaping in the processing process of the plastic pipe is ensured, the rotating hand disc 324 rotates to drive the adjusting screw 323 to rotate on the threaded disc 326, so as to drive the connecting disc 325 to move up and down, the connecting disc 325 moves up and down to drive the adjusting plate 321 to slide up and down on the four support columns 327, the adjusting plate 321 slides up and down to drive the positions of the four upper forming rollers 337 in the shaping assembly 32 to move, so as to adjust the shaping, can adjust the plastic tubing of different sizes, thereby be applicable to the shaping of the plastic tubing of different specifications, cut off cylinder 43 during operation and drive blade mount pad 46 and reciprocate on two movable rods 45, ensure to cut off blade 44 at the in-process that reciprocates, the skew that can not take place in the position of cutting off blade 44, can not influence the accuracy of plastic tubing, blade mount pad 46 removes and drives cutting off blade 44 and remove, will cut off blade 44 and impress the inslot that cuts off seat 47, cut off the automatic operation of cutting off to the plastic tubing realization, the work efficiency is improved, after the cutting the plastic tubing removes to in the collecting box 52, the collecting box 52 is deposited the plastic tubing that cuts off.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (6)

1. The utility model provides an integrative equipment of full-automatic injection moulding which characterized in that: comprises an injection molding device (1), a molding cooling device (2) and a molding assembly, wherein the molding assembly comprises a molding device (3), a cutting device (4) and a collecting device (5), the injection molding device (1) is vertically arranged, the molding cooling device (2) is arranged at the side of the injection molding device (1), the molding cooling device (2) comprises a mounting rack (21), an air cooling assembly (22), a coolant cooling assembly (23), a water cooling assembly (24) and a water circulation extraction assembly (25), the mounting rack (21) is vertically arranged, the air cooling assembly (22) is arranged at one end of the mounting rack (21) and is arranged at the discharge end of the injection molding device (1), the water cooling assembly (24) is arranged at the top of the mounting rack (21), the coolant cooling assembly (23) is arranged on the water cooling assembly (24) and is arranged at the side of the air cooling assembly (22), water circulation extraction subassembly (25) set up the side at mounting bracket (21), water circulation extraction subassembly (25) are linked together with water cooling subassembly (24).

2. The full-automatic injection molding integrated equipment according to claim 1, characterized in that: the air cooling assembly (22) comprises a cold air pipe (221), a cold air barrel (222) and a fixing frame (223), the fixing frame (223) is horizontally arranged, the top of the cold air pipe (221) is connected with the top of the fixing frame (223), the cold air pipe (221) penetrates through the fixing frame (223), the cold air barrel (222) is horizontally arranged, and the top of the cold air barrel (222) is communicated with the bottom of the cold air pipe (221) and is connected with the bottom of the cold air barrel (221).

3. The full-automatic injection molding integrated equipment according to claim 1, characterized in that: the coolant cooling assembly (23) comprises a coolant storage cylinder (231), two coolant input holes (232) and two coolant output holes (233), wherein the coolant storage cylinder (231) is horizontally arranged on the side wall of the water cooling assembly (24), the two coolant input holes (232) are symmetrically arranged at one end of the coolant storage cylinder (231) and communicated with the coolant storage cylinder (231), and the two coolant output holes (233) are symmetrically arranged at the other end of the coolant storage cylinder (231) and communicated with the coolant storage cylinder (231).

4. The full-automatic injection molding integrated equipment according to claim 1, characterized in that: water cooling subassembly (24) include water cooling support (241), water cooling storage tank (242), prevent floating pipe (243) and two water-cooled box (244), water cooling support (241) are the level setting, water cooling storage tank (242) are the top that the level set up at water cooling support (241), the top at water cooling support (241) is installed in water cooling storage tank (242), prevent floating pipe (243) and be the level setting, prevent floating pipe (243) and set up the inboard at water cooling storage tank (242), water-cooled box (244) are the level setting, two the both ends at water cooling storage tank (242) are installed to water-cooled box (244), water-cooled box (244) are connected with water cooling storage tank (242).

5. The full-automatic injection molding integrated equipment according to claim 4, characterized in that: the water circulation extraction assembly (25) comprises a water circulation extraction support (251), a water circulation extraction box (252), a water pump (253) and two pipelines (254), the water circulation extraction support (251) is vertically arranged at the side of the water cooling support (241), the water circulation extraction box (252) is horizontally arranged, the water circulation extraction box (252) is installed at the top of the water circulation extraction support (251), the water pump (253) is installed on the side wall of the water circulation extraction box (252), and the water pump (253) is communicated with the water circulation extraction box (252) and the water cooling storage box (242) through the two pipelines (254).

6. The full-automatic injection molding integrated equipment according to claim 5, characterized in that: be equipped with filter screen (256) on hydrologic cycle extraction case (252), filter screen (256) are the horizontal setting, filter screen (256) set up the inboard at hydrologic cycle extraction case (252).

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