CN205767277U - Intelligent temperature control injection mold - Google Patents

Abstract

This utility model provides a kind of intelligent temperature control injection mold, and it includes upper die and lower die, forms die cavity during matched moulds, and the center of described upper mold is provided with runner, and described runner connects with described die cavity.Described intelligent temperature control injection mold includes heater and the first Temperature Measure Control device, for ensureing that the plastics in described runner are constantly in molten condition, is arranged on the both sides of described runner；Cooling water channel, passes through for Cooling Water, is arranged on the top of die cavity；Second Temperature Measure Control device, for monitoring the temperature of described die cavity, is arranged on the lower section of described die cavity.Described intelligent temperature control injection mold also includes an external workbench, is used for placing and fixing described intelligent temperature control injection mold, and described external workbench also includes fixing device, lowering or hoisting gear, periodical feeding device and push rod.Effectively achieve temperature adjusting and the automatically working of mould.

Description

Intelligent temperature control injection mold

Technical field

This utility model relates to a kind of injection mold, particularly relates to a kind of intelligent temperature control injection mold, belongs to technical field of mold.

Background technology

Progress and the development of science and technology along with society, client is more and more stricter to the requirement of injecting products, the manufacturing cycle not requiring nothing more than product is shorter and shorter, production efficiency is more and more higher, manufacturing cost is more and more lower, stability requirement to product is more and more higher, and this is accomplished by manufacturer and improves the manufacturing capacity of oneself.

And traditional injection mold uses cold runner, and do not possess attemperating unit, thus the temperature of mould inside can not be monitored, thus select to carry out die sinking in the optimal time, thus improve work efficiency.It addition, the use of cold runner, can make when plastic cools down, the plastics in runner also can solidify, thus causes the waste of material, time serious, remain the plastics of solid-state, thus have a strong impact on work efficiency in also making runner.

Particularly when being molded the plastic of this kind of small volume of swimming glasses, the proportion that the plastics wasted in cold runner account for total injection volume is excessive, and this has resulted in the waste of great fund.

Therefore need a kind of intelligent temperature control injection mold for swimming glasses injection to solve above-mentioned technical problem.

Utility model content

This utility model provides a kind of energy temperature control injection mold with heater and attemperating unit, to solve injection mold of the prior art, the problem that waste of material is the highest with work efficiency.

For solving above-mentioned technical problem, the technical solution of the utility model is: a kind of intelligent temperature control injection mold, and it includes upper die and lower die, forms die cavity, it is characterised in that described intelligent temperature control injection mould includes during matched moulds:

Runner, is arranged on the center of described upper mold, and the upper end open of described runner is arranged on the upper surface of described upper mold, and the lower ending opening of described runner is arranged on the lower surface of described upper mold, and described runner connects with described die cavity；

Heater, is arranged on the side of described runner；

First Temperature Measure Control device, is arranged on the opposite side of described runner, is connected with described heater by wire；

Cooling water channel, is arranged on the top of described die cavity, and described cooling water channel includes that water inlet is arranged on the side of described upper mold, and described cooling water channel includes that outlet is arranged on the side of described upper mold；

In this utility model, described intelligent temperature control injection mold also includes thermal insulation layer, is arranged on the lower section of described heater, is arranged on the top of described cooling water channel.

In this utility model, described intelligent temperature control injection mold also includes that sealing and connecting device, described sealing and connecting device upper end are tightly connected with injection machine, and described sealing and connecting device lower end is tightly connected with described runner.

In this utility model, described intelligent temperature control injection mold also includes positioning hole and locating dowel, hole, described location is arranged on the bottom surface of described upper mold, described locating dowel is arranged on described lower mold end face, described locating dowel is arranged on the underface in hole, described location, and the shape size in hole, described location matches with the shape size of described locating dowel.

In this utility model, described intelligent temperature control injection mold also includes an external workbench, is used for placing and fix described intelligent temperature control injection mold.

In this utility model, described external workbench also includes fixing device, is used for fixing described upper mold.

In this utility model, described intelligent temperature control injection mold also includes the second Temperature Measure Control device, is arranged on the lower section of described die cavity.

In this utility model, described external workbench also includes lowering or hoisting gear, is used for driving described lower mold, and described lowering or hoisting gear is connected with described second Temperature Measure Control device by wire.

In this utility model, described external workbench also includes periodical feeding device, is connected with described water inlet by pipeline, is connected with described outlet by pipeline, and described periodical feeding device is connected with described second Temperature Measure Control device by wire.

In this utility model; a push rod is also included on described external platform; described lower mold also includes the first through hole; described first through hole connects with described die cavity; described lowering or hoisting gear also includes that the second through hole, described second through hole are arranged on the underface of described first through hole, and the diameter of described second through hole is identical with the diameter of described first through hole; described push rod is arranged on the underface of described second through hole, and the diameter of described push rod matches with the diameter of described second through hole.

Compared to prior art injection mold, intelligent temperature control injection mold beneficial effect of the present utility model:

1, due to the use of described heater, the plastics in described runner are made to be constantly in molten condition so that described intelligent temperature control injection mold can carry out continuous print injection under the conditions of without processing the plastics in runner, the most i.e. decrease the waste to material, also improve work efficiency.

2, due to the monitoring to described die cavity temperature of the described second Temperature Measure Control device, when making the temperature in described die cavity just reach suitable temperature, the just coagulation forming of the plastic in described die cavity, now carry out die sinking, can save the time, improve work efficiency.

3, the use of described external workbench, can carry out Automated condtrol to the matched moulds of described intelligent temperature control injection mold and die sinking, decrease the use of manpower, also prevent the appearance of personal error, further improve work efficiency.

Accompanying drawing explanation

Below in conjunction with the accompanying drawings detailed description of the invention of the present utility model is described in further detail.

Fig. 1 is the structural representation of the swimming glasses by intelligent temperature control injection mold injection mo(u)lding of the present utility model.

Fig. 2 is the structural representation of the preferred embodiment of intelligent temperature control injection mold of the present utility model.

Fig. 3 is the front view of intelligent temperature control injection mold of the present utility model and the structural representation of the preferred embodiment of external workbench.

Fig. 4 is the top view of intelligent temperature control injection mold of the present utility model and the structural representation of the preferred embodiment of external workbench.

Fig. 5 is the left view of intelligent temperature control injection mold of the present utility model and the structural representation of the preferred embodiment of external workbench.

The title of the respective digital representated by numeral in figure:

11, eyeglass, 12, picture frame, 13, eyelet；

101, upper mold, 102, lower mold, 103, die cavity, 104, runner, 105, heater, the 106, first Temperature Measure Control device, 107, cooling water channel, the 108, second Temperature Measure Control device, 109, thermal insulation layer, 110, sealing and connecting device, 111, locating dowel, 112, water inlet, 113, outlet, hole 114, location, the first through hole 115；

2, external workbench, 21, fixing device, 22, lowering or hoisting gear, 23, periodical feeding device, the 24, second through hole, 25, pipeline, 26, push rod.

Detailed description of the invention

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is clearly and completely described, it is clear that described embodiment is only a part of embodiment of this utility model rather than whole embodiments.Based on the embodiment in this utility model, those of ordinary skill in the art do not make that creative work premise is lower is obtained every other embodiment, broadly fall into the scope of this utility model protection.

In the drawings, the unit that structure is similar represents with same-sign.

Refer to Fig. 2 to Fig. 5, Fig. 2 is the structural representation of the preferred embodiment of intelligent temperature control injection mold of the present utility model, Fig. 3 is the front view of intelligent temperature control injection mold of the present utility model and the structural representation of the preferred embodiment of external workbench, Fig. 4 is the top view of intelligent temperature control injection mold of the present utility model and the structural representation of the preferred embodiment of external workbench, and Fig. 5 is the left view of intelligent temperature control injection mold of the present utility model and the structural representation of the preferred embodiment of external workbench.

A kind of technical scheme of this utility model offer: a kind of intelligent temperature control injection mold for swimming glasses injection mo(u)lding, it includes upper mold 101 and lower mold 102, forms die cavity 103 during matched moulds, described intelligent temperature control injection mold includes runner 104, heater 105, the first Temperature Measure Control device 106, cooling water channel 107, second Temperature Measure Control device 108, thermal insulation layer 109, sealing and connecting device 110, locating dowel 111, water inlet 112, outlet 113, hole 114, location and the first through hole 115.

Described intelligent temperature control mould also includes an external workbench 2, and external workbench 2 includes fixing device 21, lowering or hoisting gear 22, periodical feeding device 23, the second through hole 24 pipeline 25 and push rod 26.

Upper mold 101 is fixed in fixing device 21, and the center of upper mold 101 is provided with runner 104, and the upper end open of runner 104 is arranged on the upper surface of upper mold 101, and the lower ending opening of runner 104 is arranged on the lower surface of upper mold 101.The upper end of runner 104 is tightly connected with the lower end of sealing and connecting device 110, and the lower end of runner 104 connects with die cavity 103, and the upper end of sealing and connecting device 110 is tightly connected with external injection machine.

Heater 105 is arranged on the side of runner 104, and the first Temperature Measure Control device 106 is arranged on the opposite side of runner 104, and the first Temperature Measure Control device 106 is connected with heater 105 by wire.

Cooling water channel 107 is arranged on the top of die cavity 103, and cooling water channel 107 includes that water inlet 112 and outlet 113, water inlet 112 are connected with periodical feeding device 23 by pipeline 25 with outlet 113.The top of cooling water channel 107 and the lower section of heater 105 are provided with thermal insulation layer 109.

The bottom surface of upper mold 101 is provided with hole 114, location, and the end face of lower mold 102 is provided with locating dowel 111, and locating dowel 111 is arranged on immediately below hole 114, location, and the shape size of locating dowel 111 matches with the shape size in hole 114, location.

Lower mold 102 is fixed on lowering or hoisting gear 22, lower mold 102 bottom surface is provided with the first through hole 115 connected with die cavity 103, it is provided with on external platform 2 and is positioned at immediately below the first through hole 115 and the push rod 26 of equal diameters, lowering or hoisting gear 22 is provided with and is positioned at immediately below the first through hole 115 and the second through hole 24 of equal diameters.

Second Temperature Measure Control device 108 is arranged on the lower section of die cavity 103, and is connected with lowering or hoisting gear 22 and periodical feeding device 23 by wire.

The operation principle of intelligent temperature control injection mold of the present utility model:

First described intelligent temperature control injection mold is fixed on external work platforms 2, and by locating dowel 111 and hole 114, location, the location of upper mold 101 and lower mold 102 is debugged, and whether detection push rod 26 mates with the first through hole 115.

After having debugged, first described injection machine is installed, be then turn on power supply, and manipulate lowering or hoisting gear 22 and make it increase so that upper mold 101 and lower mold 102 matched moulds.The most just can be molded by described injection machine, the plastics under molten condition first flow into sealing and connecting device 110, then flow into runner 104, finally flow in die cavity 103.

Meanwhile, the temperature of runner 104 is monitored by the first Temperature Measure Control device 106, and controls heater 105, makes the temperature of runner 104 be in the first design temperature all the time.

When the plastics under molten condition flow into die cavity 103, when the second Temperature Measure Control device 108 detects the temperature in die cavity 103 more than the second design temperature, the signal of telecommunication is passed to periodical feeding device 23 so that periodical feeding device 23 is started working.

Cooling water is first flowed in cooling water channel 107 by pipeline 25 by water inlet 112 by periodical feeding device 23, cools down for the described swimming glasses in die cavity 103, is then flowed out by outlet 113 clearance pipeline 25, and flow in periodical feeding device 23.The cooling water reclaimed is processed by periodical feeding device 23, is then being circulated use.

When the temperature in the second Temperature Measure Control device 108 detects die cavity 103 is less than the second design temperature, the signal of telecommunication is passed to periodical feeding device 23 so that periodical feeding device 23 quits work.Meanwhile, signal is passed to lowering or hoisting gear 22 by the second Temperature Measure Control device 108, and manipulation lowering or hoisting gear 22 makes it decline, thus completes die sinking.

During die sinking, push rod 26 first passes through the second through hole 24, then enters die cavity 103 by the first through hole 115, thus is ejected from lower mold 102 by the described swimming glasses after solidification, and finally, described swimming glasses are taken out by operator by instrument, i.e. complete a workflow.

Then, manipulation lowering or hoisting gear 22 makes it again rise, thus starts second workflow, and constantly circulation work is gone down, until manually stopping.

The most i.e. complete the operation principle of intelligent temperature control injection mold of the present utility model.

Intelligent temperature control injection mold of the present utility model is due to the use of heater 105, the plastics in runner 104 are made to be constantly in molten condition, make the described intelligent temperature control injection mold can be under the conditions of without processing the plastics in runner 104, again it is molded, the most i.e. decrease the waste to material, also improve work efficiency.

Due to the monitoring to die cavity 103 temperature of the second Temperature Measure Control device 108 so that when the temperature in die cavity 103 is less than the second design temperature, the just coagulation forming of the plastic in die cavity 103, now carry out die sinking, can save the time, improve work efficiency.

The use of external workbench 2, can carry out Automated condtrol to the matched moulds of described intelligent temperature control injection mold and die sinking, decrease the use of manpower, also prevent the appearance of personal error, further improve work efficiency.

The use of thermal insulation layer 109, is possible to prevent heater 105 to heat die cavity 103, thus affects the solidification of described swimming glasses.

The use of sealing and connecting device 110, it is ensured that the seal within runner 104, thus prevent described intelligent temperature control injection mold when die sinking, the plastics in runner 104 flow out.

The use of periodical feeding device 23, beneficially using water wisely.

In sum; although this utility model is disclosed above with preferred embodiment; but above preferred embodiment also is not used to limit this utility model; those of ordinary skill in the art; without departing from spirit and scope of the present utility model; all can do various change and retouching, protection domain the most of the present utility model defines in the range of standard with claim.

Claims (10)

1. an intelligent temperature control injection mold, it includes upper die and lower die, forms die cavity, it is characterised in that described intelligent temperature control injection mould includes during matched moulds:

Runner, is arranged on the center of described upper mold, and the upper end open of described runner is arranged on the upper surface of described upper mold, and the lower ending opening of described runner is arranged on the lower surface of described upper mold, and described runner connects with described die cavity；

Heater, is arranged on the side of described runner；

First Temperature Measure Control device, is arranged on the opposite side of described runner, is connected with described heater by wire；

Cooling water channel, is arranged on the top of described die cavity, and described cooling water channel includes that water inlet is arranged on the side of described upper mold, and described cooling water channel includes that outlet is arranged on the side of described upper mold.

Intelligent temperature control injection mold the most according to claim 1, it is characterised in that described intelligent temperature control injection mold also includes thermal insulation layer, is arranged on the lower section of described heater, is arranged on the top of described cooling water channel.

Intelligent temperature control injection mold the most according to claim 1, it is characterized in that, described intelligent temperature control injection mold also includes that sealing and connecting device, described sealing and connecting device upper end are tightly connected with injection machine, and described sealing and connecting device lower end is tightly connected with described runner.

Intelligent temperature control injection mold the most according to claim 1, it is characterized in that, described intelligent temperature control injection mold also includes positioning hole and locating dowel, hole, described location is arranged on the bottom surface of described upper mold, described locating dowel is arranged on described lower mold end face, described locating dowel is arranged on the underface in hole, described location, and the shape size in hole, described location matches with the shape size of described locating dowel.

Intelligent temperature control injection mold the most according to claim 1, it is characterised in that described intelligent temperature control injection mold also includes an external workbench, is used for placing and fix described intelligent temperature control injection mold.

Intelligent temperature control injection mold the most according to claim 5, it is characterised in that described external workbench also includes fixing device, is used for fixing described upper mold.

Intelligent temperature control injection mold the most according to claim 5, it is characterised in that described intelligent temperature control injection mold also includes the second Temperature Measure Control device, is arranged on the lower section of described die cavity.

Intelligent temperature control injection mold the most according to claim 7, it is characterised in that described external workbench also includes lowering or hoisting gear, is used for driving described lower mold, and described lowering or hoisting gear is connected with described second Temperature Measure Control device by wire.

Intelligent temperature control injection mold the most according to claim 7, it is characterized in that, described external workbench also includes periodical feeding device, it is connected with described water inlet by pipeline, being connected with described outlet by pipeline, described periodical feeding device is connected with described second Temperature Measure Control device by wire.

Intelligent temperature control injection mold the most according to claim 8; it is characterized in that; a push rod is also included on described external platform; described lower mold also includes the first through hole; described first through hole connects with described die cavity; described lowering or hoisting gear also includes the second through hole; described second through hole is arranged on the underface of described first through hole; the diameter of described second through hole is identical with the diameter of described first through hole; described push rod is arranged on the underface of described second through hole, and the diameter of described push rod matches with the diameter of described second through hole.