阅读说明：本技术 一种提高注射模具加工精度的加工设备及其加工方法 (Machining equipment for improving machining precision of injection mold and machining method thereof ) 是由 顾深锋 顾深群 于 2020-10-30 设计创作，主要内容包括：本发明公开了一种提高注射模具加工精度的加工设备及其加工方法,包括加工架、下模具、上模具、降温板、压力传感器和温度传感器,所述加工架顶部固定安装有下模具,所述下模具上盖设有上模具,所述上模具顶部中部设有注料口。本申请通过多组传感器的传感检测对模具之间的密封压强进行检测,以避免模具之间过于松动,产生溢料的情况,通过对模具内进行负压抽气,使得注料能够快速流入布及至模槽的缝隙,大大降低空鼓气泡的现象出现,有效提高加工的精度,通过温度传感器对注料口的温度进行检测,待注料口温度低于设定值后,由处理器启动电加热套,对注料口进行加热处理,避免熔融注料温度过低无法正常的流通。(The invention discloses a processing device for improving the processing precision of an injection mold and a processing method thereof. This application detects the sealing pressure between to the mould through the sensing of multiunit sensor, it is too not hard up to avoid between the mould, the condition of production flash, bleed through carrying out the negative pressure in to the mould, make the notes material can flow into fast and cloth and to the gap of die cavity, the phenomenon of greatly reduced hollowing bubble appears, effectively improve the precision of processing, detect the temperature of sprue through temperature sensor, treat that the sprue temperature is less than the setting value after, start the electrical heating cover by the treater, add thermal treatment to the sprue, avoid melting the sprue temperature to hang down unable normal circulation.)

1. The processing equipment for improving the processing precision of the injection mold comprises a processing frame (1), a lower mold (2), an upper mold (3), a cooling plate (6), a pressure sensor (26) and a temperature sensor (27), and is characterized in that the lower mold (2) is fixedly mounted at the top of the processing frame (1), the upper cover of the lower mold (2) is provided with the upper mold (3), the middle part of the top of the upper mold (3) is provided with a material injection port (4), the two peripheral sides at the bottom end of the material injection port (4) are respectively sleeved with an electric heating sleeve (5), the top of the upper mold (3) is covered with the cooling plate (6) at the periphery of the material injection port (4), an inner snake-shaped cooling copper pipe (7) is arranged in a penetrating manner, one side of the top of the upper mold (3) is provided with an exhaust nozzle (8), the exhaust nozzle (8) is sleeved with a one-way valve (9), and an air pressure sensor (10) is sleeved between the one-way, check valve (9) end of giving vent to anger is connected with vacuum pump (17) through trachea (16), top in processing frame (1) is installed through the bolt in vacuum pump (17), processing frame (1) top just is located bed die (2) one side and lays and installs metal forming hose (14), metal forming hose (14) top gas outlet is connected with shower nozzle (15), air-cooler (13) have been laid to one end in processing frame (1), air-cooler (13) one side is equipped with host computer (18), host computer (18) are including treater (19), data storage module (20), networking module (21) and bluetooth module (22).

2. A machining method of a machining apparatus for improving machining accuracy of an injection mold according to claim 1, characterized in that: the specific processing method comprises the following steps:

the method comprises the following steps: assembling a hydraulic cylinder for pressing at the top of the upper die (3), installing and connecting the output end of the hydraulic cylinder for pressing with the top of the upper die (3), and then connecting a nozzle of a hot-melting injection part with an injection port (4) of the upper die (3);

step two: after the first step is assembled, the upper die (3) is added through a hydraulic cylinder, so that the lower die (2) and the upper die (3) are completely closed, the pressure value of the covering between the lower die (2) and the upper die (3) is detected through a pressure sensor (26), after the pressure reaches a set value, the injection port (4) is closed through an electromagnetic valve, so that the injection port (4) cannot be communicated, the exhaust nozzle (8) is vacuumized through a vacuum pump (17), so that a negative pressure is formed in a die groove between the lower die (2) and the upper die (3), and the air pressure is detected through an air pressure sensor (10);

step three: after the air pressure detected by the air pressure sensor (10) in the second step reaches a composite set value, a host (18) controls the hot-melting part to work, so that a nozzle of the hot-melting part injects materials into the lower die (2) and the upper die (3) through the injection port (4), the hot-melting injection molding materials can flow into a die cavity under pressure quickly through the negative pressure of the die cavity between the lower die (2) and the upper die (3), the injection molding speed is greatly improved, the melt can be filled in the die cavity, and the hollowing phenomenon is greatly reduced;

step four: after injection molding is finished, air is supplied to a cooling copper pipe (7) in a cooling plate (6) by an air cooler (13), so that the surface of an upper mold (3) is rapidly reduced to help rapid forming of internal mold materials, the upper mold (3) is lifted by a hydraulic cylinder, the forming mold materials are taken out by personnel, after the upper mold (3) is opened, a pressure sensor (26) loses pressure, an electric signal is transmitted to a processor (19), the processor (19) controls the air cooler (13) to transmit cold air to a metal forming hose (14), and a nozzle (15) of the metal forming hose (14) sprays the cold air to the mold materials in the mold, so that the mold materials are secondarily cooled, the molding effect of the mold materials is better ensured, the surface temperature of the mold materials can be reduced, and scalding of the personnel is avoided;

step five: after the mold material is taken out, the upper mold (3) is pressed down again by the hydraulic cylinder, so that the circular injection work is realized.

3. The processing apparatus for improving the processing accuracy of the injection mold according to claim 1, wherein: be equipped with pressure sensor (26) on handling frame (1), the detection end of pressure sensor (26) inlays to establish and installs in the closed department at lower mould (2) top.

4. The processing apparatus for improving the processing accuracy of the injection mold according to claim 1, wherein: be equipped with temperature sensor (27) on processing frame (1), the detection pot head of temperature sensor (27) is located on sprue (4).

5. The processing apparatus for improving the processing accuracy of the injection mold according to claim 1, wherein: and the air outlet end of the air cooler (13) is respectively connected with the air inlet end of the cooling copper pipe (7) and the air inlet end of the metal shaping hose (14).

6. The processing apparatus for improving the processing accuracy of the injection mold according to claim 1, wherein: the corner of the top of the lower die (2) is respectively fixedly inserted with a guide rod (12), and the corner of the upper die (3) is respectively provided with a guide jack (11) corresponding to the guide rod (12).

7. The processing apparatus for improving the processing accuracy of the injection mold according to claim 1, wherein: the processor (19) is electrically connected with the data storage module (20), the networking module (21) and the Bluetooth module (22).

8. The processing apparatus for improving the processing accuracy of the injection mold according to claim 1, wherein: the air pressure sensor (10), the pressure sensor (26) and the temperature sensor (27) are electrically connected with the processor (19) through leads.

9. The processing apparatus for improving the processing accuracy of the injection mold according to claim 1, wherein: the processor (19) is electrically connected with the electric heating jacket (5), the air cooler (13) and the vacuum pump (17) through wires.

10. The processing apparatus for improving the processing accuracy of the injection mold according to claim 1, wherein: and the electromagnetic valve is installed at the feed end of the injection port (4).

Technical Field

The invention belongs to the technical field of injection molds, and particularly relates to a processing device and a processing method for improving the processing precision of an injection mold.

Background

The injection mould is characterized in that plastic is heated and melted in a heating charging barrel of an injection machine, pushed by a screw or a stopper, enters a mould cavity through a nozzle and a pouring system of the mould, and is hardened and shaped in the mould cavity; the injection mold is used for molding thermoplastic plastic products and is used for molding thermosetting plastic, when the current injection mold is used for injection, the phenomenon that bubbles, hollows and the like are easily generated in a mold cavity to inject materials is not uniform, the parts capable of improving the uniform and rapid flowing of the injected materials into the mold cavity are not provided, the accuracy of the injected materials is required to be improved, the parts capable of carrying out auxiliary detection on the closed pressure between the molds and the temperature of conveying hot melting materials are not provided, and the processing accuracy of the injection mold is lower.

Patent number CN201911065946.5 has announced the processing equipment who improves injection mold machining precision, it cools off to form the spraying to the mould module, liquid pearl self-polymerization or adhesion are on the pipeline inner wall when it avoids atomizing the coolant liquid, increase with this and finally spray towards processing cutter and mould module and the coolant liquid content in the coolant liquid that goes out, improve cooling capacity and cooling efficiency, the mould processing technology who uses this application processing equipment has still been disclosed, its high-efficient cooling reduces plastic deformation and resumes, the machining precision of improvement injection mold processing production in-process and the shaping effect of macromolecular material formed part.

The processing equipment for improving the processing precision of the injection mould has the following defects: 1. the part capable of improving the uniform and rapid flow of the injected material into the die cavity is arranged, and the accuracy of the injected material needs to be improved; 2. there is no means to assist in detecting the pressure of the closure between the molds and the temperature of the conveyed hot melt. Therefore, the processing equipment and the processing method for improving the processing precision of the injection mold are provided.

Disclosure of Invention

The invention aims to provide processing equipment for improving the processing precision of an injection mold and a processing method thereof, wherein a vacuum pump is used for vacuumizing an exhaust nozzle, so that a negative pressure is formed in a mold cavity between a lower mold and an upper mold, and an air pressure sensor is used for detecting air pressure; after the air pressure detected by the air pressure sensor reaches a composite set value, the host machine controls the hot-melting part to work, so that the nozzle injects materials into the lower die and the upper die through the injection port, and the hot-melting injection molding materials can flow into the die cavity under the quick pressure through the negative pressure of the die cavity between the lower die and the upper die, thereby greatly improving the injection molding speed, filling the die cavity with the molten materials and greatly reducing the hollowing phenomenon; after the injection molding is finished, the air cooler is used for supplying air to the cooling copper pipe in the cooling plate, so that the surface of the upper mold is quickly reduced, the internal mold material is quickly formed, the upper mold is lifted by the hydraulic cylinder, the formed mold material is taken out by personnel, after the upper mold is opened, the pressure sensor loses pressure, an electric signal is transmitted to the processor, the processor is used for controlling the air cooler to transmit cold air to the metal forming hose, the spray head of the metal forming hose is used for spraying the cooling air to the mold material in the mold, so that the mold material is secondarily cooled, the molding effect of the mold material is better ensured, the surface temperature of the mold material can be reduced, and the personnel can be prevented from being scalded; the back is taken out to the mould material, push down the mould once more by the pneumatic cylinder, realize endless injection work, the sealed pressure that this application detected between to the mould through the sensing of multiunit sensor detects, too not hard up between the mould in order to avoid, produce the condition of flash, through bleeding to carrying out the negative pressure in the mould, make the notes material can flow into fast and lay and to the gap in die cavity, the phenomenon of greatly reduced hollowing bubble appears, effectively improve the precision of processing, detect the temperature of sprue through temperature sensor, treat that the sprue temperature is less than the setting value after, start the electric heating jacket by the treater, heat treatment is carried out to the sprue, avoid melting sprue temperature to hang down unable normal circulation, in order to solve the problem of proposing in the above-mentioned background art.

In order to achieve the purpose, the invention provides the following technical scheme: the processing equipment for improving the processing precision of the injection mold comprises a processing frame, a lower mold, an upper mold, a cooling plate, a pressure sensor and a temperature sensor, wherein the lower mold is fixedly arranged at the top of the processing frame, the upper cover of the lower mold is provided with the upper mold, the middle part of the top of the upper mold is provided with a feeding port, the two peripheral sides of the bottom end of the feeding port are respectively sleeved with an electric heating sleeve, the cooling plate is arranged at the top of the upper mold and positioned on the peripheral cover of the feeding port, an inner snake-shaped cooling copper pipe penetrates through and is arranged, one side of the top of the upper mold is provided with an exhaust nozzle, a check valve is sleeved on the exhaust nozzle, a pressure sensor is sleeved between the check valve and the exhaust nozzle, the air outlet end of the check valve is connected with a vacuum pump through an air pipe, the vacuum pump is arranged at the top in the processing frame through, the metal forming hose top gas outlet is connected with the shower nozzle, the air-cooler has been laid to one end in the processing frame, air-cooler one side is equipped with the host computer, the host computer includes treater, data storage module, networking module and bluetooth module.

Further, the specific processing method comprises the following steps:

the method comprises the following steps: assembling a hydraulic cylinder for pressing at the top of the upper die, installing and connecting the output end of the hydraulic cylinder for pressing with the top of the upper die, and then connecting a nozzle of a hot-melting material injection component with a material injection port of the upper die;

step two: after the first step is assembled, adding the upper die through a hydraulic cylinder to enable the lower die and the upper die to be completely closed, detecting a pressure value of a cover between the lower die and the upper die through a pressure sensor, closing a filling port through an electromagnetic valve after the pressure reaches a set value, enabling the filling port to be incapable of circulating, vacuumizing an exhaust nozzle through a vacuum pump to enable a die cavity between the lower die and the upper die to form negative pressure, and detecting the air pressure through an air pressure sensor;

step three: after the air pressure detected by the air pressure sensor in the second step reaches a composite set value, the host machine controls the hot-melting part to work, so that the nozzle of the hot-melting part injects materials into the lower die and the upper die through the injection port, and the hot-melting injection molding materials can flow into the die cavity under the fast pressure through the negative pressure of the die cavity between the lower die and the upper die, thereby greatly improving the injection molding speed, filling the die cavity with the molten materials and greatly reducing the hollowing phenomenon;

step four: after the injection molding is finished, the air cooler is used for supplying air to the cooling copper pipe in the cooling plate, so that the surface of the upper mold is quickly reduced, the internal mold material is quickly formed, the upper mold is lifted by the hydraulic cylinder, the formed mold material is taken out by personnel, after the upper mold is opened, the pressure sensor loses pressure, an electric signal is transmitted to the processor, the processor is used for controlling the air cooler to transmit cold air to the metal forming hose, the spray head of the metal forming hose is used for spraying the cooling air to the mold material in the mold, so that the mold material is secondarily cooled, the molding effect of the mold material is better ensured, the surface temperature of the mold material can be reduced, and the personnel can be prevented from being scalded;

step five: and after the mold material is taken out, the upper mold is pressed down again by the hydraulic cylinder, so that the circular injection work is realized.

Furthermore, a pressure sensor is arranged on the processing frame, and a detection end of the pressure sensor is embedded in a closed position at the top of the lower die.

Furthermore, be equipped with temperature sensor on the handling frame, temperature sensor's detection pot head is located on the sprue.

Furthermore, the air outlet end of the air cooler is respectively connected with the air inlet end of the cooling copper pipe and the air inlet end of the metal shaping hose.

Furthermore, guide rods are fixedly inserted at the corners of the top of the lower die respectively, and guide insertion holes corresponding to the guide rods are formed at the corners of the upper die respectively.

Further, the processor is electrically connected with the data storage module, the networking module and the Bluetooth module.

Further, the air pressure sensor, the pressure sensor and the temperature sensor are electrically connected with the processor through leads.

Further, the processor is electrically connected with the electric heating jacket, the air cooler and the vacuum pump through wires.

Further, the solenoid valve is installed to sprue feed end.

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

1. assembling a hydraulic cylinder for pressing at the top of the upper die, installing and connecting the output end of the hydraulic cylinder for pressing with the top of the upper die, and then connecting a nozzle of a hot-melting material injection component with a material injection port of the upper die; the method comprises the steps that a hydraulic cylinder is added to an upper die, so that the lower die and the upper die are completely closed, a pressure value of a covering part between the lower die and the upper die is detected through a pressure sensor, a filling port is closed through an electromagnetic valve after the pressure reaches a set value, the filling port cannot circulate, a vacuum pump is used for vacuumizing an exhaust nozzle, so that negative pressure is formed in a die cavity between the lower die and the upper die, and an air pressure sensor is used for detecting air pressure; after the air pressure detected by the air pressure sensor reaches a composite set value, the host machine controls the hot-melting part to work, so that the nozzle injects materials into the lower die and the upper die through the injection port, and the hot-melting injection molding materials can flow into the die cavity under the quick pressure through the negative pressure of the die cavity between the lower die and the upper die, thereby greatly improving the injection molding speed, filling the die cavity with the molten materials and greatly reducing the hollowing phenomenon;

2. after the injection molding is finished, the air cooler is used for supplying air to the cooling copper pipe in the cooling plate, so that the surface of the upper mold is quickly reduced, the internal mold material is quickly formed, the upper mold is lifted by the hydraulic cylinder, the formed mold material is taken out by personnel, after the upper mold is opened, the pressure sensor loses pressure, an electric signal is transmitted to the processor, the processor is used for controlling the air cooler to transmit cold air to the metal forming hose, the spray head of the metal forming hose is used for spraying the cooling air to the mold material in the mold, so that the mold material is secondarily cooled, the molding effect of the mold material is better ensured, the surface temperature of the mold material can be reduced, and the personnel can be prevented from being scalded; after the mold material is taken out, the hydraulic cylinder presses down the upper mold again to realize the circular injection work,

3. this application detects the sealing pressure between to the mould through the sensing of multiunit sensor, it is too not hard up to avoid between the mould, the condition of production flash, bleed through carrying out the negative pressure in to the mould, make the notes material can flow into fast and cloth and to the gap of die cavity, the phenomenon of greatly reduced hollowing bubble appears, effectively improve the precision of processing, detect the temperature of sprue through temperature sensor, treat that the sprue temperature is less than the setting value after, start the electrical heating cover by the treater, add thermal treatment to the sprue, avoid melting the sprue temperature to hang down unable normal circulation.

Drawings

Fig. 1 is a schematic view of the overall structure of a processing apparatus for improving the processing accuracy of an injection mold and a processing method thereof according to the present invention.

Fig. 2 is a schematic structural diagram of an upper mold of the processing apparatus for improving the processing precision of the injection mold and the processing method thereof according to the present invention.

Fig. 3 is an electrical connection diagram of a processing device and a processing method thereof for improving the processing precision of an injection mold according to the present invention.

In the figure: 1. processing a frame; 2. a lower die; 3. an upper die; 4. a material injection port; 5. an electric heating jacket; 6. a cooling plate; 7. cooling the copper pipe; 8. an exhaust nozzle; 9. a one-way valve; 10. an air pressure sensor; 11. a guide jack; 12. a guide bar; 13. an air cooler; 14. a metal sizing hose; 15. a spray head; 16. an air tube; 17. a vacuum pump; 18. a host; 19. a processor; 20. a data storage module; 21. a networking module; 22. a Bluetooth module; 26. a pressure sensor; 27. a temperature sensor.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

As shown in fig. 1-3, a processing device for improving the processing precision of an injection mold comprises a processing frame 1, a lower mold 2, an upper mold 3, a cooling plate 6, a pressure sensor 26 and a temperature sensor 27, wherein the top of the processing frame 1 is fixedly provided with the lower mold 2, the upper cover of the lower mold 2 is provided with the upper mold 3, the middle part of the top of the upper mold 3 is provided with a filling port 4, two sides of the periphery of the bottom end of the filling port 4 are respectively clamped and sleeved with an electric heating sleeve 5, the cooling plate 6 is arranged at the top of the upper mold 3 and positioned at the periphery of the filling port 4, the inner snake-shaped pipe 7 is arranged in a penetrating manner and cooling copper pipe, one side of the top of the upper mold 3 is provided with an exhaust nozzle 8, the exhaust nozzle 8 is sleeved with a check valve 9, an air pressure sensor 10 is sleeved between the check valve 9 and the exhaust nozzle 8, the air outlet end of the check valve 9 is connected with a vacuum pump, processing frame 1 top just is located 2 one sides of bed die and lays and installs metal forming hose 14, metal forming hose 14 top gas outlet is connected with shower nozzle 15, air-cooler 13 has been laid to one end in the processing frame 1, air-cooler 13 one side is equipped with host computer 18, host computer 18 includes treater 19, data storage module 20, networking module 21 and bluetooth module 22.

The specific processing method comprises the following steps:

the method comprises the following steps: assembling a hydraulic cylinder for pressing at the top of the upper die 3, installing and connecting the output end of the hydraulic cylinder for pressing with the top of the upper die 3, and then connecting a nozzle of a hot-melting material injection component with an injection port 4 of the upper die 3;

step two: after the first step is assembled, the upper die 3 is added through a hydraulic cylinder, so that the lower die 2 and the upper die 3 are completely closed, the pressure value of the covering between the lower die 2 and the upper die 3 is detected through a pressure sensor 26, and after the pressure reaches a set value, the injection port 4 is closed through an electromagnetic valve, so that the injection port 4 cannot be communicated, the exhaust nozzle 8 is vacuumized through a vacuum pump 17, so that negative pressure is formed in a die cavity between the lower die 2 and the upper die 3, and the air pressure is detected through an air pressure sensor 10;

step three: after the air pressure detected by the air pressure sensor 10 in the second step reaches a composite set value, the host machine 18 controls the hot-melting part to work, so that the nozzle of the hot-melting part injects materials into the lower die 2 and the upper die 3 through the injection port 4, and the hot-melting injection molding materials can flow into the die cavity quickly under pressure through the negative pressure of the die cavity between the lower die 2 and the upper die 3, thereby greatly improving the injection molding speed, filling the die cavity with molten materials and greatly reducing the hollowing phenomenon;

step four: after the injection molding is finished, the air cooler 13 supplies air to the cooling copper pipe 7 in the cooling plate 6, so that the surface of the upper mold 3 is quickly reduced to facilitate the quick forming of the internal mold material, the upper mold 3 is lifted by the hydraulic cylinder, the formed mold material is taken out by personnel, after the upper mold 3 is opened, the pressure sensor 26 loses pressure, an electric signal is transmitted to the processor 19, the processor 19 controls the air cooler 13 to transmit cold air to the metal forming hose 14, the spray head 15 of the metal forming hose 14 sprays the cold air to the mold material in the mold, and the mold material is secondarily cooled, so that the molding effect of the mold material is better ensured, the surface temperature of the mold material can be reduced, and the personnel can be prevented from being scalded;

step five: after the mold material is taken out, the upper mold 3 is pressed down again by the hydraulic cylinder, so that the circular injection work is realized.

Wherein, be equipped with pressure sensor 26 on the handling frame 1, the detection end of pressure sensor 26 inlays to be established and installs in the closed department at lower mould 2 top.

In the present embodiment, as shown in fig. 1, the pressure applied to the closing position of the lower mold 2 is detected by the pressure sensor 26 to ensure the accuracy of the closing between the molds.

Wherein, be equipped with temperature sensor 27 on the handling frame 1, temperature sensor 27's detection pot head is located on sprue 4.

In the present embodiment, as shown in fig. 1, the temperature of the injection port 4 is detected by the temperature sensor 27.

Wherein, the air-out end of air-cooler 13 is connected with the inlet end of cooling copper pipe 7 and the inlet end of metal forming hose 14 respectively.

In this embodiment, as shown in fig. 1 and 2, cold air is provided to the cooling copper tube 7 and the metal shaping hose 14 by the air cooler 13.

Guide rods 12 are fixedly inserted at the corners of the top of the lower die 2, and guide insertion holes 11 corresponding to the guide rods 12 are formed at the corners of the upper die 3.

In this embodiment, as shown in fig. 2, the arrangement of the guide rod 12 and the guide insertion hole 11 can calibrate and guide the covering position of the lower die 2 and the upper die 3, so as to prevent the two from deviating.

Wherein, the processor 19 is electrically connected with the data storage module 20, the networking module 21 and the Bluetooth module 22.

In this embodiment, as shown in fig. 1, through the arrangement of the networking module 21 and the bluetooth module 22, a person can remotely control and monitor the device, or monitor the device through the bluetooth module 22.

The air pressure sensor 10, the pressure sensor 26 and the temperature sensor 27 are electrically connected with the processor 19 through wires.

In this embodiment, as shown in fig. 3, the air pressure sensor 10, the pressure sensor 26, and the temperature sensor 27 transmit the detected values to the processor 19.

The processor 19 is electrically connected with the electric heating jacket 5, the air cooler 13 and the vacuum pump 17 through wires.

Wherein, the solenoid valve is installed to sprue 4 feed end.

In this embodiment, as shown in fig. 1, the solenoid valve facilitates the control of the circulation of the injection port 4 by a person.

Example 2

As shown in fig. 1-3, a processing device for improving the processing precision of an injection mold comprises a processing frame 1, a lower mold 2, an upper mold 3, a cooling plate 6, a pressure sensor 26 and a temperature sensor 27, wherein the top of the processing frame 1 is fixedly provided with the lower mold 2, the upper cover of the lower mold 2 is provided with the upper mold 3, the middle part of the top of the upper mold 3 is provided with a filling port 4, two sides of the periphery of the bottom end of the filling port 4 are respectively clamped and sleeved with an electric heating sleeve 5, the cooling plate 6 is arranged at the top of the upper mold 3 and positioned at the periphery of the filling port 4, the inner snake-shaped pipe 7 is arranged in a penetrating manner and cooling copper pipe, one side of the top of the upper mold 3 is provided with an exhaust nozzle 8, the exhaust nozzle 8 is sleeved with a check valve 9, an air pressure sensor 10 is sleeved between the check valve 9 and the exhaust nozzle 8, the air outlet end of the check valve 9 is connected with a vacuum pump, processing frame 1 top just is located 2 one sides of bed die and lays and installs metal forming hose 14, metal forming hose 14 top gas outlet is connected with shower nozzle 15, air-cooler 13 has been laid to one end in the processing frame 1, air-cooler 13 one side is equipped with host computer 18, host computer 18 includes treater 19, data storage module 20, networking module 21 and bluetooth module 22.

The specific processing method comprises the following steps:

the method comprises the following steps: assembling a hydraulic cylinder for pressing at the top of the upper die 3, installing and connecting the output end of the hydraulic cylinder for pressing with the top of the upper die 3, and then connecting a nozzle of a hot-melting material injection component with an injection port 4 of the upper die 3;

step two: after the first step is assembled, the upper die 3 is added through a hydraulic cylinder, so that the lower die 2 and the upper die 3 are completely closed, the pressure value of the covering between the lower die 2 and the upper die 3 is detected through a pressure sensor 26, and after the pressure reaches a set value, the injection port 4 is closed through an electromagnetic valve, so that the injection port 4 cannot be communicated, the exhaust nozzle 8 is vacuumized through a vacuum pump 17, so that negative pressure is formed in a die cavity between the lower die 2 and the upper die 3, and the air pressure is detected through an air pressure sensor 10;

step three: after the air pressure detected by the air pressure sensor 10 in the second step reaches a composite set value, the host machine 18 controls the hot-melting part to work, so that the nozzle of the hot-melting part injects materials into the lower die 2 and the upper die 3 through the injection port 4, and the hot-melting injection molding materials can flow into the die cavity quickly under pressure through the negative pressure of the die cavity between the lower die 2 and the upper die 3, thereby greatly improving the injection molding speed, filling the die cavity with molten materials and greatly reducing the hollowing phenomenon;

step four: after the injection molding is finished, the air cooler 13 supplies air to the cooling copper pipe 7 in the cooling plate 6, so that the surface of the upper mold 3 is quickly reduced to facilitate the quick forming of the internal mold material, the upper mold 3 is lifted by the hydraulic cylinder, the formed mold material is taken out by personnel, after the upper mold 3 is opened, the pressure sensor 26 loses pressure, an electric signal is transmitted to the processor 19, the processor 19 controls the air cooler 13 to transmit cold air to the metal forming hose 14, the spray head 15 of the metal forming hose 14 sprays the cold air to the mold material in the mold, and the mold material is secondarily cooled, so that the molding effect of the mold material is better ensured, the surface temperature of the mold material can be reduced, and the personnel can be prevented from being scalded;

step five: after the mold material is taken out, the upper mold 3 is pressed down again by the hydraulic cylinder, so that the circular injection work is realized.

Wherein, be equipped with pressure sensor 26 on the handling frame 1, the detection end of pressure sensor 26 inlays to be established and installs in the closed department at lower mould 2 top.

In the present embodiment, as shown in fig. 1, the pressure sensor 26 is used to detect the pressure at which the lower mold 2 is pressed to close.

Wherein, be equipped with temperature sensor 27 on the handling frame 1, temperature sensor 27's detection pot head is located on sprue 4.

In the present embodiment, as shown in fig. 1, the temperature sensor 27 is used to detect the temperature of the injection port 4.

Wherein, the air-out end of air-cooler 13 is connected with the inlet end of cooling copper pipe 7 and the inlet end of metal forming hose 14 respectively.

Wherein, an air flow sensor is arranged on the air inlet end of the air exhaust nozzle 8.

In this embodiment, as shown in fig. 1, the flow velocity of the exhaust nozzle 8 is known by the flow sensor, which is helpful for the person to control the flow rate of the air.

Wherein, the processor 19 is electrically connected with the data storage module 20, the networking module 21 and the Bluetooth module 22.

The air pressure sensor 10, the pressure sensor 26 and the temperature sensor 27 are electrically connected with the processor 19 through wires.

Wherein, a pressure alarm is assembled on the injection port 4.

In this embodiment, as shown in fig. 1, the working pressure of the injection port 4 is monitored and known in real time by the pressure alarm, so as to avoid the material spraying phenomenon.

Example 3

As shown in fig. 1-3, a processing device for improving the processing precision of an injection mold comprises a processing frame 1, a lower mold 2, an upper mold 3, a cooling plate 6, a pressure sensor 26 and a temperature sensor 27, wherein the top of the processing frame 1 is fixedly provided with the lower mold 2, the upper cover of the lower mold 2 is provided with the upper mold 3, the middle part of the top of the upper mold 3 is provided with a filling port 4, two sides of the periphery of the bottom end of the filling port 4 are respectively clamped and sleeved with an electric heating sleeve 5, the cooling plate 6 is arranged at the top of the upper mold 3 and positioned at the periphery of the filling port 4, the inner snake-shaped pipe 7 is arranged in a penetrating manner and cooling copper pipe, one side of the top of the upper mold 3 is provided with an exhaust nozzle 8, the exhaust nozzle 8 is sleeved with a check valve 9, an air pressure sensor 10 is sleeved between the check valve 9 and the exhaust nozzle 8, the air outlet end of the check valve 9 is connected with a vacuum pump, processing frame 1 top just is located 2 one sides of bed die and lays and installs metal forming hose 14, metal forming hose 14 top gas outlet is connected with shower nozzle 15, air-cooler 13 has been laid to one end in the processing frame 1, air-cooler 13 one side is equipped with host computer 18, host computer 18 includes treater 19, data storage module 20, networking module 21 and bluetooth module 22.

The specific processing method comprises the following steps:

the method comprises the following steps: assembling a hydraulic cylinder for pressing at the top of the upper die 3, installing and connecting the output end of the hydraulic cylinder for pressing with the top of the upper die 3, and then connecting a nozzle of a hot-melting material injection component with an injection port 4 of the upper die 3;

step two: after the first step is assembled, the upper die 3 is added through a hydraulic cylinder, so that the lower die 2 and the upper die 3 are completely closed, the pressure value of the covering between the lower die 2 and the upper die 3 is detected through a pressure sensor 26, and after the pressure reaches a set value, the injection port 4 is closed through an electromagnetic valve, so that the injection port 4 cannot be communicated, the exhaust nozzle 8 is vacuumized through a vacuum pump 17, so that negative pressure is formed in a die cavity between the lower die 2 and the upper die 3, and the air pressure is detected through an air pressure sensor 10;

step three: after the air pressure detected by the air pressure sensor 10 in the second step reaches a composite set value, the host machine 18 controls the hot-melting part to work, so that the nozzle of the hot-melting part injects materials into the lower die 2 and the upper die 3 through the injection port 4, and the hot-melting injection molding materials can flow into the die cavity quickly under pressure through the negative pressure of the die cavity between the lower die 2 and the upper die 3, thereby greatly improving the injection molding speed, filling the die cavity with molten materials and greatly reducing the hollowing phenomenon;

step four: after the injection molding is finished, the air cooler 13 supplies air to the cooling copper pipe 7 in the cooling plate 6, so that the surface of the upper mold 3 is quickly reduced to facilitate the quick forming of the internal mold material, the upper mold 3 is lifted by the hydraulic cylinder, the formed mold material is taken out by personnel, after the upper mold 3 is opened, the pressure sensor 26 loses pressure, an electric signal is transmitted to the processor 19, the processor 19 controls the air cooler 13 to transmit cold air to the metal forming hose 14, the spray head 15 of the metal forming hose 14 sprays the cold air to the mold material in the mold, and the mold material is secondarily cooled, so that the molding effect of the mold material is better ensured, the surface temperature of the mold material can be reduced, and the personnel can be prevented from being scalded;

step five: after the mold material is taken out, the upper mold 3 is pressed down again by the hydraulic cylinder, so that the circular injection work is realized.

Wherein, be equipped with pressure sensor 26 on the handling frame 1, the detection end of pressure sensor 26 inlays to be established and installs in the closed department at lower mould 2 top.

Wherein, be equipped with temperature sensor 27 on the handling frame 1, temperature sensor 27's detection pot head is located on sprue 4.

Wherein, the air outlet end of the air cooler 13 is equipped with a temperature sensor and an airflow sensor.

In the embodiment, as shown in fig. 1, the temperature and airflow detection is performed on the exhaust end of the air cooler 13 by a temperature sensor and an airflow sensor.

Wherein, the processor 19 is electrically connected with the data storage module 20, the networking module 21 and the Bluetooth module 22.

The air pressure sensor 10, the pressure sensor 26 and the temperature sensor 27 are electrically connected with the processor 19 through wires.

In the present embodiment, as shown in fig. 1 and 3, the air pressure sensor 10, the pressure sensor 26 and the temperature sensor 27 transmit the detected data to the processor 19, and the detected data is read and stored by the processor 19.

Wherein the air inlet end of the air cooler 13 is equipped with a filter.

In this embodiment, as shown in fig. 1, the air entering the air cooler 13 is filtered by a filter.

Wherein, the host 18 is equipped with a high temperature alarm module.

In this embodiment, as shown in fig. 1, the high temperature alarm module is used to monitor the working environment of the host 18 at a high temperature, so as to prevent the working environment from being too hot.

The working principle and the using process of the invention are as follows: assembling a hydraulic cylinder for pressing at the top of the upper die 3, installing and connecting the output end of the hydraulic cylinder for pressing with the top of the upper die 3, and then connecting a nozzle of a hot-melting material injection component with an injection port 4 of the upper die 3; the upper die 3 is added through a hydraulic cylinder, so that the lower die 2 and the upper die 3 are completely closed, the pressure value of the covering between the lower die 2 and the upper die 3 is detected through a pressure sensor 26, after the pressure reaches a set value, the injection port 4 is closed through an electromagnetic valve, so that the injection port 4 cannot be communicated, the exhaust nozzle 8 is vacuumized through a vacuum pump 17, so that a negative pressure is formed in a die groove between the lower die 2 and the upper die 3, and the air pressure is detected through an air pressure sensor 10; after the air pressure detected by the air pressure sensor 10 reaches a composite set value, the host machine 18 controls the hot-melting part to work, so that the nozzle injects materials into the lower die 2 and the upper die 3 through the injection port 4, the hot-melting injection molding materials can flow into the die cavity under the fast pressure through the negative pressure of the die cavity between the lower die 2 and the upper die 3, the injection molding speed is greatly improved, and the melt can be filled in the die cavity, so that the hollowing phenomenon is greatly reduced; after the injection molding is finished, the air cooler 13 supplies air to the cooling copper pipe 7 in the cooling plate 6, so that the surface of the upper mold 3 is quickly reduced to facilitate the quick forming of the internal mold material, the upper mold 3 is lifted by the hydraulic cylinder, the formed mold material is taken out by personnel, after the upper mold 3 is opened, the pressure sensor 26 loses pressure, an electric signal is transmitted to the processor 19, the processor 19 controls the air cooler 13 to transmit cold air to the metal forming hose 14, the spray head 15 of the metal forming hose 14 sprays the cold air to the mold material in the mold, and the mold material is secondarily cooled, so that the molding effect of the mold material is better ensured, the surface temperature of the mold material can be reduced, and the personnel can be prevented from being scalded; after the mold material is taken out, the upper mold 3 is pressed down again by the hydraulic cylinder, so that the circular injection work is realized.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.