CN218615302U - Glass steel stock processing injection molding machine - Google Patents

Abstract

The utility model relates to an injection molding machine technical field, the utility model provides a glass steel stock processing injection molding machine, it includes the injection molding machine body, be provided with injection mould and moulded die on the injection molding machine body, ejecting subassembly sets up the inside at the moulded die, it is ejecting to be used for the stock after will cooling off the shaping, the processing subassembly sets up the one side at the injection mould, a glass steel raw materials for inciting somebody to action the notes storage bucket pours into melts, cooling body sets up the one side at the moulded die, a glass steel raw materials for making in the moulding die cools off fast, this a glass steel stock processing injection molding machine can be more stable cools off the glass steel raw materials in injection mould and the moulded die, and the coolant liquid after the use still can dispel the heat through radiator unit, make coolant liquid can be more stable when cooling glass steel raw materials.

Description

Glass steel stock processing injection molding machine

Technical Field

The utility model relates to an injection molding machine technical field, concretely relates to glass steel stock processing injection molding machine.

Background

The anchor rod is the most basic component of roadway support in the contemporary coal mine, it can consolidate the surrounding rock of the roadway together, make the surrounding rock self support itself, thus make the surrounding rock in the roadway firmer, the anchor rod is not only used in the mine now, also used in the engineering technology, carry on the body reinforcement to the side slope, tunnel, dam body, the material to describe the pole can adopt the glass steel material, the glass steel possesses the characteristic such as having high strength, light in weight, heat-resisting and corrosion-resistant, etc., and generally need to use the injection molding machine to produce when using the glass steel to make and describing the pole, the injection molding machine is also known as injection molding machine or injection machine, it heats and melts the glass steel and conveys to the plastic forming mould, utilize the plastic forming mould to make the shape of the anchor rod.

When the existing injection molding machine utilizes the glass fiber reinforced plastic to produce the anchor rod, the glass fiber reinforced plastic is continuously heated by using a heating device until the glass fiber reinforced plastic is melted, then the melted glass fiber reinforced plastic is conveyed into a forming die, the glass fiber reinforced plastic is cooled by cooling liquid in the forming die, and the used cooling liquid is usually stored naturally and is not subjected to cooling treatment, so that when the injection molding machine is used for a long time, part of the cooling liquid is not cooled, and the produced part of the glass fiber reinforced plastic anchor rod is not completely cooled and is deformed.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

To among the prior art stock need use the injection molding machine when adopting glass steel material, and the coolant liquid that is used for cooling the stock among the forming die in the injection molding machine does not take the cooling to handle, leads to the stock that the part produced not to cool off the completion and take place the problem of deformation, the utility model provides a glass steel stock processing injection molding machine of injection molding machine.

(II) technical scheme

In order to achieve the above object, the utility model provides a following technical scheme:

the glass fiber reinforced plastic anchor rod processing injection molding machine comprises an injection molding machine body, wherein an injection mold and a forming mold are arranged on the injection molding machine body.

Preferably, in order to conveniently eject the anchor rod after cooling forming, an ejection assembly is arranged in the forming die and comprises an electric cylinder, the electric cylinder is fixedly installed in the forming die, and the output end of the electric cylinder penetrates through the forming die and extends out of a forming groove of the forming die.

Furthermore, in order to facilitate melting of the glass fiber reinforced plastic raw material injected into the injection barrel, a processing assembly is arranged on one side of the injection mold and comprises the injection barrel, a plurality of electromagnetic heating rings are transversely arranged on the injection barrel, a material injection pipe is fixedly connected to one end, close to the injection mold, of the injection barrel, is embedded into the injection mold and is fixedly connected with the injection mold in a sealing mode, a material injection pipe is fixedly connected to the output end of the material injection pipe, the material injection pipe penetrates through the injection mold and is communicated with the outside, and a feeding port is formed in the injection barrel.

Still further, in order to facilitate quick cooling of the glass fiber reinforced plastic raw material in the forming mold, a cooling mechanism is arranged on one side of the forming mold and comprises a cooling pipe and a liquid storage box, the cooling pipe is sleeved in the forming mold in a surrounding mode, the input end and the output end of the cooling pipe penetrate through the forming mold and extend out of the forming mold, telescopic pipes are fixedly connected to the input end and the output end of the cooling pipe, a liquid storage cavity and a heat dissipation cavity are formed in the liquid storage box, the top end of the liquid storage box is communicated with a liquid inlet pipe, and the other ends of the two telescopic pipes penetrate through the liquid storage box and are respectively communicated with the liquid storage cavity and the inside of the water storage cavity.

As a further scheme of this scheme, in order to be able to be quick with the cooling liquid in the cooling tube cool down, through being provided with radiator unit in the liquid storage box, radiator unit includes isolated case, circulating cooling tube and radiator fan, isolated case setting in the liquid storage cavity and with the inner wall sealing connection of liquid storage box, the interior diapire fixed mounting of isolated case has circulating water pump, circulating water pump's output fixedly connected with drinking-water pipe, the drinking-water pipe runs through isolated case and with the inside intercommunication of liquid storage cavity, circulating water pump's output fixedly connected with raceway, the raceway runs through the top of isolated case and stretches into to the liquid storage cavity in, the other end fixedly connected with control pipe of raceway, control pipe is through the input fixed connection of flexible pipe with the cooling tube, circulating cooling tube is snakelike evenly distributed in the heat dissipation cavity, and the one end of circulating cooling tube runs through the heat dissipation cavity and stretches out to the heat dissipation cavity, circulating cooling tube is located on the terminal surface outside the heat dissipation ring flange cavity and through removable the fluid-discharge tube of installing, the one end of fluid-discharge tube runs through liquid storage box and communicates with the inside of cavity, has seted up air intake and has water storage on the heat dissipation cavity, the output of radiator fan communicates with the air outlet.

As a further scheme of the scheme, in order to facilitate the injection of the glass fiber reinforced plastic raw material melted in the processing assembly between the injection mold and the forming mold, a transmission mechanism is arranged on one side of the processing assembly and comprises an installation box and a conveying screw rod, the outer circle of the conveying screw rod is tightly attached to the inner wall of the injection barrel, and the conveying shaft is rotatably connected with the inner wall of the injection barrel.

On the basis of aforementioned scheme, for convenient control drive mechanism is in annotating storage bucket internal rotation and lateral sliding, is provided with drive assembly through the inside at the install bin, drive assembly includes cylinder and servo motor, the cylinder passes through the inner wall fixed connection of mounting panel and install bin, and the output of cylinder is rotated and is installed the connecting axle, the other end and the conveying screw fixed connection of connecting axle, fixed mounting has driven gear on the connecting axle, servo motor's bottom and the interior diapire fixed connection of install bin, servo motor's output fixedly connected with drive shaft, fixed mounting has with driven gear engaged with driving gear in the drive shaft.

On the basis of the scheme, in order to facilitate extrusion of the melted glass fiber reinforced plastic raw material between the injection mold and the forming mold, an extrusion assembly is arranged at one end, away from the mounting box, of the conveying screw rod, the extrusion assembly comprises a connecting rod, one end of the connecting rod is fixedly connected with the conveying screw rod, a diamond-shaped check block is fixedly connected to the other end of the connecting rod, a control ring is sleeved on the diamond-shaped check block, the control ring is tightly attached to the inner wall of the injection barrel, a limiting column is fixedly connected to one end, away from the connecting rod, of the diamond-shaped check block, a conical ejection block is fixedly connected to the other end of the limiting column, and the conical ejection block is connected with the control ring through a plurality of limiting telescopic rods.

(III) advantageous effects

Compared with the prior art, the utility model provides a glass steel stock processing injection molding machine possesses following beneficial effect:

through the ejecting subassembly that sets up, the stock after being convenient for cool off the shaping between injection mould and moulded die is ejecting, make the pole of tracing after the shaping can convenient taking out, through the processing subassembly that sets up, be convenient for melt the glass steel raw materials of pouring into in the storage bucket, make it can input into injection mould and moulded die, through the cooling body that sets up, be convenient for make the glass steel raw materials quick cooling in the moulding die, make the stock can make things convenient for quick production, through the radiator unit that sets up, can be quick cool down the coolant liquid in the cooling tube, make the glass steel raw materials at injection mould and moulded die refrigerated more quick stable, through the drive mechanism who sets up, be convenient for control drive mechanism at the storage bucket internal rotation and lateral sliding, make the convenient injection of glass steel raw materials enter injection mould and moulded die, through the drive assembly that sets up, be convenient for control drive mechanism at the storage bucket internal rotation and lateral sliding of injection, make drive mechanism can easily pour into the glass steel raw materials into mould and moulded die, through the extrusion subassembly that sets up, can realize the injection quantity of quantitative control glass steel raw materials.

Therefore, this glass steel stock processing injection molding machine can be more stable cool off the glass steel raw materials in injection mould and the forming die to the coolant liquid after the use still can dispel the heat through radiator unit, makes the coolant liquid can be more stable when cooling off the glass steel raw materials.

Drawings

FIG. 1 is a schematic view of a partially cut-away perspective structure of a glass fiber reinforced plastic anchor rod processing injection molding machine;

FIG. 2 is a schematic view of a portion A of FIG. 1;

FIG. 3 is a schematic view of the overall structure of a glass fiber reinforced plastic anchor rod processing injection molding machine;

FIG. 4 is a schematic view of a partial structure of an isolation box, a cooling fan, a circulating water pump and the like in a glass fiber reinforced plastic anchor rod processing injection molding machine;

fig. 5 is a schematic view of a partial structure of an injection molding barrel, a conveying screw, a diamond-shaped stop block and the like in an injection molding machine for processing a glass fiber reinforced plastic anchor rod.

Description of the reference numerals: 1. an injection molding machine body; 2. ejecting the assembly; 3. processing the assembly; 4. a cooling mechanism; 5. a transmission mechanism; 6. a heat dissipating component; 7. a drive assembly; 8. an extrusion assembly; 101. injection molding; 102. forming a mould; 201. an electric cylinder; 301. A material injection barrel; 302. an electromagnetic heating coil; 303. a material injection pipe; 304. a delivery pipe; 401. a cooling tube; 402. a liquid storage tank; 403. A telescopic pipe; 404. a liquid storage cavity; 405. a heat dissipation cavity; 406. a liquid inlet pipe; 501. installing a box; 502. a conveying screw; 601. an isolation box; 602. circulating heat dissipation pipes; 603. a heat radiation fan; 604. a circulating water pump; 605. a water pumping pipe; 606. a water delivery pipe; 607. a control tube; 608. a flange plate; 609. a liquid discharge pipe; 701. a cylinder; 702. a servo motor; 703. mounting a plate; 704. a driven gear; 705. a drive shaft; 706. a driving gear; 801. a connecting rod; 802. a diamond-shaped stop block; 803. a control loop; 804. a limiting column; 805. a conical top block; 806. a telescopic rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. 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.

Referring to fig. 1, 3 and 5, a glass fiber reinforced plastic anchor rod processing injection molding machine comprises an injection molding machine body 1, an injection mold 101 and a forming mold 102 are arranged on the injection molding machine body 1, a hydraulic press is fixedly arranged at one end of the forming mold 102 far away from the injection mold 101, the opening and closing between the forming mold 102 and the injection mold 101 are conveniently controlled through the hydraulic press, in order to conveniently eject a cooled and formed anchor rod, an ejection assembly 2 is arranged inside the forming mold 102, an installation cavity is formed in the forming mold 102, an electric cylinder 201 is fixedly arranged in the installation cavity, an output end of the electric cylinder 201 penetrates through the forming mold 102 and extends out of a forming groove of the forming mold 102, one end of the installation cavity is provided with a plurality of heat dissipation holes, and heat dissipation is conveniently carried out on the electric cylinder 201 through the plurality of heat dissipation holes, thereby can make the work that electronic jar 201 can be stable, in order to be convenient for melt the glass steel raw materials that annotate storage bucket 301 and pour into, be provided with processing subassembly 3 through one side at injection mould 101, processing subassembly 3 includes annotating storage bucket 301, it transversely is provided with a plurality of electromagnetic heating circle 302 on the storage bucket 301 to annotate, annotate the one end fixedly connected with of storage bucket 301 pressing close to injection mould 101 and annotate material pipe 303, annotate in material pipe 303 imbeds to injection mould 101 and with the sealed fixed connection of injection mould 101, annotate the output fixedly connected with conveying pipeline 304 of material pipe 303, conveying pipeline 304 runs through injection mould 101 and communicates with the external world, annotate and seted up the dog-house on the storage bucket 301, the top intercommunication of dog-house has the feeder that is used for carrying the glass steel raw materials, the feeder is convenient for dropping into the glass steel raw materials to annotate in the storage bucket 301 through the dog-house.

Referring to fig. 1, 3 and 4, in order to facilitate rapid cooling of the glass fiber reinforced plastic material in the forming mold 102, a cooling mechanism 4 is disposed on one side of the forming mold 102, the cooling mechanism 4 includes a cooling pipe 401 and a liquid storage tank 402, the cooling pipe 401 is sleeved around the forming mold 102, the cooling pipe 401 is rectangular and surrounds the forming mold 102, so as to facilitate cooling of the glass fiber reinforced plastic material in the forming mold 102, an input end and an output end of the cooling pipe 401 both penetrate through the forming mold 102 and extend out to the outside, an input end and an output end of the cooling pipe 401 are both fixedly connected with telescopic pipes 403, a liquid storage cavity 404 and a heat dissipation cavity 405 are disposed inside the liquid storage tank 402, the liquid storage cavity 404 and the heat dissipation cavity 405 are separated by a partition, a top end of the liquid storage tank 402 is communicated with a liquid inlet pipe 406, the other ends of the two telescopic pipes 403 penetrate through the liquid storage tank 402 and are respectively communicated with the liquid storage cavity 404 and the water storage cavity, and the liquid storage cavity 404 is disposed above the water storage cavity.

Referring to fig. 1, 3 and 4, in order to rapidly cool the cooling liquid in the cooling pipe 401, a heat dissipation module 6 is disposed in the liquid storage tank 402, the heat dissipation module 6 includes an isolation tank 601, a circulation heat dissipation pipe 602 and a heat dissipation fan 603, the isolation tank 601 is disposed in the liquid storage cavity 404 and is hermetically connected to the inner wall of the liquid storage tank 402, a circulation water pump 604 is fixedly disposed on the inner bottom wall of the isolation tank 601, the circulation water pump 604 can be effectively protected by the isolation tank 601, thereby preventing the circulation water pump 604 from being immersed in the cooling liquid and causing a failure, an output end of the circulation water pump 604 is fixedly connected to a water pumping pipe 605, the water pumping pipe 605 penetrates through the isolation tank 601 and is communicated with the interior of the liquid storage cavity 404, an output end of the circulation water pump 604 is fixedly connected to a water pipe 606, the water pipe 606 penetrates through the top end of the isolation tank 601 and extends into the liquid storage cavity 404, another end of the water pipe 606 is fixedly connected to a control pipe 607, the other end of the water pumping pipe 606 is fixedly connected to a heat dissipation pipe 609, the circulation water pump 405, the circulation water pumping pipe 405 is connected to the heat dissipation pipe 405 through a heat dissipation pipe 405, the heat dissipation pipe 401 is connected to the heat dissipation water storage tank 402, the heat dissipation pipe 405, the heat dissipation water storage tank is uniformly connected to the heat dissipation pipe 405, the heat dissipation water storage cavity, the heat dissipation water storage tank 402, the heat dissipation pipe 405, an air inlet and an air outlet are formed in the heat dissipation cavity 405, the output end of the heat dissipation fan 603 is communicated with the interior of the heat dissipation cavity 405 through the air inlet, heat dissipation of the circulating heat dissipation pipe 602 is facilitated through the arranged heat dissipation fan 603, and meanwhile cold air is conveniently blown into the heat dissipation cavity 405 through the arranged air inlet and air outlet by the heat dissipation fan 603.

Referring to fig. 1, 2 and 3, in order to facilitate the injection of the molten glass fiber reinforced plastic raw material in the processing assembly 3 between the injection mold 101 and the forming mold 102, a transmission mechanism 5 is disposed on one side of the processing assembly 3, the transmission mechanism 5 includes a mounting box 501 and a conveying screw 502, an outer circle of the conveying screw 502 is tightly attached to an inner wall of the injection barrel 301, and a conveying shaft is rotatably connected to the inner wall of the injection barrel 301, the conveying screw 502 is enabled to facilitate the conveying of the glass fiber reinforced plastic raw material into the forming mold 102 and the injection mold 101 when rotating by the tight attachment of the conveying screw 502 to the inner wall of the injection barrel 301, in order to facilitate the control of the rotation and the transverse sliding of the transmission mechanism 5 in the injection barrel 301, by disposing a driving assembly 7 in the mounting box 501, the driving assembly 7 includes a cylinder 701 and a servo motor 702, the cylinder 701 is fixedly connected to the inner wall of the mounting box 501 through a mounting plate 703, the output end of the cylinder 701 is rotatably provided with a connecting shaft, the other end of the connecting shaft is fixedly connected with the conveying screw rod 502, the connecting shaft is fixedly provided with a driven gear 704, the cylinder 701 is convenient for controlling the conveying screw rod 502 to slide transversely in the injection molding barrel through the connecting shaft, the bottom end of the servo motor 702 is fixedly connected with the inner bottom wall of the mounting box 501, the output end of the servo motor 702 is fixedly connected with a driving shaft 705, a driving gear 706 meshed with the driven gear 704 is fixedly arranged on the driving shaft 705, the servo motor 702 is convenient for driving the driving gear 706 to rotate through the driving shaft 705, when the driving gear 706 is meshed with the driven gear 704, the servo motor 702 can drive the conveying screw rod 502 to rotate, so that the conveying screw rod 502 is convenient for conveying the glass fiber reinforced plastic raw material into the forming mold 102 and the injection mold 101, and the melted glass fiber reinforced plastic raw material is convenient for being extruded into the injection mold 101 and the forming mold 102, the extrusion assembly 8 is arranged at one end, far away from the installation box 501, of the conveying screw 502, the extrusion assembly 8 comprises a connecting rod 801, one end of the connecting rod 801 is fixedly connected with the conveying screw 502, the other end of the connecting rod 801 is fixedly connected with a diamond-shaped block 802, a control ring 803 is sleeved on the diamond-shaped block, the control ring 803 is tightly attached to the inner wall of the material injection barrel 301, due to the fact that the control ring 803 is tightly attached to the inner wall of the material injection barrel 301, when the conveying screw 502 is pushed to move by an air cylinder 701, the control ring 803 cannot move along with the conveying screw 502, a gap exists between the control ring 803 and the diamond-shaped block, and therefore injection amount of glass fiber reinforced plastic raw materials can be conveniently controlled, one end, far away from the connecting rod 801, of the diamond-shaped block is fixedly connected with a limiting column 804, the other end of the limiting column 804 is fixedly connected with a conical top block 805, the conical top block is connected with the control ring 803 through a plurality of limiting telescopic rods 806, the limiting telescopic rods 806 can prevent openings between the control ring 803 and the diamond-shaped block from being larger, and can drive the control ring 803 to move when the limiting telescopic rods 806 reach the maximum length.

It should be further described that, in this embodiment, the process of melting the glass fiber reinforced plastic raw material by the electromagnetic heating ring 302 is not described herein too much, the specific melting method may refer to a specification matched with the electromagnetic heating ring for operation, the shape of the forming die 102 may be customized according to a shape to be processed, this embodiment only uses a single style, specific requirements may be customized by itself, meanwhile, the hydraulic cylinder used is not a fixed manner, the opening and closing method between the injection die 101 and the forming die 102 may be customized according to itself, and the electrical devices such as the servo motor 702, the heat dissipation fan 603, the air cylinder 701, and the electric cylinder 201 in this embodiment are conventional devices that are purchased from the market and known to those skilled in the art, and the model may be selected or customized according to actual needs.

The implementation principle of the injection molding machine for processing the glass fiber reinforced plastic anchor rod of the embodiment is as follows: when the glass fiber reinforced plastic raw material is required to be added into the material injection barrel 301, a batch feeder for conveying the glass fiber reinforced plastic raw material is communicated with a batch inlet formed in the material injection barrel 301, then the batch feeder is started, the glass fiber reinforced plastic raw material is conveyed into the material injection barrel 301, when the glass fiber reinforced plastic raw material is required to be heated and melted, a plurality of electromagnetic heating rings 302 and a servo motor 702 are started, the glass fiber reinforced plastic raw material is continuously heated until the glass fiber reinforced plastic raw material is melted, when the melted glass fiber reinforced plastic raw material is required to be injected into a space between the forming die 102 and the injection die 101, the servo motor 702 is closed, an extension switch of an air cylinder 701 is started, the air cylinder 701 pushes a conveying screw 502 to be positioned in the material injection barrel 301 to slide, when the material injection barrel 301 slides, a control ring 803 is tightly attached to the material injection barrel 301, so that a gap is generated between a rhombus of the control ring 803 and a stop block 802, the melted glass fiber reinforced plastic raw material is extruded into the space between the forming die 102 and the injection die 101 through a conical top block 805, when the injection molding die is finished, if the cooling of the cooling liquid is required, a cooling liquid circulation fan is started, a cooling liquid circulation fan 604 for continuously blowing the cooling liquid in the glass fiber reinforced plastic cooling liquid storage tank 402 is performed, and a cooling liquid storage tank is performed, if the cooling liquid storage tank 402, a cooling liquid circulation fan is started, the cooling liquid storage tank 402, and a cooling liquid storage tank 402, the cooling liquid storage tank is required to cool the cooling liquid storage tank 402, when the cooling liquid storage tank 402, and the cooling liquid storage tank 402, the cooling liquid storage tank is continuously, if the manufactured anchor rod needs to be taken out, a retraction switch of a hydraulic press fixedly installed on one side of the forming die 102 needs to be started, so that the forming die 102 is opened, and the electric cylinder 201 is started to eject the anchor rod.

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.

Claims (8)

1. The utility model provides a glass steel stock processing injection molding machine which characterized in that includes:

the injection molding machine comprises an injection molding machine body (1), wherein an injection mold (101) and a forming mold (102) are arranged on the injection molding machine body (1);

the ejection assembly (2) is arranged in the forming die (102) and is used for ejecting the cooled and formed anchor rod;

the processing assembly (3) is arranged on one side of the injection mould (101) and is used for melting the glass fiber reinforced plastic raw material injected by the injection barrel (301);

the cooling mechanism (4) is arranged on one side of the forming die (102), and is used for rapidly cooling the glass fiber reinforced plastic raw material in the forming die (102);

the transmission mechanism (5) is arranged on one side of the processing assembly (3) and is used for injecting the glass fiber reinforced plastic raw material melted in the processing assembly (3) between the injection mold (101) and the forming mold (102).

2. The glass reinforced plastic anchor rod processing injection molding machine according to claim 1, wherein the ejection assembly (2) comprises an electric cylinder (201), the electric cylinder (201) is fixedly installed in the forming mold (102), and the output end of the electric cylinder (201) penetrates through the forming mold (102) and extends into the forming groove of the forming mold (102).

3. The glass reinforced plastic anchor rod machining injection molding machine of claim 1, wherein the machining assembly (3) comprises a material injection barrel (301), a plurality of electromagnetic heating rings (302) are transversely arranged on the material injection barrel (301), one end of the material injection barrel (301) close to the injection mold (101) is fixedly connected with a material injection pipe (303), the material injection pipe (303) is embedded into the injection mold (101) and is fixedly connected with the injection mold (101) in a sealing manner, an output end of the material injection pipe (303) is fixedly connected with a material conveying pipe (304), the material conveying pipe (304) penetrates through the injection mold (101) and is communicated with the outside, and a feeding port is formed in the material injection barrel (301).

4. The glass fiber reinforced plastic anchor rod processing injection molding machine according to claim 1, wherein the cooling mechanism (4) comprises a cooling pipe (401) and a liquid storage tank (402), the cooling pipe (401) is sleeved in the forming die (102) in a surrounding manner, an input end and an output end of the cooling pipe (401) both penetrate through the forming die (102) and extend out to the outside, the input end and the output end of the cooling pipe (401) are both fixedly connected with telescopic pipes (403), a liquid storage cavity (404) and a heat dissipation cavity (405) are formed in the liquid storage tank (402), the top end of the liquid storage tank (402) is communicated with a liquid inlet pipe (406), the other ends of the two telescopic pipes (403) penetrate through the liquid storage tank (402) and are respectively communicated with the liquid storage cavity (404) and the inside of the water storage cavity, and a heat dissipation assembly (6) for cooling the cooling liquid in the cooling pipe (401) rapidly is arranged in the liquid storage tank (402).

5. The glass reinforced plastic anchor rod processing injection molding machine as claimed in claim 1, wherein the transmission mechanism (5) comprises a mounting box (501) and a conveying screw (502), a driving assembly (7) for controlling the transmission mechanism (5) to rotate and slide transversely in the injection barrel (301) is arranged in the mounting box (501), the outer circle of the conveying screw (502) is tightly attached to the inner wall of the injection barrel (301), the conveying shaft is rotatably connected with the inner wall of the injection barrel (301), and an extruding assembly (8) for extruding the melted glass reinforced plastic raw material between the injection mold (101) and the forming mold (102) is arranged at one end of the conveying screw (502) far away from the mounting box (501).

6. The glass fiber reinforced plastic anchor rod processing injection molding machine as claimed in claim 4, wherein the heat dissipation assembly (6) comprises an isolation box (601), a circulating heat dissipation pipe (602) and a heat dissipation fan (603), the isolation box (601) is arranged in the liquid storage cavity (404) and is hermetically connected with the inner wall of the liquid storage box (402), a circulating water pump (604) is fixedly arranged on the inner bottom wall of the isolation box (601), an output end of the circulating water pump (604) is fixedly connected with a water pumping pipe (605), the water pumping pipe (605) penetrates through the isolation box (601) and is communicated with the inside of the liquid storage cavity (404), an output end of the circulating water pump (604) is fixedly connected with a water pipe (606), the water pipe (606) penetrates through the top end of the isolation box (601) and extends into the liquid storage cavity (404), the other end of the water pipe (606) is fixedly connected with a control pipe (607), the control pipe (607) is fixedly connected with an input end of the cooling pipe (401) through a telescopic pipe (403), the circulating heat dissipation pipe (602) is uniformly distributed in the heat dissipation cavity (405), one end of the heat dissipation pipe (405) extends out of the heat dissipation cavity (602), and is arranged on the external heat dissipation pipe (405) and is arranged on the heat dissipation flange (405), one end of the liquid discharge pipe (609) penetrates through the liquid storage box (402) and is communicated with the inside of the water storage cavity, an air inlet and an air outlet are formed in the heat dissipation cavity (405), and the output end of the heat dissipation fan (603) is communicated with the inside of the heat dissipation cavity (405) through the air inlet.

7. The glass fiber reinforced plastic anchor rod processing injection molding machine of claim 5, characterized in that, the drive assembly (7) includes a cylinder (701) and a servo motor (702), the cylinder (701) is fixedly connected with the inner wall of the installation box (501) through a mounting plate (703), the output end of the cylinder (701) is rotatably installed with a connecting shaft, the other end of the connecting shaft is fixedly connected with the conveying screw (502), a driven gear (704) is fixedly installed on the connecting shaft, the bottom end of the servo motor (702) is fixedly connected with the inner bottom wall of the installation box (501), the output end of the servo motor (702) is fixedly connected with a drive shaft (705), and a driving gear (706) meshed with the driven gear (704) is fixedly installed on the drive shaft (705).

8. The glass fiber reinforced plastic anchor rod processing injection molding machine of claim 5, wherein the extrusion assembly (8) comprises a connecting rod (801), one end of the connecting rod (801) is fixedly connected with the conveying screw (502), the other end of the connecting rod (801) is fixedly connected with a diamond-shaped block (802), a control ring (803) is sleeved on the diamond-shaped block, the control ring (803) is tightly attached to the inner wall of the injection barrel (301), one end of the diamond-shaped block, far away from the connecting rod (801), is fixedly connected with a limiting column (804), the other end of the limiting column (804) is fixedly connected with a conical top block (805), and the conical top block (805) is connected with the control ring (803) through a plurality of limiting telescopic rods (806).

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