CN209822130U - Simulation injection training teaching device - Google Patents

Abstract

The utility model discloses a real teaching device of instructing of simulation injection molding, including base and coolant liquid board, the base below is equipped with the teaching table, and the supporting shoe is connected on its base right side, and installs coolant liquid pipeline above the base is inside to coolant liquid pipeline connects the fixed plate above, the coolant liquid hole has been inlayed to the fixed plate top, and mould shaping piece layer is installed to its coolant liquid hole below, and coolant liquid hole right side is equipped with the export of moulding plastics, the screw rod of moulding plastics is connected on the check valve right side, and its screw rod right side of moulding plastics installs the second connecting rod, and second connecting rod right side is equipped with changes the pearl ball to mould plastics screw rod outside both ends and install the heating plate, the support column has been inlayed to coolant liquid board left side. This real teaching device of instructing of simulating moulding plastics changes the motor rotation of former equipment into the artifical explanation that rotates of commentaries on classics pearl ball, through fluid flow to the real standard of segmentation explanation simulation of moulding plastics has solved the injection molding machine and is instructing the time, the more of student and the great of equipment, the problem of the unsuitable on-the-spot teaching.

Description

Simulation injection training teaching device

Technical Field

The utility model relates to a teaching device technical field specifically is a real teaching device of instructing of simulation moulding plastics.

Background

An injection molding machine is also known as an injection molding machine or an injection machine. The injection molding machine can heat plastic, apply high pressure to molten plastic, and inject the molten plastic to fill a mold cavity, but the injection molding machine is not suitable for on-site teaching due to more students and larger equipment in practical teaching, so the technology has defects and needs to be improved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a real teaching device of instructing of simulation injection molding to the injection molding machine that provides in solving above-mentioned background is when real teaching of instructing, student's more and great of equipment, the problem of should not on-the-spot teaching.

In order to achieve the above object, the utility model provides a following technical scheme: a simulation injection training teaching device comprises a base and a refrigerating fluid plate, wherein a teaching table is arranged below the base, the right side of the base is connected with a supporting block, a cooling fluid conveying pipeline is arranged above the inner part of the base, a fixing plate is connected above the cooling fluid conveying pipeline, a cooling fluid hole is embedded above the fixing plate, a mold forming block layer is arranged below the cooling fluid hole, an injection outlet is arranged on the right side of the cooling fluid hole, a check valve is arranged on the right side of the injection outlet, an injection screw is connected to the right side of the check valve, a second connecting rod is arranged on the right side of the injection screw, a rotary ball is arranged on the right side of the second connecting rod, heating plates are arranged at two ends of the outer side of the injection screw, a supporting column is embedded below the left side of the refrigerating fluid plate, a nut is connected to the left side of the supporting column, the connecting block is connected on the left side of the connecting rod, and the supporting plate is installed on the left side of the connecting block.

Preferably, the ball rotating ball is of a spherical structure, and the ball rotating ball and the left end of the injection molding screw rod are of an integral structure through a second connecting rod.

Preferably, the fixed plate and the refrigerant liquid plate form a movable connection structure, and the fixed plate and the refrigerant liquid plate are in a parallel structure.

Preferably, the refrigerating fluid plate and the cooling fluid holes are uniformly arranged around the die forming block layer, and the refrigerating fluid plate and the cooling fluid holes are not connected with each other.

Preferably, the nut and the support column form an elastic telescopic moving structure, and the support column and the mold forming block layer are in a vertical structure.

Compared with the prior art, the beneficial effects of the utility model are that: this real teaching device of instructing of simulating moulding plastics changes the motor rotation of former equipment into the artifical explanation that rotates of commentaries on classics pearl ball, through fluid flow to the real standard of segmentation explanation simulation of moulding plastics has solved the injection molding machine and is instructing the time, the more of student and the great of equipment, the problem of the unsuitable on-the-spot teaching. The device is characterized in that a ball-rotating ball is of a spherical structure and is integrated with the left end of an injection screw through a second connecting rod, when a teacher teaches, a motor of original equipment is converted into the ball-rotating ball, after raw materials enter through a feed inlet, the ball-rotating ball can be manually rotated according to the teaching speed of the teacher, so that the ball-rotating ball drives the second connecting rod through the device, the injection screw is driven to rotate through the second connecting rod, the raw materials are driven to move, the operation and the teaching of a model when the teacher teaches are facilitated, a fixed plate and a refrigerating liquid plate of the device form a movable connection structure, the fixed plate and the refrigerating liquid plate are of a parallel structure, when the teacher teaches, the fixed plate and the refrigerating liquid plate form the movable connection structure, so that the raw materials enter a mold forming block layer between the fixed plate and the refrigerating liquid plate of the device, the structure can be explained during the teaching, so that the material in the mold forming block layer can be conveniently pressed and shaped, the parallel structure is convenient for moving the solidified model, and is convenient for disassembling and moving down, and is convenient for explaining and operating the model, the refrigerating liquid plate and the cooling liquid hole of the device are uniformly arranged around the mould forming block layer, and the refrigerating liquid plate and the cooling liquid hole are not connected with each other, when the device is used for teaching explanation, the refrigerating liquid plate and the cooling liquid hole are uniformly arranged around the mould forming block layer through the refrigerating liquid plate and the cooling liquid hole, so that the cooling time and uniform cooling of the fluid of the device are accelerated, the uneven cooling of the model part in the mould forming block layer is avoided, the refrigerating liquid plate and the cooling liquid hole are not connected with each other, when the refrigerating liquid plate is separated from the fixed plate, the cooling fluid can not fall off, the nut and the support column of the device form an elastic telescopic moving structure, and the support column and the mould forming block layer are in a vertical structure, when the device is used for explaining, after the intraformational model solidification of mould shaping piece, accessible nut and support column constitute flexible moving structure of elasticity and support column and mould shaping piece layer and be vertical structure, and the teacher can drive the spring with the nut and remove left, pulls down its intraformational model of mould shaping piece of its solidification through the support column, and the manual operation through the teacher is convenient for the explanation teaching when the real standard of student.

Drawings

FIG. 1 is a schematic front view of the present invention;

fig. 2 is a schematic view of the front structure of the injection molding screw part of the present invention.

In the figure: 1. the base, 2, teaching table, 3, the connecting block, 4, the connecting rod, 5, the spring, 6, the coolant liquid hole, 7, the feed inlet, 8, the second connecting rod, 9, change pearl ball, 10, the supporting shoe, 11, the fixed plate, 12, mould shaping piece layer, 13, the heating plate, 14, the backup pad, 15, the refrigeration liquid board, 16, the support column, 17, the screw rod of moulding plastics, 18, coolant liquid pipeline, 19, the export of moulding plastics, 20, the check valve, 21, the nut.

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. 1-2, the present invention provides a technical solution: a simulation injection practical teaching device comprises a base 1 and a refrigerating fluid plate 15, a teaching table 2 is arranged below the base 1, the right side of the base 1 is connected with a supporting block 10, a cooling fluid conveying pipeline 18 is arranged above the inside of the base 1, a fixing plate 11 is connected above the cooling fluid conveying pipeline 18, the fixing plate 11 and the refrigerating fluid plate 15 of the device form a movable connection structure, and the fixing plate 11 and the refrigerating fluid plate 15 are in a parallel structure, when a teacher teaches the device, the fixing plate 11 and the refrigerating fluid plate 15 form the movable connection structure, so that raw materials enter a mold forming block layer 12 between the fixing plate 11 and the refrigerating fluid plate 15 of the device, the structure can be explained during explanation so as to facilitate the pressing and the shaping of the materials in the mold forming block layer 12, the parallel structure facilitates the model after the solidification, the model is convenient to disassemble and move down, and the explanation and the operation of the model are convenient, the upper part of the fixed plate 11 is embedded with a cooling liquid hole 6, a mould forming block layer 12 is arranged below the cooling liquid hole 6, the right side of the cooling liquid hole 6 is provided with an injection outlet 19, the right side of the injection outlet 19 is provided with a check valve 20, the right side of the check valve 20 is connected with an injection screw 17, the right side of the injection screw 17 is provided with a second connecting rod 8, the right side of the second connecting rod 8 is provided with a ball-rotating ball 9, the two ends of the outer side of the injection screw 17 are provided with heating sheets 13, the ball-rotating ball 9 of the device is of a spherical structure, the ball-rotating ball 9 and the left side end of the injection screw 17 are of an integral structure through the second connecting rod 8, when a teacher teaches, a motor of original equipment is converted into the ball-rotating ball 9, after raw materials enter through the feed inlet 7, the ball-rotating ball 9 can be manually rotated according to the speed of the teacher's teaching, so that the ball-rotating ball 9, thereby driving the movement of raw materials, facilitating the operation and explanation of models when teachers teach, embedding a support column 16 below the left side of a refrigerating liquid plate 15, connecting a nut 21 at the left side of the support column 16, installing a connecting rod 4 at the left side of the nut 21, installing a spring 5 outside the connecting rod 4, evenly placing the refrigerating liquid plate 15 and a cooling liquid hole 6 around a mold forming block layer 12, and not connecting the refrigerating liquid plate 15 and the cooling liquid hole 6 with each other, when the device teaches, explaining that in the mold forming block layer 12 needing injection molding, the refrigerating liquid plate 15 and the cooling liquid hole 6 are evenly placed around the mold forming block layer 12, accelerating the cooling time and even cooling of the fluid, avoiding uneven cooling of the model part in the mold forming block layer 12, and not connecting the refrigerating liquid plate 15 and the cooling liquid hole 6 with each other, when the refrigerating liquid plate 15 and a fixed plate 11 are separated, cooling fluid can not drop, the device's nut 21 and support column 16 constitute the flexible removal structure of elasticity, and support column 16 and mould shaping block layer 12 are vertical structure, the device is when using the explanation, after the model solidification in mould shaping block layer 12, accessible nut 21 constitutes the flexible removal structure of elasticity and support column 16 and mould shaping block layer 12 with support column 16 and is vertical structure, the teacher can drive spring 5 with nut 21 and remove left, pull down it with the model in the mould shaping block layer 12 of its solidification through support column 16, the teaching of explanation when the student was instructed in fact is convenient for through teacher's manual operation, feed inlet 7 is installed to heating plate 13 right side top, connecting block 3 is connected in connecting rod 4 left side, and backup pad 14 is installed in connecting block 3 left side.

The working principle is as follows: when the simulated injection practical training teaching device is used, whether all parts of the simulated injection practical training teaching device are complete is checked firstly, the problem of installation caused by the defect of parts in the installation process is avoided, the device works after the error is checked, when the device is used, students are taught that raw materials enter from the feed inlet 7, the heating plates 13 are positioned at the upper side and the lower side of the injection screw 17, the materials fall into the injection screw 17 after entering the feed inlet 7, then teachers can change the motor of original equipment into the ball-rotating ball 9, the electric rotation of the motor of the teachers is changed into the ball-rotating ball 9, teachers manually rotate the ball-rotating ball 9, after the materials enter into the injection screw 17, the raw materials entering the injection screw 17 are heated through the heating plates 13 at the outer side of the injection screw 17, the materials entering into the original equipment can be changed into fluid through heating, and then the teachers rotate the ball-rotating ball 9, thereby driving the injection screw 17 to rotate, then ejecting the raw material through the injection outlet 19, entering the mold forming block layer 12 of the device, conveying the cooling fluid into the cooling fluid hole 6 in the cooling fluid plate 15 through the cooling fluid conveying pipeline 18, cooling the material entering the mold forming block layer 12, after the cooling fluid is solidified and formed after a period of time, the teacher can move like the left side through the left part of the cooling fluid plate 15 of the device, then moving the whole spring 5 of the device to the left side by both hands, making the connecting rod 4 thereof push the supporting column 16, pushing the model in the mold forming block layer 12 through the supporting column 16 to drop, thereby performing compression molding and explanation, in the explanation process of the teacher, the movement and placement of the device are also needed, the base 1 and the supporting block 10 of the device can be supported and placed when the teacher does not need to explain, the use process of the simulated injection training teaching device 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.

Claims (5)

1. The utility model provides a real teaching device of instructing of simulation injection molding, includes base (1) and refrigerant liquid board (15), its characterized in that: the teaching desk is characterized in that a teaching desk (2) is arranged below the base (1), a supporting block (10) is connected to the right side of the base (1), a cooling liquid conveying pipeline (18) is installed above the inner portion of the base (1), a fixing plate (11) is connected to the upper portion of the cooling liquid conveying pipeline (18), a cooling liquid hole (6) is embedded into the upper portion of the fixing plate (11), a mold forming block layer (12) is installed below the cooling liquid hole (6), an injection molding outlet (19) is arranged on the right side of the cooling liquid hole (6), a check valve (20) is arranged on the right side of the injection molding outlet (19), an injection molding screw (17) is connected to the right side of the check valve (20), a second connecting rod (8) is installed on the right side of the injection molding screw (17), a ball rotating ball (9) is arranged on the right side of the second connecting rod (8), heating pieces (13) are installed at, connecting nut (21) is connected on its support column (16) left side, and connecting rod (4) are installed in nut (21) left side to spring (5) are installed in connecting rod (4) outside, feed inlet (7) are installed to heating plate (13) right side top, connecting block (3) are connected in connecting rod (4) left side, and backup pad (14) are installed in connecting block (3) left side.

2. The simulation injection practical training teaching device according to claim 1, characterized in that: the ball rotating ball (9) is of a spherical structure, and the ball rotating ball (9) and the left end of the injection molding screw rod (17) are of an integral structure through a second connecting rod (8).

3. The simulation injection practical training teaching device according to claim 1, characterized in that: the fixed plate (11) and the refrigerating liquid plate (15) form a movable connection structure, and the fixed plate (11) and the refrigerating liquid plate (15) are of a parallel structure.

4. The simulation injection practical training teaching device according to claim 3, characterized in that: the refrigerating liquid plate (15) and the cooling liquid holes (6) are uniformly arranged around the die forming block layer (12), and the refrigerating liquid plate (15) and the cooling liquid holes (6) are not connected with each other.

5. The simulation injection practical training teaching device according to claim 1, characterized in that: the nut (21) and the support column (16) form an elastic telescopic moving structure, and the support column (16) and the die forming block layer (12) are of a vertical structure.