JP2021098349A - Fully automatic plastic injection molding machine - Google Patents

Abstract

To provide a fully automatic plastic injection molding machine.SOLUTION: The fully automatic plastic injection molding machine includes a main body 10, a first rotation space 11 is installed inside the main body, a first motor 13 is fixedly installed on the lower surface of the first rotation space, a first rotation shaft 12 is rotatably connected to the first motor, and a first gear 14 is fixedly installed on the upper end of the first rotation shaft and the first gear is engaged with a sleeve 16 to the left and to the right. The structure is simple, the injection molding can be done fully automatically, and furthermore, the labor intensity can be reduced by removing unwanted plastic from the product after molding, i.e., by performing certain subsequent processing on the plastic after molding.SELECTED DRAWING: Figure 1

Description

The present invention takes up the field of plastic molding, and specifically is a fully automatic plastic injection molding machine.

With the development of industry, people are demanding a high degree of automation for their work in order to reduce work time and simplify production processes. In the conventional injection molding machine, the plastic obtained after the injection molding is not subjected to the subsequent treatment, which increases the amount of work. Therefore, it is necessary to design a fully automatic plastic injection molding machine to solve the above problem.

Chinese Patent Application Publication No. 1074579557

The present application provides a fully automatic plastic injection molding machine, and an object of the present application is to eliminate the above-mentioned drawbacks in the prior art.

The invention of the present application is realized through the following technical plan.

The fully automatic plastic injection molding machine described in the present application includes a main body, a first rotation space is installed inside the main body, and a first motor is fixedly installed on the lower surface of the first rotation space. The first rotary shaft is rotatably connected to the first motor, the first gear is fixedly installed at the upper end of the first rotary shaft, and the first gear meshes with the sleeve to the left and right. A first screw extending in the vertical direction is connected to the center of the sleeve via a screw thread, and the sleeve meshes with the second gear to the right. A second rotation shaft extending downward is fixedly installed, a second rotation space is installed below the second rotation shaft, and a first pulley is installed inside the second rotation space. The first pulley and the second rotation shaft are fixedly connected, the first transmission belt is slidably installed on the first pulley, and the second pulley is installed on the right side of the first pulley. The second pulley and the first pulley are movably connected by the first transmission belt, and a third rotation shaft extending upward is fixedly installed at the center of the second pulley, and the third The first eccentric disc is fixedly installed above the rotating shaft, the first pin is fixedly installed on the first eccentric disc, and the first conrod is slidably installed on the first pin. A moving rod is rotatably installed on the left side of the first control rod, and an arc-shaped thrusting head is fixedly installed on the left side of the moving rod.
An elevating space is installed above the first screw, a mold is installed inside the elevating space, the mold and the first screw are fixedly connected, and inside the mold. The thrusting device is slidably installed, a spring space is installed above the thrusting device, a spring is installed inside the spring space, a molding space is installed at the upper end of the mold, and the molding space is installed. A first work space is installed above the first work space, a thrust screw is installed inside the first work space, and a spline shaft extending upward is fixedly installed above the thrust screw. A fourth rotation shaft is connected above the shaft via a spline, a fixing sleeve is installed below the fourth rotation shaft, and the fixing sleeve and the spline shaft are connected via a screw thread. The fourth rotating shaft is movably connected to the second motor upward, a third rotating space is installed below the second motor, and a third gear is installed inside the third rotating space. ..

Further, the third gear and the fourth rotating shaft are fixedly connected, the third gear meshes with the fourth gear to the right, and extends upward in the center of the fourth gear. The fifth rotating shaft is fixedly installed, the first moving space is installed above the fifth rotating shaft, and the first helical gear is installed inside the first moving space. The helical gear and the fifth rotating shaft are fixedly connected.

Further, the first helical gear meshes upward with the second helical gear, and a second screw extending in the left-right direction extends in the left-right direction at the center of the second helical gear via a screw thread. A disturbing plate is fixedly installed on the left side of the second screw, a melting space is installed on the left side of the disturbing plate, and a heater is installed inside the melting space, and the melting space is connected. A plastic storage space is installed above, the melting space and the plastic storage space communicate with each other, and a communication pipeline is installed below the melting space, and the melting space and the first Communicate with one work space.

Further, a second work space is installed on the left side of the elevating space, a rotary cylinder is installed inside the second work space, and a sixth rotary shaft extending to the left is installed in the center of the rotary cylinder. Is fixedly installed, a transport belt is slidably installed on the rotating cylinder, a cylindrical block is fixedly installed on the transport belt, and a fourth rotating space is installed on the left side of the sixth rotating shaft. A third pulley is installed inside the fourth rotation space, the third pulley and the sixth rotation shaft are fixedly connected, and the second transmission belt slides above the third pulley. It is installed as possible.

Further, a fourth pulley is installed in front of the third pulley, and the fourth pulley and the third pulley are movably connected by the second transmission belt, and the fourth pulley is on the left surface of the fourth rotation space. The three motors are fixedly installed, the third motor and the sixth rotation shaft are movably connected, and the seventh rotation shaft extending to the left is fixedly connected to the center of the fourth pulley. The second motion space is installed on the left side of the seventh rotation axis.

Further, a third helical gear is installed inside the second moving space, the third helical gear and the seventh rotating shaft are fixedly connected, and the third helical gear is formed. The fourth helical gear meshes downward, and the eighth rotating shaft extending upward is fixedly installed at the center of the fourth helical gear, and above the eighth rotating shaft. The second eccentric disc is fixedly installed, the second pin is fixedly installed on the second eccentric disc, the second conrod is slidably installed on the second pin, and the right side of the second conrod is installed. The cutting edge is installed so that it can slide.

According to the present invention, the structure is simple, injection molding can be performed fully automatically, and the labor strength can be reduced by removing unnecessary plastic from the molded product, that is, performing a certain subsequent treatment on the molded plastic. ..

In order to explain the present invention in detail with reference to FIGS. 1 to 4 below and to explain the present invention in a convenient manner, the following directions are defined as follows: FIG. The left-right front-back direction and the up-down, left-right front-back direction of the self-projection relationship in FIG.

FIG. 1 is a schematic diagram of the overall configuration of the present invention. FIG. 2 is an enlarged schematic diagram of A in FIG. FIG. 3 is an enlarged schematic diagram of B in FIG. FIG. 4 is a schematic configuration diagram of CC in FIG.

With reference to FIGS. 1 to 4, the fully automatic plastic injection molding machine described in the present application includes a main body 10, a first rotation space 11 is installed inside the main body 10, and a first rotation space 11 is provided on the lower surface of the first rotation space 11. The first motor 13 is fixedly installed, the first rotary shaft 12 is rotatably connected to the first motor 13, and the first gear 14 is fixedly installed at the upper end of the first rotary shaft 12. The first gear 14 meshes with the sleeve 16 to the left and right, and a first screw 71 extending in the vertical direction is connected to the center of the sleeve 16 via a screw thread. 16 meshes with the second gear 17 to the right, and a second rotating shaft 18 extending downward is fixedly installed at the center of the second gear 17 and below the second rotating shaft 18. The second rotation space 20 is installed, the first pulley 19 is installed inside the second rotation space 20, and the first pulley 19 and the second rotation shaft 18 are fixedly connected to each other. A first transmission belt 22 is slidably installed on one pulley 19, a second pulley 21 is installed on the right side of the first pulley 19, and the second pulley 21 and the first pulley 19 are the first. A third rotating shaft 23 extending upward is fixedly installed at the center of the second pulley 21 and is fixedly connected by a transmission belt 22, and a first eccentricity is above the third rotating shaft 23. The board 25 is fixedly installed, the first pin 24 is fixedly installed on the first eccentric board 25, the first conrod 26 is slidably installed on the first pin 24, and the first conrod is installed. A moving rod 27 is rotatably installed on the left side of the moving rod 27, and an arc-shaped thrust head 28 is fixedly installed on the left side of the moving rod 27.
An elevating space 29 is installed above the first screw 71, a mold 72 is installed inside the elevating space 29, and the mold 72 and the first screw 71 are fixedly connected to each other. A thrust device 30 is slidably installed inside the mold 72, a spring space 37 is installed above the thrust device 30, a spring 38 is installed inside the spring space 37, and the mold 72 is installed. A molding space 36 is installed at the upper end of the molding space 36, a first work space 35 is installed above the molding space 36, and a thrust screw 31 is installed inside the first work space 35. A spline shaft 46 extending upward is fixedly installed above the spline shaft 46, a fourth rotation shaft 44 is connected above the spline shaft 46 via a spline, and is fixed below the fourth rotation shaft 44. A sleeve 43 is installed, the fixed sleeve 43 and the spline shaft 46 are connected via a screw thread, the fourth rotating shaft 44 is movably connected to the second motor 42 upward, and the second motor 42 is transmitted. A third rotation space 47 is installed below the third rotation space 47, and a third gear 45 is installed inside the third rotation space 47.

Advantageously, the third gear 45 and the fourth rotating shaft 44 are fixedly connected, the third gear 45 meshes with the fourth gear 48 to the right, and the center of the fourth gear 48. A fifth rotating shaft 49 extending upward is fixedly installed in the portion, a first moving space 53 is installed above the fifth rotating shaft 49, and a first moving space 53 is installed inside the first moving space 53. A helical gear 50 is installed, and the first helical gear 50 and the fifth rotating shaft 49 are fixedly connected to each other.

Advantageously, the first helical gear 50 meshes upward with the second helical gear 52, and a second screw extending in the left-right direction at the center of the second helical gear 52. 51 is connected via a screw thread, a disturbing plate 41 is fixedly installed on the left side of the second screw 51, a melting space 40 is installed on the left side of the disturbing plate 41, and the inside of the melting space 40 is installed. A heater 33 is installed in the room, a plastic storage space 32 is installed above the melting space 40, the melting space 40 and the plastic storage space 32 communicate with each other, and below the melting space 40. A communication pipeline 34 is installed, and the melting space 40 and the first work space 35 are communicated with each other by the communication pipeline 34.

Advantageously, a second work space 73 is installed on the left side of the elevating space 29, a rotary cylinder 69 is installed inside the second work space 73, and a rotary cylinder 69 is installed in the center of the rotary cylinder 69 on the left side. A sixth rotating shaft 68 extending to the above is fixedly installed, a transport belt 59 is slidably installed on the rotary cylinder 69, and a cylindrical block 74 is fixedly installed on the transport belt 59. A fourth rotation space 70 is installed on the left side of the sixth rotation shaft 68, a third pulley 66 is installed inside the fourth rotation space 70, and the third pulley 66 and the sixth rotation shaft 68 are fixed to each other. A second transmission belt 57 is slidably installed above the third pulley 66.

Advantageously, a fourth pulley 58 is installed in front of the third pulley 66, and the fourth pulley 58 and the third pulley 66 are movably connected by the second transmission belt 57, and the first A third motor 67 is fixedly installed on the left surface of the four rotation space 70, the third motor 67 and the sixth rotation shaft 68 are movably connected, and the left is at the center of the fourth pulley 58. A seventh rotating shaft 56 extending in the direction is fixedly installed, and a second moving space 54 is installed on the left side of the seventh rotating shaft 56.

Advantageously, a third helical gear 64 is installed inside the second moving space 54, and the third helical gear 64 and the seventh rotating shaft 56 are fixedly connected to each other. The third helical gear 64 meshes downward with the fourth helical gear 55, and the eighth rotating shaft 65 extending upward is fixedly installed at the center of the fourth helical gear 55. A second eccentric plate 63 is fixedly installed above the eighth rotating shaft 65, a second pin 39 is fixedly installed on the second eccentric plate 63, and the second pin 39 is fixedly installed. The second connecting rod 62 is slidably installed, and the cutting edge 61 is slidably installed on the right side of the second connecting rod 62.

The fixed connection method of the present invention includes, but is not limited to, bolt fixing and welding methods.

The operating procedure of the entire invention of the present application is as follows.

1. First, the thrust screw 31 is in the upper limit position inside the first work space 35, the arcuate thrust head 28 is in the right limit position, the cutting edge 61 is in the left limit position, and the mold 72 is in the upper limit position. , The obstruction plate 41 is in the left limit position, and when the second motor 42 is operated, the fourth rotating shaft 44 rotates in conjunction with each other, and the third gear 45 and the spline shaft 46 are rotated to spline. Since the shaft 46 and the fixing sleeve 43 are connected via a screw thread, the fixing sleeve 43 does not move, the spline shaft 46 descends, and the thrust screw 31 descends while rotating along with the spline shaft 46. The plastic solution inside the work space 35 is pushed into the molding space 36,
2. Subsequently, the third gear 45 rotates to rotate the fourth gear 48, and the fourth gear 48 rotates the fifth rotating shaft 49, so that the first helical gear 50 rotates in conjunction with each other. The second helical gear 52 is rotated, and the second screw 51 is moved to the right by the rotation of the second helical gear 52, further driving the obstruction plate 41, and the obstruction plate 41 is moved to the right. By communicating the plastic storage space 32 and the melting space 40, the plastic material inside the plastic storage space 32 melts and falls into the space 40, and the plastic material is heated and melted.
3. After performing cooling molding on the plastic solution inside the molding space 36, the second motor 42 is rotated in the reverse direction so that the thrust screw 31 rises while rotating, and the plastic solution inside the melting space 40 becomes the first. It flows into the work space 35, the disturbing plate 41 moves to the left to cut off the communication between the plastic storage space 32 and the melting space 40, and by operating the first motor 13, the first rotating shaft 12 Rotates to rotate the first gear 14, and then the first gear 14 rotates the sleeve 16 so that the first screw 71 is interlocked and lowered, and the mold 72 and the thrusting device 30 are lowered. When the first screw 71 descends to the bottom, the upper end of the thrust device 30 and the uppermost end of the mold 72 are flush with each other, and the plastic molded product inside the molding space 36 is placed in the thrust device 30.
4. Further, the sleeve 16 rotates to rotate the second gear 17, the second rotating shaft 18 rotates with the second gear 17, and the first pulley 19 rotates, so that the second pulley 21 interlocks. Rotate, rotate the third rotating shaft 23, and the third rotating shaft 23 rotates the first eccentric disc 25, the first eccentric disc 25 moves the first pin 24, and the first conrod 26 moves the first pin. By moving along with 24 to move the moving rod 27 to the left, and then the moving rod 27 moving the arc-shaped thrust head 28 to the left, the plastic molded product moves to the left to the upper end of the cylindrical block 74. Here, the plastic molded product is fixed to the cylindrical block 74, and the plastic molded product is fixed to the cylindrical block 74.
5. Subsequently, by operating the third motor 67, the sixth rotating shaft 68 rotates to rotate the third pulley 66 and the rotary cylinder 69, and the fourth pulley 58 rotates along with the third pulley 66. By rotating the seventh rotating shaft 56, the third helical gear 64 is interlocked to rotate, the fourth helical gear 55 is further rotated, and the fourth helical gear 55 rotates the eighth rotating shaft 65. Rotate,
6. The rotation of the eighth rotation shaft 65 causes the second eccentric plate 63 to rotate to move the second pin 39, the second conrod 62 to move along with the second pin 39, and the cutting edge 61 to move to the right. Then, the cutting edge 61 cuts the excess plastic in the plastic molded product, the rotary cylinder 69 rotates to move the transport belt 59 to the rear, and the transport belt 59 moves the cylindrical block 74 to the rear. The plastic molded product also moves rearward and falls into the storage space located behind the transport belt 59.

The above examples are merely for explaining the technical principle and features of the present invention, and are intended to allow engineers in the field to understand and implement the present invention, and are not intended to limit the present invention. However, any modifications, equivalent substitutions and improvements made under the significance and principles of the invention should be included in the scope of protection of the invention.

Claims (6)

A first rotation space is installed inside the main body including the main body, a first motor is fixedly installed on the lower surface of the first rotation space, and the first rotation shaft can rotate in the first motor. The first gear is fixedly installed at the upper end of the first rotating shaft, the first gear meshes with the sleeve to the left and right, and the center of the sleeve is vertically oriented. The extending first screw is connected via a screw thread, the sleeve meshes with the second gear to the right, and the second rotating shaft extending downward is fixed to the center of the second gear. A second rotation space is installed below the second rotation shaft, a first pulley is installed inside the second rotation space, and the first pulley and the second rotation shaft are fixed to each other. The first transmission belt is slidably installed on the first pulley, the second pulley is installed on the right side of the first pulley, and the second pulley and the first pulley are connected to the first pulley. A third rotating shaft extending upward is fixedly installed at the center of the second pulley, and a first eccentric disc is fixed above the third rotating shaft. The first pin is fixedly installed on the first eccentric plate, the first conrod is slidably installed on the first pin, and the moving rod rotates on the left side of the first conrod. It can be installed, and an arc-shaped thrust head is fixedly installed on the left side of the moving rod.
An elevating space is installed above the first screw, a mold is installed inside the elevating space, the mold and the first screw are fixedly connected, and inside the mold. The thrusting device is slidably installed, a spring space is installed above the thrusting device, a spring is installed inside the spring space, a molding space is installed at the upper end of the mold, and the molding space is installed. A first work space is installed above the first work space, a thrust screw is installed inside the first work space, and a spline shaft extending upward is fixedly installed above the thrust screw. A fourth rotating shaft is connected above the shaft via a spline, a fixing sleeve is installed below the fourth rotating shaft, and the fixed sleeve and the spline shaft are connected via a screw thread. The fourth rotating shaft is movably connected to the second motor upward, a third rotating space is installed below the second motor, and a third gear is installed inside the third rotating space. A fully automatic plastic injection molding machine that features this. The third gear and the fourth rotation shaft are fixedly connected, the third gear meshes with the fourth gear to the right, and the fifth gear extends upward in the center of the fourth gear. The rotating shaft is fixedly installed, the first moving space is installed above the fifth rotating shaft, the first helical gear is installed inside the first moving space, and the first helical gear is installed. The fully automatic plastic injection molding machine according to claim 1, wherein the fore gear and the fifth rotating shaft are fixedly connected to each other. The first helical gear meshes upward with the second helical gear, and a second screw extending in the left-right direction is connected to the center of the second helical gear via a screw thread. A disturbing plate is fixedly installed on the left side of the second screw, a melting space is installed on the left side of the disturbing plate, a heater is installed inside the melting space, and above the melting space. Is provided with a plastic storage space, the melting space and the plastic storage space are communicated with each other, a communication pipeline is installed below the melting space, and the melting space and the first work are performed by the communication pipeline. The fully automatic plastic injection molding machine according to claim 2, wherein the machine communicates with a space. A second work space is installed on the left side of the elevating space, a rotary cylinder is installed inside the second work space, and a sixth rotary shaft extending to the left is fixed to the center of the rotary cylinder. A transport belt is slidably installed on the rotating cylinder, a cylindrical block is fixedly installed on the transport belt, and a fourth rotating space is installed on the left side of the sixth rotating shaft. A third pulley is installed inside the fourth rotation space, the third pulley and the sixth rotation shaft are fixedly connected, and the second transmission belt can slide above the third pulley. The fully automatic plastic injection molding machine according to claim 1, wherein the plastic injection molding machine is installed. A fourth pulley is installed in front of the third pulley, the fourth pulley and the third pulley are movably connected by the second transmission belt, and a third motor is on the left surface of the fourth rotation space. Is fixedly installed, the third motor and the sixth rotating shaft are movably connected, and a seventh rotating shaft extending to the left is fixedly installed at the center of the fourth pulley. The fully automatic plastic injection molding machine according to claim 4, wherein a second motion space is installed on the left side of the seventh rotating shaft. A third helical gear is installed inside the second moving space, the third helical gear and the seventh rotating shaft are fixedly connected, and the third helical gear moves downward. The fourth helical gear meshes with the helical gear, and the eighth rotating shaft extending upward is fixedly installed at the center of the fourth helical gear, and the second rotating shaft is above the eighth rotating shaft. An eccentric disc is fixedly installed, a second pin is fixedly installed on the second eccentric disc, a second conrod is slidably installed on the second pin, and on the right side of the second conrod. The fully automatic plastic injection molding machine according to claim 5, wherein the cutting edge is slidably installed.

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