JP6701308B1 - Plunger replacement method, plunger unit, and resin molding device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent a mold surface of a molding die from being damaged when a plunger is replaced. A plunger unit (5) having a plunger (51) for pushing a resin material (J) out of a pot (21) formed in a mold (2) and a drive mechanism (6) for moving the plunger unit (5) so that the plunger (51) moves forward and backward in the pot (21). In the method of replacing the plunger 51 in the resin molding apparatus 100 provided with, the plunger unit 5 is dividable into a plunger block 5A having the plunger 51 and a main body block 5B supporting the plunger block 5A. The main body block 5B is separately attached and detached from between the molding die 2 and the drive mechanism 6. [Selection diagram] Figure 1

Description

  The present invention relates to a plunger replacement method, a plunger unit, and a resin molding device.

  For example, in the case of sealing an electronic component mounted on a substrate or a lead frame with a resin, a resin molding device using a transfer molding method is used.

  As shown in Patent Document 1, this resin molding device stores a resin material in a pot formed in a lower mold, and pushes the resin material melted in the pot with a plunger to supply the resin material to a cavity. Resin sealing is performed.

  Then, when removing the plunger in the resin molding apparatus, the plunger is projected from the pot toward the mold surface (parting line (PL surface)) side and pulled out from the mold surface side. Further, when the plunger is attached, it is performed by inserting the plunger into the pot from the mold surface side.

Japanese Patent No. 3144714

  However, in the above replacement method, the mold surface may be damaged by a plunger, a tool, or the like. This scratch on the mold surface leads to a defective resin molded product.

  Therefore, the present invention has been made to solve the above problems, and its main object is to prevent the die surface of the forming die from being damaged during the plunger replacement work.

  That is, a method of exchanging a plunger according to the present invention includes a plunger unit having a plunger that pushes out a resin material from a pot formed in a mold, and a drive mechanism that moves the plunger unit so that the plunger moves back and forth in the pot. A method of replacing the plunger in a resin molding apparatus comprising: the plunger unit, the plunger block having the plunger, and a main body block supporting the plunger block, and the plunger block and the plunger block. The main body block is separately attached and detached between the molding die and the drive mechanism.

  According to the present invention having such a configuration, it is possible to prevent the die surface of the forming die from being damaged when the plunger is replaced.

It is a sectional view showing typically composition of a resin molding device of one embodiment concerning the present invention. It is the perspective view of the (a) plunger unit of the same embodiment, and the (b) exploded perspective view. It is sectional drawing which shows the state which fixed the plunger block temporarily by the fixing member of the same embodiment. It is a figure which shows the middle of the removal or attachment of the main body block of the same embodiment. It is sectional drawing which shows the state which removed the main body block of the same embodiment. It is sectional drawing which shows the state which connected the plunger block and drive mechanism of the same embodiment by the jig block. It is sectional drawing which shows the state which moved the plunger block of the same embodiment to the space part. It is a figure which shows the middle of the removal or attachment of the plunger block of the same embodiment. It is sectional drawing which shows the state which removed the plunger unit of the same embodiment.

  Next, the present invention will be described in more detail with reference to examples. However, the present invention is not limited by the following description.

As described above, the plunger replacement method of the present invention includes a plunger unit having a plunger that pushes a resin material out of a pot formed in a mold, and a drive that moves the plunger unit so that the plunger moves back and forth within the pot. A method of exchanging the plunger in a resin molding apparatus including a mechanism, wherein the plunger unit is divisible into a plunger block having the plunger and a main body block supporting the plunger block. And the main body block is separately attached and detached between the molding die and the drive mechanism.
With this plunger replacement method, the plunger unit is configured to be divisible into a plunger block and a main body block, and these blocks are attached and detached separately from between the molding die in which the pot is formed and the drive mechanism. It is possible to prevent the plunger and the tool from coming into contact with the mold surface of the mold during the plunger replacement work, and prevent the mold surface from being damaged. Further, since it is not necessary to work on the mold surface side of the molding die, it is possible to reduce the possibility of touching the molding die heated for resin molding and causing burns.

Specifically, when removing the plunger, the main body block is removed from between the molding die and the drive mechanism, and the plunger block is moved to a space formed by removing the main body block, It is desirable to remove the plunger block from between the mold and the drive mechanism.
By moving the plunger block to the space formed by removing the main body block in this way, the plunger can be pulled out from the pot of the molding die, and the plunger block can be removed from between the molding die and the drive mechanism. ..

  Further, when the plunger is attached, the plunger block is inserted between the molding die and the drive mechanism to move the plunger so as to be located in the pot, and then the main body block is attached. It is desirable to attach it between the molding die and the drive mechanism.

Before the main body block is attached/detached between the mold and the drive mechanism, the plunger block is temporarily fixed to the apparatus side (for example, the mold or a mold holding member for holding the mold) by a fixing member. It is desirable to remove the fixing member after fixing and attaching/detaching the main body block.
Specifically, before removing the main body block from between the molding die and the drive mechanism, the plunger block is temporarily fixed to the device side by a fixing member, and after the main body block is removed, the fixing is performed. Remove the member. Further, before mounting the main body block from between the molding die and the drive mechanism, the plunger block is temporarily fixed to the device side by a fixing member, and after the main body block is mounted, the fixing member is removed. .
By temporarily fixing the plunger block to the apparatus side with the fixing member in this way, the plunger block does not become an obstacle when the main body block is attached and detached, and the workability of attaching and detaching the main body block can be improved.

It is preferable that the drive block moves the plunger block in the space while the main body block is removed.
By moving the plunger block using the drive mechanism in this manner, it is not necessary to prepare another drive source for moving the plunger block, and the plunger block can be moved to a desired position (for example, the plunger is inserted in the pot). It is possible to facilitate the work of moving the container to the opened position or the position where the plunger is pulled out from the pot) as compared with the case of performing it manually.

When the plunger block is moved by using the drive mechanism, in order to move the plunger block stably, in the state where the main body block is removed, the plunger block and the drive mechanism are It is desirable to move the plunger block by connecting with a jig block shorter than the main body block in the forward and backward direction of the plunger.
Further, by using the jig block, it is not necessary to increase the movement amount of the driving mechanism, and it is possible to prevent the driving mechanism from increasing in size and further prevent the resin molding device from increasing in size.

When the resin molding device is a multi-plunger type, it is desirable that the plunger block has a plurality of plungers.
In the case of this configuration, the plurality of plungers can be attached and detached at once, the work of exchanging the plurality of plungers can be efficiently performed, and the time for the plunger exchange work can be shortened.

A plunger unit according to the present invention is a plunger unit having a plunger that pushes a resin material from a pot of a molding die into a cavity, and has a plunger block having the plunger and a main body block supporting the plunger block. It is characterized in that the plunger block and the main body block are slidable with respect to each other and can be divided.
With such a plunger unit, the plunger block and the main body block are configured to be slidable and separable from each other in the plunger unit, so that the plunger unit can have a configuration suitable for the above-described plunger replacement work.

Furthermore, the resin molding apparatus according to the present invention includes a plunger unit having a plunger that pushes a resin material from a pot of a molding die into a cavity, and a drive mechanism that moves the plunger unit so that the plunger moves back and forth within the pot. The plunger unit includes a plunger block having the plunger, and a main body block supporting the plunger block, and the plunger block and the main body block are configured to be slidable and separable from each other. It is characterized by being
With such a resin molding device, it is possible to perform the above-described plunger replacement work, and the mold surface of the molding die is less likely to be damaged when the plunger is replaced, so that defects in the resin molded product can be reduced.

<One Embodiment of the Present Invention>
An embodiment of the resin molding device according to the present invention will be described below with reference to the drawings. It should be noted that any of the drawings shown below are schematically omitted or exaggerated as appropriate for the sake of clarity. The same components will be denoted by the same reference symbols and description thereof will be omitted as appropriate.

<Overall structure of resin molding device>
The resin molding apparatus 100 according to the present embodiment resin-molds a molding target W on which an electronic component Wx is mounted by transfer molding using a resin material J.

  Here, the molding target W is, for example, a metal substrate, a resin substrate, a glass substrate, a ceramics substrate, a circuit substrate, a semiconductor substrate, a wiring substrate, a lead frame, or the like, with or without wiring. The resin material J for resin molding is, for example, a composite material containing a thermosetting resin, and the resin material J has a tablet-like solid form, for example. The electronic component Wx mounted on the upper surface of the molding target W is, for example, a bare chip or a resin-sealed chip.

  Specifically, as shown in FIG. 1, the resin molding apparatus 100 includes one molding die 2 (hereinafter, lower die 2) in which a pot 21 for accommodating the resin material J is formed, and the molding die 100 facing the lower die 2. The other mold 3 (hereinafter, upper mold 3) provided with a cavity 31 into which the resin material J is injected, and a mold clamping mechanism (not shown) for clamping the lower mold 2 and the upper mold 3 are provided. Have. The lower mold 2 is provided via a lower mold holding member 4 on a movable platen (not shown) that moves up and down by a mold clamping mechanism. The upper die 3 is provided on an upper fixed platen (not shown) via an upper die holding member (not shown). The lower holding member 4 has, for example, a heater plate and a heat insulating plate.

  On the upper surface (mold surface) of the lower mold 2, a plurality of pots 21 are linearly arranged in a line. Further, on the lower surface (mold surface) of the upper mold 3, a cull 32 that is a recess is formed in a portion facing the pot 21, and a runner 33 that connects the cull 32 and the cavity 31 is formed.

  Further, the resin molding device 100 includes the plunger unit 5 having a plurality of plungers 51 for pushing out the resin material J housed in the pot 21 of the lower mold 2, and the plunger unit 5 so that the plunger 51 moves forward and backward in the pot 21. And a drive mechanism 6 for moving.

  The plunger unit 5 is provided below the lower mold 2, and the plunger 51 constitutes the bottom portion of the lower mold pot 21. The plunger 51 presses the resin material J that is heated and melted in the pot 21.

  The drive mechanism 6 moves the plunger unit 5 relative to the lower mold 2, whereby the plunger 51 moves back and forth in the pot 21. The drive mechanism 6 of the present embodiment is provided on the side of the plunger unit 5 opposite to the lower mold 2 (the lower side of the plunger unit 5). Here, as the drive mechanism 6, for example, a combination of a servo motor and a ball screw mechanism, a combination of an air cylinder or a hydraulic cylinder and a rod, or the like can be used.

  Then, when the plunger unit 5 is lifted while the lower mold 2 and the upper mold 3 are clamped by the mold clamping mechanism, the resin material J melted by the heat of the heater (not shown) provided in the resin molding apparatus 100 becomes a cavity. Injected into 31. As a result, the electronic component Wx of the molding target W housed in the cavity 31 is resin-sealed.

<Specific configuration of plunger unit 5>
As shown in FIGS. 1 and 2, the plunger unit 5 of the present embodiment supports the plunger block 5A having a plurality of plungers 51 and the plunger block 5A along the advancing/retreating direction of the plunger 51 by the drive mechanism 6. It is configured to be divided into a body block 5B. Specifically, the plunger block 5A and the main body block 5B are slid and divided from each other. As a result, the plunger block 5A and the main body block 5B are separately attached to and detached from the resin molding device 100. Here, "removable" means to be attached to or removed from the resin molding device.

  The plunger block 5A has a plurality of plungers 51 and a base body 52 holding the plurality of plungers 51. The plurality of plungers 51 are provided corresponding to the arrangement of the pots 21, and as shown in FIG. 2, they are linearly provided in a line on the base body 52. Hereinafter, the row direction in which the plurality of plungers 51 are linearly arranged is referred to as a longitudinal direction. When the plurality of pots 21 are arranged in a plurality of rows, the plurality of plungers 51 are provided in a plurality of rows corresponding to them.

  An elastic member 55 that applies an elastic return force to the plunger 51 is built in the body block 5B. The elastic member 55 absorbs the variation in the shape of the resin material J (specifically, the resin tablet) and makes the pressing force of each plunger 51 uniform. In this embodiment, a plurality of elastic members 55 are provided corresponding to each of the plurality of plungers 51.

  A slide groove 53 extending in the longitudinal direction is formed in one of the plunger block 5A and the main body block 5B, and the other of the plunger block 5A and the main body block 5B slides along the slide groove 53 to fit. A slide portion 54 is formed. In the present embodiment, the slide groove 53 is formed in the main body block 5B, and the slide portion 54 is formed in the plunger block 5A. The slide portion 54 of the plunger block 5A is configured by using the base body 52.

  Further, on the lower surface of the main body block 5B, a slide portion 56 that is slidably fitted in the slide groove 61 of the drive mechanism 6 is formed. The slide groove 61 of the drive mechanism 6 also extends in the longitudinal direction like the slide groove 53.

  The plunger 51 is provided with a fixing portion 511 such as a notch for fixing the plunger block 5A to the lower die holding member 4. The fixing member 7 (see FIG. 3) is inserted into the fixing portion 511. Further, the lower die holding member 4 is also provided with a fixing portion 41 into which the fixing member 7 is inserted (see FIG. 1), and the fixing portion 511 of the plunger 51 and the fixing portion 41 of the lower die holding member 4 have, for example, a flat plate shape. When the fixing member 7 is inserted, the plunger block 5A is fixed to the lower die holding member 4. This prevents the plunger block 5A from dropping when the body block 5B is removed.

  Further, the main body block 5B is provided with a grip portion 58. By manipulating the grip portion 58, it becomes easy to remove the main body block 5B from the resin molding device 100 or to attach the main body block 5B to the resin molding device 100.

  In addition, a fixed pin 57 is provided on the plunger unit 5, and the fixed pin 57 is provided on each of the plunger block 5A and the main body block 5B at a position where they are connected and integrated with each other. Has a hole formed therein. After sliding the slide portion 54 of the plunger block 5A into the slide groove 53 of the main body block 5B to fit and integrate them, the plunger block 5A and the main body block 5B are fixed by a fixing pin 57. As a result, it is possible to prevent the positional displacement between the integrated plunger block 5A and the main body block 5B in the longitudinal direction.

<How to replace the plunger 51>
Next, a method for replacing the plunger 51 will be described with reference to FIGS.

(1) Removing the Plunger 51 First, as shown in FIG. 3, the drive mechanism 6 is moved up or down to be placed at an appropriate position, and then inserted into the holes of the plunger block 5A and the holes of the main body block 5B. The fixing pin 57 is removed, the fixing member 7 is laterally inserted into the fixing portion 511 of the plunger block 5A and the fixing portion 41 of the lower die holding member 4, and the plunger block 5A is temporarily fixed to the lower die holding member 4. Then, as shown in FIG. 4, by pulling the grip portion 58 to the side opposite to the resin molding device 100, the main body block 5B is slid and removed from between the lower mold 2 and the drive mechanism 6. The removing direction at this time is a direction (lateral direction) orthogonal to the forward/backward direction of the plunger 51 by the drive mechanism 6. By removing the body block 5B, a space X is formed between the plunger block 5A and the drive mechanism 6 as shown in FIG.

  Then, the drive mechanism 6 is lifted to the plunger block 5A side to reach a predetermined position for fixing the jig block 8. By inserting the jig block 8 between the drive mechanism 6 and the plunger block 5A at this position, the plunger block 5A and the jig block 8 are connected as shown in FIG. In this state, the fixing member 7 is removed to release the temporary fixing to the lower die holding member 4 of the plunger block 5A, and then the fixing pin 57 is inserted into the hole of the plunger block 5A and the hole of the jig block 8. Then, the plunger block 5A and the jig block 8 are fixed.

  Here, as shown in FIG. 6, the jig block 8 has a dimension shorter than the height direction of the main body block 5B (the moving direction of the plunger 51 by the drive mechanism 6), and the slide portion 54 of the plunger block 5A. A slide groove 81 that slides into the drive mechanism 6, a slide portion 82 that slides into the slide groove 61 of the drive mechanism 6, and a grip portion 83 (see FIG. 8) for facilitating insertion and extraction operations into and from the resin molding apparatus 100. Have

  The drive mechanism 6 is lowered to move the plunger block 5A to the space X as shown in FIG. As a result, the plunger 51 is pulled out downward from the pot 21 of the lower mold 2. After that, as shown in FIG. 8, by pulling the grip portion 83 to the side opposite to the resin molding apparatus 100, the plunger block 5A and the jig block 8 are slid and removed from between the lower die 2 and the drive mechanism 6. As a result, as shown in FIG. 9, the plunger unit 5 is removed from between the lower mold 2 and the drive mechanism 6. Alternatively, the fixing pin 57 may be removed with the jig block 8 attached to the drive mechanism 6, and only the plunger block 5A may be removed from between the lower die 2 and the drive mechanism 6.

  According to the procedure described above, the work of removing the plunger unit 5 (plunger 51) is performed below the mold surface of the lower mold 2 (on the drive mechanism 6 side).

(2) When Plunger 51 is Attached First, the jig block 8 and the plunger block 5A which are connected and integrated and fixed by the fixing pin 57 are attached to the drive mechanism 6 (see FIG. 8). At this time, when the plunger block 5A is attached, the drive mechanism 6 is in a lowered state so that the plunger block 5A does not come into contact with the lower mold 2 (see FIG. 9).

  After the plunger block 5A is attached to the drive mechanism 6 (see FIG. 7), the drive mechanism 6 is raised and the plunger 51 is inserted into the pot 21 of the lower mold 2. Although not shown, the lower opening of the pot 21 has a tapered surface so that the plunger 51 can be inserted easily.

  In this state, the fixing pin 57 is removed to release the fixing between the jig block 8 and the plunger block 5A, and then the fixing portion 511 of the plunger block 5A and the fixing portion 41 of the lower die holding member 4 are removed as shown in FIG. The fixing member 7 is inserted to temporarily fix the plunger block 5A to the lower die holding member 4. After this fixing, as shown in FIG. 5, the jig block 8 is removed. As a result, the connection between the plunger block 5A and the drive mechanism 6 is released.

  Then, after lowering the drive mechanism 6 and arranging it at an appropriate position, the main body block 5B is inserted from between the lower die 2 and the drive mechanism 6 (see FIG. 4). Thereby, as shown in FIG. 3, the main body block 5B and the plunger block 5A are integrated, and the main body block 5B and the drive mechanism 6 are connected.

  After mounting the main body block 5B, the fixing member 7 is removed, and the main body block 5B and the plunger block 5A are fixed by the fixing pin 57.

  According to the procedure described above, the work of mounting the plunger unit 5 (plunger 51) is performed below the mold surface of the lower mold 2 (on the drive mechanism 6 side).

<Effects of this embodiment>
According to the resin molding apparatus 100 of the present embodiment, the plunger unit 5 is configured to be divided into the plunger block 5A and the main body block 5B, and these blocks 5A and 5B are driven with the lower mold 2 in which the pot 21 is formed. Since they are separately attached to and detached from the mechanism 6, it is possible to prevent the plunger 51 and the tool from coming into contact with the mold surfaces of the lower mold 2 and the upper mold 3 when the plunger 51 is replaced, and the mold surface is damaged. Can be prevented. As a result, it is possible to reduce defects of the resin molded product caused by the scratches on the mold surface. Further, since it is not necessary to work between the lower mold 2 and the upper mold 3, it is possible to reduce the possibility of accidentally touching the mold heated by the resin mold and causing burns.

  In this embodiment, since the plunger block 5A is temporarily fixed to the apparatus side by the fixing member 7 before the main body block 5B is attached/detached between the lower die 2 and the drive mechanism 6, the main body block 5B is attached/detached. In doing so, the plunger block 5A does not get in the way and the workability of attaching and detaching the main body block 5B can be improved.

  Further, since the plunger block 5A is moved by the drive mechanism 6 in the space X, it is not necessary to prepare another drive source for moving the plunger block 5A, and the plunger block 5A can be moved to a desired position (for example, The work of moving the plunger to the position where the plunger is inserted into the pot or the position where the plunger is pulled out from the pot) can be facilitated as compared with the case of performing the work manually. Here, since the plunger block 5A and the drive mechanism 6 are connected by the jig block 8 shorter than the main body block 5B, not only the plunger block 5A is stably moved, but also the movement amount of the drive mechanism 6 is increased. It is not necessary (that is, it is not necessary to make the space X large), the drive mechanism 6 can be prevented from increasing in size, and further, the resin molding device 100 can be prevented from increasing in size.

  Further, in the multi-plunger type resin molding device 100, since the plunger block 5A has the plurality of plungers 51, the plurality of plungers 51 can be attached and detached at once, and the work of exchanging the plurality of plungers 51 can be efficiently performed. This can be done well, and the time for replacing the plunger 51 can be shortened.

<Other modified embodiments>
The present invention is not limited to the above embodiment.

  For example, although the plunger block 5A is temporarily fixed to the lower die holding member 4 by using the fixing member 7 in the above-described embodiment, the plunger unit 5 such as the lower die 2 or the press mechanism portion of the resin molding apparatus 100 is used. It may be fixed to a peripheral member.

  Further, although the jig block 8 of the above-described embodiment has a structure that fits in the slide portion 54 of the plunger block 5A and the slide groove 61 of the drive mechanism 6, for example, the plunger block 5A and the drive mechanism such as a clamp mechanism or a screw mechanism are used. Any mechanism that mechanically connects the mechanism 6 may be used.

  In the above-described embodiment, the fixing screw 57 is used to fix the connection between the plunger block 5A and the main body block 5B or the connection between the plunger block 5A and the jig block 8. Appropriate means capable of achieving the above can be used. Further, the order of attaching and detaching the fixing screw 57 and the fixing member 7 may be appropriately changed depending on the structure of the apparatus and the necessity of fixing.

  Furthermore, in the above-described embodiment, the pot is formed in the lower mold and the cavity is formed in the upper mold, but the pot or the cavity may be formed in any molding die.

  In addition, the resin molding device is not limited to the multi-plunger system and may have one plunger. In this case, the plunger block has a single plunger.

  The main body block may have no elastic member for equalizing the pressing force of the plunger.

  Moreover, the pair of molds is not limited to the upper mold and the lower mold, and may be other molds that can be used for transfer molding (for example, a top-gate mold having an intermediate plate). good.

  Besides, it goes without saying that the present invention is not limited to the above-described embodiment, and various modifications can be made without departing from the spirit of the present invention.

100... Resin molding device W... Molding object J... Resin material 2... Lower mold (molding mold)
21... Pot 4... Lower mold holding member (mold holding member)
51 ・・・ Plunger 5 ・・・ Plunger unit 5A ・・・ Plunger block 5B ・・・ Main body block 6 ・・・ Drive mechanism X ・・・ Space 7 ・・・ Fixing member 8 ・・・ Jig block

Claims (9)

A method of replacing the plunger in a resin molding apparatus including a plunger unit having a plunger that pushes out a resin material from a pot formed in a molding die, and a drive mechanism that moves the plunger unit so that the plunger advances and retracts in the pot. And
The plunger unit is dividable into a plunger block having the plunger and a main body block supporting the plunger block,
A method of exchanging a plunger, wherein the plunger block and the main body block are separately attached and detached from between the molding die and the drive mechanism.   When removing the plunger, the main body block is removed from between the molding die and the drive mechanism, the plunger block is moved to a space formed by removing the main body block, and then the plunger block is removed. The plunger replacement method according to claim 1, wherein the plunger is removed from between the molding die and the drive mechanism.   When the plunger is attached, the plunger block is inserted between the molding die and the drive mechanism to move the plunger so as to be located in the pot, and then the main body block is moved to the molding die. The method for exchanging a plunger according to claim 1, wherein the plunger is attached between the drive mechanism and the drive mechanism.   Before detaching the main body block from between the molding die and the drive mechanism, the plunger block is temporarily fixed to the device side by a fixing member, and after the main body block is attached and detached, the fixing member is removed, The method for exchanging the plunger according to any one of claims 1 to 3.   The plunger replacement method according to any one of claims 1 to 4, wherein the plunger block is moved by the drive mechanism in a space formed by removing the body block when the body block is removed. ..   In a state in which the main body block is removed, the plunger block and the drive mechanism are connected by a jig block shorter than the main body block in a direction in which the drive mechanism advances and retracts the plunger, and the plunger block is moved. The method for exchanging the plunger according to item 5.   The plunger replacement method according to claim 1, wherein the plunger block has a plurality of plungers. From the mold pot to the cavity have a plurality of plungers for extruding a resin material, a plunger unit which is moved by the drive mechanism so that the plurality of plungers moves forward and backward in said pot,
It has a plunger block having the plurality of plungers, and a main body block supporting the plunger block,
The plunger block has a base body that holds the plurality of plungers,
The plunger block and the main body block are configured to be separable by sliding the base body and the main body block with each other, and the plunger block and the main body block are disposed between the molding die and the drive mechanism. Plunger unit that can be attached and detached separately from . A plunger unit having a plurality of plungers for pushing a resin material from a pot of a molding die into a cavity,
A drive mechanism for moving the plunger unit so that the plunger moves back and forth in the pot,
The plunger unit has a plunger block having the plurality of plungers, and a main body block supporting the plunger block,
The plunger block has a base body that holds the plurality of plungers,
The plunger block and the main body block are configured to be separable by sliding the base body and the main body block with each other, and the plunger block and the main body block are disposed between the molding die and the drive mechanism. A resin molding device that can be attached and detached separately from .