JPS62230511A - Conveyer for storage vessel of molded parts by resin molding machine - Google Patents

Abstract

PURPOSE:To enable large quantity production and continuous unmanned conveyance to be performed, by constituting a device such that a vessel, being placed on movable rails providing free rollers to be lined, is moved one by one by actuating a longitudinally driving mechanism when a predetermined amount of molded articles is stored. CONSTITUTION:Rails 1, 1, whose positioning is performed in a position crossing at a right angle with a molding machine supply part 10, are fixed by stoppers 14. Next, a vessel 7, which is placed on the rails 1, 1 through guides 8, is positioned below the supply part 10. Subsequently, plural vessels are placed following. And if a timer or a molded article counter reaches a predetermined value after the first vessel 7 starts a molded article to be stored, a longitudinally driving mechanism is actuated driving a chain conveyer 3. In this way, a pusher 6 presses a back surface bottom part of the vessel 7 to advance it by one quantity, and the next vessel 72 is positioned below the supply part 10. By this constitution, a device enables large quantity production to be performed while the vessel to be continuously conveyed with no operator.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Use] The present invention relates to a conveying device for molded parts storage containers using a resin molding machine, and in particular, it is used to synthesize synthetic resin molded parts used as computer-related parts or other electronic equipment parts. Molded with a resin molding machine, these molded parts are stored in a container from a relatively low supply part of the molding machine, and when a certain time elapses or a certain quantity is reached, the container is automatically moved to the next place. By moving the container to the delivery site, the container containing the mass-produced molded parts is automatically and continuously transported to the destination location.

[Conventional technology]

-a, the parts molded by the resin molding machine are delivered from the delivery section of the molding machine, stored in a predetermined quantity in a storage container, and transported to a destination location. The above-mentioned transportation method may be carried out manually or by a known belt conveyor. In this case, it is possible to repeatedly move and stop the drive source of the belt conveyor at regular intervals using a timer or the like.

(Problems to be Solved by the Invention) However, among the above-mentioned transportation methods, when using manual labor, it is difficult to rely on human labor to transport the molded parts in continuous unmanned molding operations for long periods of time, such as day and night. In the end, it requires manpower, which is undesirable because labor saving cannot be achieved and costs increase.

(On the Ib side, when conveying using a belt conveyor, if a container is simply placed on the belt and is moved and stopped repeatedly according to the set time using a timer, etc., the container itself pushes other containers, so each Subtle discrepancies occur between the control of the orientation of the container, the size of the container, and the amount of movement of the belt conveyor, and furthermore, each time the belt conveyor is driven and stopped, the container position shifts, resulting in long unmanned operation. If this continues, there is a risk of unexpected accidents.Furthermore, the parts dispensing area of molding machines for computer-related parts or other electronic equipment parts is located relatively low, about 60 to 70 cm from the floor. , the known belt conveyor machine is
Since the belt surface to be conveyed has a relatively high height of 60 to 90 ca+ from the floor, it is positioned as it is at the parts supplying part of the resin molding machine, and the height is further increased to 30 to 1 lOcIln.
Container after iT! 5! When placed, the height is at least 90Ω
Therefore, it is difficult to apply it to conveyance by the molding machine.

[Failure to solve the problem]

Therefore, the present invention solves the problems of conventional conveying devices, and automatically and continuously at predetermined time intervals, containers containing synthetic resin molded parts molded by a resin molding machine and used as parts related to combinators and other electronic devices. The object of the present invention is to repeatedly move and stop to transport a molded parts storage container to a target location. In this method, a pair of left and right rail bodies with a plurality of free rollers arranged in a row are fixed to a machine frame while maintaining a constant width, and a forward/backward mechanism is arranged along the length between the left and right rail bodies, and the forward/backward mechanism is used to push containers. a molded parts storage container provided with a pusher for dispensing the molded parts and a guide along the outside or inside of the rail body is placed on the rail body, and the container is stopped facing a molded parts supplying part of the resin molding machine, The apparatus also includes a detection mechanism that operates an advance/retract mechanism when a predetermined number of continuously produced molded parts are stored in a container within a predetermined time and stops after moving by one container, and a mechanism for turning on/off the advance/retreat mechanism. , comprising wheels for adjusting the movement of the rail body.

[For production]

The effect based on the above means will be explained. First, the rail body is placed at a position perpendicular to the supplying part of the resin molding machine, and the part approximately in the middle of its entire length is placed.

Next, a molded parts storage container is placed on the rail body facing the supply area and on the advancing/retreating a stack! After that, containers identical to the container described above are sequentially placed in a row in the same direction. The detection mechanism for driving and stopping the advancing/retracting mechanism and the activation/on/off switch use timers, microswitches, relay circuits, etc., and these work in conjunction with each other.

Next, the operation of the resin molding machine is started. The molded parts are placed from a delivery site of the molding machine into a container that faces the delivery site and is placed and stopped on a rail.

Next, the advancing/retracting mechanism is moved by the action of the detection mechanism's timer set at a predetermined time, and by pushing the lower part of the ff surface of the container with the pusher, the container is moved one space and the next empty container is placed at the delivery site. They stop at opposing positions and the 1 process ends. The above-mentioned timer is set to the time it takes for the molded part to become the desired star after it is put into the container from the delivery site in the resin molding machine.

〔Example〕

Embodiments of the present invention will be described below with reference to the drawings.

In FIGS. 1 to 4, ``■'' is a pair of left and right rail bodies on which a plurality of free rollers 11 are arranged in a row, and these are fixed by the machine frame 2 while maintaining a constant width W.

3 is an endless chain bell L-41 structure arranged along the length between the left and right rail bodies 1 and 1, and the drive source of this chain belt mechanism is one of the pulleys 4 stretched at both ends of the belt. A motor M is placed on the side of the pulley 4 and is interlocked with a belt 5.

Reference numeral 6 indicates pushers provided on the chain belt at intervals corresponding to the outer shape (depth D) of the container, and shafts 5. Combine with .

Reference numeral 7 denotes a storage container for molded parts produced by a resin molding machine. An angled guide 8 is provided at the bottom of the container to prevent it from coming off on the outside or inside of the rail bodies 1, 1, and the container is placed on the rail body. Place it on.

Reference numeral 9 indicates a molded part supplying portion 1 in which the container 7 is made of resin molded AlO.
0. When the molded parts are stored for a predetermined time or a predetermined number of molded parts, the system detects this and advances the chain belt a certain distance and then stops. It is equipped with a microswitch 12 that turns on and off the drive force for transmitting the driving force to the advancing and retracting mechanism.

Reference numeral 13 denotes a small wheel provided at the lower part of the rail body to adjust the movement of the rail body i1 relative to the resin molding machine. 14 is a stopper that controls the movement of the small wheels.

Reference numerals 15 and 16 are tables provided on the base end side and the distal end side of the rail body 1.The table at the base end is grounded horizontally, and the table on the distal end side is so arranged that its end side is grounded. It is sloping.

Next, FIGS. 5 and 6 show that the advancing/retracting mechanism 30 is connected to the fluid cylinder=30
A pusher 60 is provided at the tip of the cylinder rod 31 via a connecting shaft 61 and a spring 62 so as to fall only forward. The amount of advance of the fluid cylinder rod is equal to one container.

In this case, the containers arranged in a row on the rail body shall be connected to each other using a holding device 70 such as a clip.
In the figure, 80 indicates a spacer that maintains the gap g between adjacent containers. The height of the container mounting surface of the rail body is set at about 13 to 15 cm from the floor surface.

To explain a process example based on the above embodiment, in the apparatus shown in FIGS.
The rail bodies 1, 1 are arranged at approximately the midpoint of their entire length at a position perpendicular to the rail body 1, and after positioning, they are fixed with stoppers 14 so as not to move.

Next, from the table 16 at the base of the rail body, the rail body 1 is
Place the container 7 on the guide 8 so that it does not come off! ! 2
t, and the molded part storage container 7 is stopped facing the delivery site. Then, containers 7□...77 that are the same as the containers described above are sequentially placed in a row in the same direction. The detection mechanism 9 for driving and stopping the chain belt 3 and the operation mechanism 12 for the advancing and retracting mechanism are operated in conjunction with a timer and a micro-sinch.

Next, the operation of the resin molding machine IO is started. The molded parts are placed from a delivery section 101 of the molding machine into a container 7 that faces the delivery section and is placed and stopped on a rail tray l.

Next, when the timer 8 is set at a predetermined time, or when the molded parts are delivered to the delivery site, the chain conveyor 3 is driven by the action of a counter (not shown), and the pusher 6 pushes the lower part of the back of the container 7. The next empty container 7t moves forward by one piece and the next empty container 7t is delivered to the delivery site 10. One process is completed by stopping at a position opposite to . Note that the timer is set to the time from when the molded part is placed into the container from the delivery site in the resin molding machine until it forms the desired star.

Containers containing parts molded by the resin molding machine accumulate, move forward on the rail body one after another, and reach the tip.
Either it gets on the table 16 and arrives at the next process location, or if it is remote, it is transferred to a separately installed conveyor and transported to the destination location. In this case, the other conveyor may be free without a driving source as long as it is connected to the chain conveyor 5.

Next, in the apparatus shown in FIGS. 5 and 6, when a predetermined period of time has elapsed after the molded parts are continuously fed into the container 7 from the dispensing section 10+ of the resin molding machine, the timer operates and the loft 31 of the cylinder 30 is activated. The container 7 is pushed by the pusher 60 by a length corresponding to the depth D and the gap g and then stopped.

When the rod 31 retreats, the pusher 6 at the tip of the rod
0 hits the bottom of the next container 7□, the pusher falls forward about the coupling shaft 61 against the spring 62, avoids the bottom, and returns to its original position.

〔Effect of the invention〕

Since the present invention has the above-described configuration, it is possible to continuously and unmannedly produce and transport synthetic resin molded parts used for human feet, such as computer-related parts or other child-related equipment parts.

In addition, the height of the container mounting surface of the rail body is 13 to 13 cm from the floor surface.
Since it has an extremely low structure of around 15 cm, it is suitable for machines where the outlet is located at a low position, such as the resin molding machine for molding computer-related parts or other electronic device parts.

Furthermore, since the container is equipped with a guide at the bottom,
When the container is placed on the rail body and moved, there is no fear that the container will change direction or come off, and the pusher can be formed into a single and small size to ensure reliable pushing.

Furthermore, since pushers are provided in the chain belt or fluid cylinder advancing/retracting mechanism at intervals of one container,
The container can be reliably sent one by one, and the container can be stopped always facing the dispensing part of the resin molding machine without causing positional deviation on the rail body.

[Brief explanation of drawings]

Fig. 1 is a front view of a feeding device for a molded parts storage container by a resin molding machine, Fig. 2 is a longitudinal sectional view taken along line 2-2 in Fig. 1,
3 is a longitudinal sectional view taken along the line 3-3 in FIG. 2, FIG. 4 is a plan view, FIG. The figure is a plan view of FIG. 5. l...A pair of rails on the left and right. 2... Machine frame. 3...Chain belt mechanism. 4.4...Pulley. 5... Drive source transmission pulley. 6.60...Press. 7... Container. 8...Guide. 9...Stop/move time operation detection ja measures. lO...Resin molding machine. 10. Donation site. 11...Free roller. 12...Advancing/retracting mechanism operation on/off mechanism. 13...Small wheel. 14...stopper. 30... Cylinder mechanism. Patent Applicant: Uehara Patent Attorney: Masao Isono (Volunteer) Hand υε (Hoshozen September 20, 1985 Michibe Uga, Commissioner of the Patent Office, ;:1
, Indication of the case 1985 Patent Application No. 189411 2, Name of the invention Transport bag for molded parts storage container by resin molding machine; η3,
Relationship with the case of the person making the amendment Patent applicant 4, attorney JI151 No. 374-0697 Specification 1, Title of the invention, Conveying device for molded parts storage container by resin molding machine 2, Claims: Plural free rollers A pair of left and right rail bodies arranged in a row are fixed to a machine frame while maintaining a constant width, an advancing/retracting mechanism is arranged along the length between the left and right rail bodies, and a pusher for pushing containers is installed in the advancing/retracting mechanism. A molded parts storage container provided with a guide along the outside or inside of the rail body is placed R on the rail body, and the container stops facing the molded parts supplying part of the resin molding machine, and continuously within a predetermined time. When a predetermined number of molded parts that are produced on a regular basis are stored in a container, the wheels are equipped with a detection mechanism that moves by one container via an advance/retreat mechanism and then stops, and an operation on/off mechanism thereof, and wheels that adjust the movement of the rail body. A conveying device for a molded parts storage container using a resin molding machine, characterized by comprising: 3. Detailed Description of the Invention [Field of Industrial Application] The present invention relates to a conveying device for a molded parts storage container using a resin molding machine, and in particular, it relates to a conveying device for a molded parts storage container using a resin molding machine. Synthetic resin molded parts to be used as plastic parts are molded with a synthetic resin molding machine, and these molded parts are stored in a container from a relatively low supply part of the molding machine, and automatically when a certain period of time has passed or a certain quantity has been reached. By moving one container and moving the next container to the delivery site, containers containing mass-produced molded parts are automatically and continuously transported to the destination location. C. Prior Art Generally, parts molded by a resin molding machine are delivered from a delivery section of the molding machine, stored in a predetermined quantity in a storage container, and transported to a destination location. The above-mentioned transportation method may be carried out manually or by a known belt conveyor. In this case, it is possible to repeatedly move and stop the drive source of the heald conveyor at regular intervals using a timer or the like. [Problems to be Solved by the Invention] However, among the above-mentioned transportation methods, when using manual labor, it is difficult to rely on human labor to transport the molded parts during continuous molding operations that are unmanned for long periods of time, such as day and night. In the end, it requires manpower, which is undesirable because labor saving cannot be achieved and costs increase. On the other hand, in the transportation method using a belt conveyor, if a container placed on the belt is moved and stopped repeatedly according to the time setting using a timer or other function, the container itself pushes other containers. , subtle discrepancies occur between the control of the orientation of each container, the size of the container, and the amount of movement of the belt conveyor, and furthermore, each time the heald conveyor is repeatedly driven and stopped, the position of the container is shifted, resulting in unattended operation for long periods of time. If the drive continues, there is a risk of an unexpected accident. In addition, the parts dispensing part of the molding machine for various small resin molded products, such as computer-related parts or other electronic device parts, is located at a relatively low position of about Gθ~70 cm from the floor surface, whereas the known heald conveyor Since the conveying belt surface of the machine is relatively high at 60 to 90 c+a from the floor, it is positioned as it is at the parts delivery area of the resin molding machine, and a container with a height of about 30 to 40 c+e is placed. In this case, the height becomes at least about 90 co+, so it is difficult to apply it to conveyance by the molding machine. [Means for Solving the Problems] Therefore, the present invention solves the problems of conventional transportation devices, and also provides small resin molded products molded with a resin molding machine, such as synthetic resin used as parts related to computers and other equipment. The purpose of this system is to automatically and continuously move and stop a container containing molded parts at predetermined intervals so that it can be transported to a desired location.In order to achieve the above purpose, The present invention provides a transport device for a molded parts storage container using a resin molding machine, in which a pair of left and right rail bodies in which a plurality of free rollers are arranged in a row is fixed to a machine frame while maintaining a constant width, and the longitudinal direction between the left and right rail bodies is fixed. A horizontal movement is arranged along
A molded parts storage container provided with a guide along the outside or inside of the rail body is placed on the rail body, and the container is stopped facing the molded parts supplying part of the resin molding machine, and continuously within a predetermined time. It is equipped with a detection mechanism that activates a forward/backward mechanism when a predetermined number of molded parts to be produced are stored in a container, and stops after moving by one container, and an operation on/off mechanism for the forward/backward mechanism;
It is equipped with wheels for adjusting the movement of the rail body. [Operation] The operation based on the above means will be explained. First, the rail body is placed at a position perpendicular to the supplying part of the resin molding machine, and the part approximately in the middle of its entire length is placed. Next, a molded parts storage container is placed on the rail body and advance/retreat mechanism facing the delivery site, and a row of containers identical to the container are placed behind it in the same direction. The detection mechanism and operation on/off mechanism that drive and stop the forward and backward a side are as follows:
A timer, a microswitch, a relay circuit, a preset counter, etc. are used to work in conjunction with each other. Next, the operation of the resin molding machine is started. The molded parts are placed in a predetermined quantity from a delivery section of the molding machine into a container that faces the delivery section and is placed and stopped on a rail. Next, the advancing/retracting mechanism is moved by the action of the detection mechanism's timer set at a predetermined time, and by pushing the lower part of the back of the container with the pusher, the container moves one space and the next empty container faces the dispensing site. The machine stops at the desired position, and one process is completed. The above-mentioned timer is set to the time required for the resin molding machine to reach the desired quantity after the molded parts are introduced into the container from the delivery site. Also, when using the preset counter,
It can be placed on the resin molding machine side and sent a signal to the counter during each step from the start of injection to the start of the next injection, or it can be counted when the molded part falls to the delivery site after injection molding is completed. When the set number is reached, a signal is emitted, and the advancing/retracting mechanism receives the signal and sends the signal to start driving. [Examples] Examples of the present invention will be described below with reference to the drawings. In Figures 1 to 4, 1 is a pair of left and right rail bodies in which a plurality of free rollers 11 are arranged in a row, and this is connected to the machine frame 2.
to maintain a constant width W and fix it. 3 is an endless chain belt mechanism arranged along the length between the left and right rail bodies 1 and 1, and the driving source of this chain belt mechanism is the pulleys 4 and 4' stretched at both ends of the heald. A motor M is arranged on one pulley 4 side and is interlocked with a belt 5. Reference numeral 6 indicates pushers provided on the chain heald at intervals corresponding to the outer shape (depth D) of the container, and are connected by a shaft 51 at the connecting portion of each chain. Reference numeral 7 denotes a container for storing molded parts by a resin molding machine, and an angled guide 8 is provided at the bottom of the container to be followed so as not to come off on the outside or inside of the rail body 1, and the container is placed on the rail body. Place it. 9, the container 7 is resin-molded [10, molded part delivery portion 1]
0. This is a detection mechanism that detects when a predetermined time or a predetermined number of molded parts are stored, and moves the chain heald a certain distance and then stops. It is equipped with a microswitch I2 which performs an operation for transmitting the driving force to the advance/retreat mechanism. Reference numeral 13 denotes a small wheel provided at the lower part of the rail body for adjusting the movement of the rail body 1 with respect to the resin molding machine. 14 is a stopper that controls the movement of the small wheels. Reference numerals 15 and 16 are tables provided on the base end side and the distal end side of the rail body 11, the table on the base end side is grounded horizontally, and the table on the distal end side is inclined so that its tip side is in contact with the ground. There is. Next, FIGS. 5 and 6 show that the advancing/retracting mechanism 30 is connected to the fluid cylinder 30.
A pusher 60 is provided at the tip of the cylinder rod 31 via a connecting shaft 61 and a spring 62 so as to fall only forward. The amount of advance of the fluid cylinder rod is equal to one container. In this case, the containers arranged in a row on the rail body are connected to each other using a holding device 70 such as a clip. In the figure, 80 indicates a spacer that maintains the gap g between adjacent containers. The height of the container i3i device of the rail body is set at about 13 to 15 cm from the floor surface. Alternatively, although not shown, a protrusion is provided on the bottom of the container 70 so that the pawl teeth of a sprocket having a driving source are engaged with the protrusion, and the sprocket is driven in the forward direction to push the container 70 and move the container 70 in the backward direction. It is also possible to have a structure in which the sprocket is set to idle. To explain a process example based on the above embodiment, in the apparatus shown in FIGS. The rail body 1.l is placed approximately at the midpoint of its entire length at a position orthogonal to the rail body 1.l, and after positioning, it is fixed with a stopper 14 so that it does not move. Next, from the table 15 side of the base of the rail body, the rail body l.
The container 7 is placed on the container 1 via a guide 8 so as not to come off, and the container 7 is stopped facing the delivery site. Then, containers 7□...7n that are the same as the containers described above are sequentially placed in a row i3I in the same direction. The detection mechanism 9 for driving and stopping the chain heald 3 and the operation mechanism 12 for the advancing and retracting mechanism are operated in conjunction with a timer and a microswitch. Next, the operation of the resin molding machine 10 is started. The molded parts are placed from a delivery section 101 of the molding machine into a container 7 that faces the delivery section and is placed and stopped on a rail 11. Next, a timer 8 is set at a predetermined time, or a present counter (not shown) is set on the resin molding machine side, and a signal is sent to the counter in one process from the start of injection to the start of the next injection, or the injection It is arranged so that it can be counted when the molded part falls into the service area S' after molding is completed, and when a set number is reached, a signal is emitted, and the advancing/retracting mechanism side receives the signal and starts driving. As a result, the chain conveyor 3 is driven and the pusher 6 pushes the lower part of the back of the container 7, so that the container moves forward by one container and stops at the position where the next empty container 7t faces the dispensing part 101. The process is completed.The timer setting described above is the time required for the resin molding machine to charge the molded parts from the delivery site into the container and form the desired star. When the containers accumulate and move forward on the rail body one after another and reach the tip,
Either it gets on the table 16 and arrives at the next process location, or if it is remote, it is transferred to a separately installed conveyor and transported to the destination location. In this case, as long as the other conveyor is connected to the chain conveyor 5, it can be a free conveyor without a driving source. Next, in the apparatus shown in FIGS. 5 and 6, the supply section 10 of the resin molding machine. When a predetermined period of time has elapsed after the molded parts are continuously fed into the container 2'i7, the timer operates and the rod 31 of the cylinder 30 is activated, and the pusher 60 moves the container 7 to the depth D.
It is then pushed by a length L corresponding to the gap g and then stopped. When the rod 31 retreats, the pusher 6 at the tip of the rod
0 hits the bottom of the next container 7t, the pusher falls forward about the coupling shaft 61 against the spring 62, avoids the bottom and returns to its original position. [Effects of the Invention] Since the present invention has the above-mentioned configuration, it is particularly suitable for various small resin molded products, such as computer-related parts or other decorative parts.
Mass production of synthetic resin molded parts that are used in large quantities, such as i23 parts, and their transportation can be carried out continuously and unmanned. In addition, the height of the container storage surface of the rail body is 13 to 13 cm from the floor.
Since it has an extremely low structure of around 15 cm, it is suitable for machines where the supply port is located at a low position, such as the resin molding machine for small resin molded products mentioned above. Furthermore, since the container is equipped with a guide at the bottom,
On the rail body! 3! When the container is placed and moved, there is no fear that the container will change its orientation or come off, and the pusher can be formed to be elegant and small so that it can be pushed reliably. And also, it is possible to use a chain belt, a fluid cylinder, a sprocket, etc., for a reciprocating mechanism such as one container.
In addition to being able to reliably send one container with 1 rb,
There is no possibility of misalignment on the rail body, and the resin molding machine can always be stopped facing the dispensing part of the resin molding machine. 4. Brief description of the drawings Figure 1 is a front view of a transport device for a molded parts storage container by a resin molding machine, Figure 2 is a longitudinal sectional view taken along line 2-2 in Figure 1,
3 is a longitudinal sectional view taken along the line 3-3 in FIG. 2, FIG. 4 is a plan view, FIG. The figure is a plan view of FIG. 5. l...A pair of rails on the left and right. 2... Machine frame. 3...Chain belt mechanism. 4・4′・・・Pulley. 5... Drive source transmission pulley. 6.60...Press. 7... Container. 8...Guide. 9... Stop/movement time operation detection mechanism. IO...Resin molding machine. 10+... Donation site. 11...Free roller. 12...Advancing/retracting mechanism operation on/off mechanism. 13...Small wheel. 14...stopper. 30... Cylinder mechanism. Patent Applicant Uehara Patent Attorney @ Masao No (Voluntary) Procedural Order IT Official Book 1, Indication of Case 1985 Patent Application No. 189411 2゜ Title of Invention Transport of Molded Parts Storage Container by Resin Molding Machine Device 3, relationship with the case of the person making the amendment Patent Applicant Address 1-19-18 Nishitsutsujigaoka, Chofu City, Tokyo Name Uehara Uke 4, Agent @ 151 Address 374-0697il+
"Detailed Description of the Invention and Brief Description of the Drawings" section of the specification. (2) Figures 7, 8, and 9 JD+ of the drawings [Attachment] 6. Contents of the amendment [1] The following after “Shide” on page 8, line 20 of the specification: Add and correct sentences. 7 to 9, the container feeding mechanism using the chain conveyor 3 has a mechanism that rotates freely in one direction, like a chain sprocket 91 on the rear wheel of a bicycle, but when it tries to rotate in the opposite direction, a ratchet wheel 92 Ko+: +93
Alternatively, a free rotation clutch 90 in which both 91 and 92 are engaged and connected by gravity claws or the like is used, and the clutch 30 is arranged coaxially with the chain pulley 4' shown in the first and second figures and attached to the rotating shaft 20 thereof. The chain band 31 is hung and turned to connect the proximal end to the rod 33 of the fluid cylinder 32, and the distal end to the fixing member 100 via the tension spring S. The advancing stroke L of the chain hair 3 due to the fluid cylinder loft is set to one container. ” (2) The following sentence is added after “Return to.” on page 11, line 18 of the specification to amend. Furthermore, in the container feeding mechanism 30 shown in FIGS. 7 to 9, the reciprocating rod 33 of the fluid cylinder 32 is
If you move back by the stroke L for sprocket 9,
1, the ratchet wheel 91 and the rollers 92 are engaged and connected, and by pulling the chain band 31 against the tension spring S, the rotating shaft 20 is rotated, and only one container is pushed forward via the chain 3. do. Next, when the retracted cylinder loft 33 is advanced, the chain band 31 is pulled by the tensile force of the tension spring S, and the engagement between the ratchet wheel 92 and the rollers 93 of the sprocket 91 is released, and the rotating shaft 20 is One process is completed by returning to the original position without any rotational action. (3) Page 13 of the specification, line 6, ``Plan view of Figure 5,'' followed by ``Figure 7 is a side view of the Shini! mechanism that combines a free-rotation clutch and a fluid cylinder to advance a chain conveyor.'' , FIG. 8 is a front view of FIG. 7, and FIG. 9 is a partially cutaway front view of a sprocket type free rotation clutch.'' The above procedure was conducted by the chief executive officer of April 20, 1986, Director General of the Patent Office, Kuro 1) Mr. Akio 1,! Indication of IX Patent Application No. 189411 No. 189411 2, Title of Invention: Conveying Device for Molded Parts Storage Container by Resin Molding Machine 3, Relationship with Amendment Case Patent Applicant Address: 1-Nishi-Tsujigaoka, Chofu-shi, Tokyo 19-18 Name Uehara Uke 4, Agent 81517n374-0697 1985 9
Procedural amendment subject to amendment of the procedural amendment filed dated May 20th 1, Case indication 1985 Patent Application No. 189411 2, Name of the invention Transport of molded parts storage container by resin molding machine! a position 3,
Relationship with the case of the person making the amendment Patent applicant Address 1-19-18 Nishitsutsujigaoka, Chofu-shi, Tokyo Name Uehara Uke 4, Agent 8151 No. 374-0697 Specification 6, Contents of amendment

Claims (1)

[Claims] A pair of left and right rail bodies with a plurality of free rollers arranged in a row are fixed to a machine frame while maintaining a constant width, and a forward/backward mechanism is arranged along the length between the left and right rail bodies, and the container is pushed through the forward/backward mechanism. A molded parts storage container provided with a pusher and a guide along the outside or inside of the rail body is placed on the rail body, and the container is stopped facing the molded part supplying part of the resin molding machine, and is placed in a predetermined position. When a predetermined number of molded parts that are continuously produced within a certain period of time are stored in a container, the rail body is equipped with a detection mechanism that moves by the distance of one container via an advance/retreat mechanism and then stops, and an operation on/off mechanism thereof. A conveying device for a molded parts storage container using a resin molding machine, characterized in that it is equipped with wheels for adjusting movement.