JPS60204512A - Conveyor - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to a conveying device for a plastic injection molding machine for transporting an injection molded product that falls from an injection mold during a work cycle from the base of the machine. An endless conveyor belt is arranged in the machine base, deflected by two drums rotatably supported on stationary shafts supported on the machine base, the chassis being positioned between the belt sections of the conveyor belt and between the drums. It relates to a type having a core member disposed between the core members and two side walls fixed to the vertical sides of the core member.

2. Prior Art A conventional conveying device of the above type incorporated into the machine base of a plastic injection molding machine (Japanese Patent Application No. 57-202188) is capable of removing a large area from the machine base without carrying out slicing. I can't. The drum of the conveying device is supported in the wall of the machine base or in a frame connected to the machine base, which requires a lot of space. Such a construction requires relatively high assembly costs.

Furthermore, conveying devices of the same type are also known which are very easily manufactured from standardized parts in unit form (November 1975).
Monthly issue/periodical publication ``Transportation and support technology'' -Tran
sport und lagertechn-1k -
).

Problem to be Solved by the Invention The problem of the invention is to provide a system which can be produced in large quantities in a satisfactory and economical manner, and which at the same time can be functionally assembled as a structural unit outside the machine base and tested in orderly operation. Another object of the present invention is to improve the conveying device of the type mentioned at the beginning so that it can be inserted into the narrow discharge passage of the base of the machine.

Means for Solving the Problems In the embodiment of the invention, a hydraulic motor is arranged as the drive motor between the belt sections and between the side walls, parallel to the drum, and this It is supported on a shaft via a support arm that cannot rotate with respect to the chassis, and the support arm supports a bearing pin of the shaft on the one hand by a bearing part, and on the other hand a centripetal appendage of a hydraulic motor on a bearing flange. It is surrounded by shape connection by ℃・ru.

The chassis of the exemplary transport device has a core 10 and two side walls 11 with end plates 13 fixed to the longitudinal sides of the core. The core material 10 is a belt section 18 of the conveyor belt 18
a, 18 b) is located between madrum 1 and 0. The core consists of a number of shaped bars 10b with a U-shaped cross section arranged transversely to the conveying direction A and two cover sheets 10a located in parallel planes. Power/
- The thin plate 10a is the flat U-shaped leg 1 of the formed rod 10b.
It is in contact with 0g and 10h. The side wall 11, which extends over the entire length of the conveying device, has a vertical flat web area 11e, a curved upper longitudinal edge 11b and a curved horizontal lower longitudinal edge 11a. The edge 11a forms a bearing surface for mounting the transport device.

The vertical edge 11b includes a bent edge portion 11f. Both vertical edges 11
a and 11b slightly overlap the conveyor belt 18. The side wall 11 is fixed via its web region 11e to the L-shaped web tongue 10e of the forming rod 10b by a screw pin 12, the head of which is embedded in the stamping part 11c and which is attached to the web. It is engaged in the hole 10f of the tongue piece 10e. The side wall 11 is a thin cover plate 10a.
is in contact with and reinforced by the vertical edge bend 10d. The end plates 13 of U-shaped cross section are supported on the edges of the longitudinal edges 11a, 11b of the side walls 11. The side wall 11 is connected to the adjacent side wall 11 by a U-shaped leg 13a.
The projection 13 is in contact with the web region 11e of the
e prevents lateral movement. The protrusions protrude from the U-shaped legs 13b at the top and bottom, and extend from the vertical edges 11.
It is engaged in the notch part 11d of a or 11b.

The U-shaped legs 13a support the vertical edges 11a, 11b from inside for reinforcement. The drum 17 is supported via a ball bearing 15 on a stationary shaft 14 supported in the side wall 11. To form a tensioning device, a horizontal tensioning pin 19 is supported on the web 13c of the end plate 13 and engages the adjacent shaft 14 via a transverse hole 14b. The bearing pin 14a of the shaft 14 is such that the horizontal guide notch of the U-shaped leg 13b is supported in the portion 13f and the conveyor belt 1
8 is guided within this guide notch when tension is applied. Supporting tongue of end plate 13. i is in contact with the edge of each adjacent side wall 11 for stabilization (see FIGS. 2 and 4). The hydraulic motor 23 is freely supported on the shaft 14 via the support arm 21 . The support arm 21 surrounds the bearing pin 14a of the shaft on the one hand by a bearing part 21a and on the other hand the centering extension 23d of the hydraulic motor 23 by a bearing flange 21c. A tensioning pin 19 extends partially through the bush-like bearing part 21a, which is provided with a hole 21b. The bearing flange 21C is in contact with the hydraulic motor 23 on the end face side. A coaxial drive gear 25 of the hydraulic motor 23 meshes with an adjacent end gear (drum gear 16) of the drum 17. The drum 17 is constructed such that the end section 17b of the drum is placed over the boss 16C of the drum spur gear 16 and the at least one axial profile 16d engages in a suitable recess 1.7a of the drum 17. (See Figure 5)
, is fixedly connected to the drum spur gear 16. The upper belt section 18a is slidably supported on the longitudinal deformation 10c of the adjacent cover sheet 10a. A thin guiding plate 29 is provided on the rear end face of the conveying device. Transport device chassis, drum 17, shaft 14 and transport belt 1
8 are two planes of symmetry a located perpendicular and at right angles to each other
-aXb It is constructed symmetrically with respect to b. In order to maintain a symmetry that is advantageous in terms of manufacturing technology, three non-functional drum spur gears 16 are provided, which are arranged similarly to the driven drum spur gears 16 . The non-functioning (idling) drum spur gear 16 is secured in the axial direction via a spacer 20 whose axial dimension corresponds to the bearing part 21 of the support arm 21.
Equal to the axial dimension of a. A hydraulic motor 23, which is fastened to the bearing flange 21c by means of fixing screws 22, is connected via a hydraulic connection 23 and a hydraulic line 24 to the hydraulic circuit of the injection molding machine.

The hydraulic conduit is secured by a hose holder 28.

The drive gear 25 is unrotatably connected to the support pin 23a of the hydraulic motor 23 using a fitting key 23b, and is secured in the axial direction via a support plate 26 using a screw 27. Support flange 21 formed on bridging member 21e
The annular shoulder 21d of C centers the hydraulic motor 23. The conveying device is mounted in the machine base via a longitudinal edge 11a on a height-adjustable transverse rod of the machine base, and an annular shoulder 16b of the machine base limits the running path of the conveyor belt 18.

In the modified embodiment according to FIGS. 8, 9 and 10,
The core member 10 of the conveying device for carrying out is rotatably and latchingly coupled via a side wall 11 and a support plate 32 to a conveying member that lifts the injection molded product above the conveying level. The conveying member is composed of components that substantially match the components of the conveying device. The bearing plate 32 is in contact with the web regions 11e, 11e of the side walls 11.11 of the transport device and the transport member. The axle 14.14' of the driven drum 17.17 of the conveying device and conveying element and the axis 35 of the intermediate gear 36 meshing with the drum spur gears 16', 16'' of the conveying device and conveying element are received by the bearing plate 32. The intermediate gear 36 is in penetrating engagement with the lower longitudinal edge 11a of the side wall 11 of the conveying device through the slit 33, and is in penetrating engagement with the upper longitudinal edge 11b of the side wall 11 of the conveying member through the slit 33. (See Figure 10).Axis 14
．． 14■.

35 are screw pins 31, 31 . 31 to the support plate 32.

The screw pin passes through the bearing plate 32 and engages axially in a threaded hole in the shaft and presses the bearing plate 32 against the side wall 11. The profile 32a of the support plate 32 engages in a suitable recess in the web 11e of the transport device for removal in order to center the transport member in the selected pivot position.

The intermediate gear 360 ball bearing 37 engages with the bearing pin 35a on the end side of the shaft 35, whereas the drum spur gear 16
1.16" ball bearings 15, 151 engage bearing pins 14a, 14ar of shaft 14, 141.

The recess 40, which is designed as a slot (see FIG. 9), makes possible a movability for tensioning the conveyor belt via a tensioning device. The profile 32a of the bearing plate 32 engages in a suitably formed recess 401 in the side wall 111. The four molded bodies 32a1 are respectively engaged in different notches 401 depending on the rotational position of the conveying member (see FIG. 9).

A blocking plate 39 is rotatably supported on the protective thin plate 34 by means of pins 38 above the drum 17 of the transport member.

The blocking plate contacts the conveyor belt 18I tangentially over the entire width of the conveyor belt 1810 under the action of gravity and is used as a driver in the lateral direction of the conveyor belt 18.
can slide through m. The blocking plate is used to prevent the injection molded product from falling backwards from the conveyor belt.' The ascending i-feeding member can be connected to the unloading conveyor or this conveyor at a small installation cost. In order to save costs, the operator can therefore buy the transport element later, ie, as needed.

Advantages of the Invention The design of the invention results in a transport device construction that requires significantly less space to be installed on the height-adjustable bearing rod in the machine base after external commissioning. This is because the maximum width of the conveying device is defined by the mutual spacing of the side walls and corresponds approximately to the width of the output opening in the machine base. Due to the operating characteristics of the hydraulic motor, continuous or intermittent operation of the conveyor belt at different operating speeds can be carried out without significant transmission costs.

The embodiments according to claims 2 and 3 result in particular savings in transmission costs. Furthermore, claim 4
According to the embodiments of Sections 1 and 5, conveying devices of different sizes can be constructed from standardized components.

Furthermore, the embodiments according to patent claims 7 and 10 make it possible to lift the injection molded products removed from the machine base to a high level, in which case a separate drive is not required for this purpose. be.

[Brief explanation of the drawing]

The drawings show an embodiment of the present invention, in which FIG. 1 is a partially sectional side view of the conveying device, FIG. 2 is a partially enlarged view of FIG. 1, and FIG. 6 is a partially enlarged view of the conveying device. 4 and 5 are respectively partially enlarged views of FIG. 3, and FIG. 6 is a sectional view taken along line Vl-VI in FIG. 7 is a partially enlarged view of FIG. 6, FIG. 8 is a side view of the carrying device for carrying out, FIG. 9 is a partially enlarged view of the carrying device according to FIG. 8, and FIG. 10 is a partially enlarged view of the carrying device according to FIG. FIG. 3 is a cross-sectional view taken along line XX. 10...core material, 10a...cover thin plate, 1ob...
・Molded body, 10c...Longitudinal deformation part, 10dllllf
...Edge bending part, 10e...Web tongue piece, 1of...
- Hole, 10g, I Qh, 13a, 13b - tr-shaped leg, 11.11'... Side wall, 11a, 11b...
Vertical edge, 11c... Embossed part, 11d117 &... Notch part, 11e... Web range, 12... Screw pin/, 1
3... End thin plate, 13c... U-shaped web, 13d
...Support tongue piece, 13e...Protrusion, 13f...Guide notch, 14,141.35...Shaft, 14a.

Claims (1)

[Scope of Claims] 1. A conveying device for a plastic injection molding machine for transporting an injection molded product that falls from an injection mold during a work cycle from a machine base, comprising a stationary shaft supported inside a chassis ( 14) an endless conveyor belt deflected by two drums (17) rotatably mounted on it) (
18) is arranged in the machine base, said chassis having a core (10) arranged between the belt sections (1B&, 18b) of the conveyor belt and between the drums, and a longitudinal side of this core. In the type having two side walls (11) fixed to the hydraulic motor (2) as the drive motor,
3) side wall (11) between belt sections (18a, 18b)
A support arm (21) is arranged in between and parallel to the drum (17) and is non-rotatable with respect to the chassis.
) on the shaft (14), said support arm supporting on the one hand the bearing pin (14a) of said shaft (14) by means of the bearing part (21a) and on the other hand the hydraulic motor (23
) is surrounded by a bearing flange (21C) in a form-locking manner. 2. A horizontal tensioning pin (19) supported on the chassis is in threaded engagement with an adjacent shaft (14), the bearing pin (1'4a) of which is tensioning the conveyor belt (18). At the same time, it is guided in a horizontal guide cut (13f) in the chassis and, furthermore, passes through a bush-like bearing part (21a) of the support arm (21) to release the associated tensioning pin (19). Extended and supporting flange (21C)
2. The conveying device according to claim 1, wherein the hydraulic motor (23) is in contact with the hydraulic motor (23) on its end side. 6. Drive gear (2) coaxial with the hydraulic motor (23)
5) is meshed with a gear (drum gear 161) on the end surface side of an adjacent drum (17). 4. Chassis of transport device, drum (17), shaft (14)
, transport pel) (1B) and the tensioning device (14, 19) are in two planes (symmetrical plane a-a:bb-b) that are perpendicular to each other.
The six drum gears (16), which are constructed symmetrically with respect to the support arm (21) and which are furthermore non-functional, are axially secured by a spacer bush (20), the axial dimension of which extends to the support arm (21). The conveying device according to any one of claims 1 to 6, wherein the axial dimension of the supporting portion (2'1a) is equal to the axial dimension of the supporting portion (2'1a). 5. A molded body (10b) in which the core material (10) is arranged transversely to the conveyance direction (A), and two thin cover plates (10a) located in parallel planes that contact this molded rod.
and further comprising a hydraulic motor (20) disposed between the drum (17) and the forming rod (10b). The conveying device described. 6. The core material (10) can be pivoted and latched to another conveyance member that raises the injection molded product above the conveyance level of the conveyance device for unloading via the side wall (11) and the support plate (32). Claim 1, characterized in that the driven drum gear (1611) of the conveying member is driven by the drum gear (16) via an intermediate gear (36). The conveyance device according to any one of items 1 to 5. Z. The conveying element is composed of components that correspond to corresponding components of the conveying device, and the conveying device comprises:
Side wall (11) of the conveying device and side wall (11) of the conveying member
7. The conveying device according to claim 6, wherein the conveying device is connected to the conveying member via a parallel support plate (32) in surface contact with the conveying member. 8. Conveying device according to claim 7, in which the axes (14, 14) of the conveying device and the conveying member as well as the fixed axes of the intermediate gear (36) are received by the support plate (32). 9 The support plate (32) is pressed against the side wall (11, 11J) via the screw pin (31, 31), and the molded bodies (32a, 32aJ) of the support plate (32, 32") are selected as conveyance members. side wall (11,
The conveying device according to claim 7 or 8, which engages in the appropriate notches (40, 40>) of the conveying member (111). 10. Swivelable above the drum (17') of the conveying member The blocking plate (39) supported by the transport pel (18) receives the action of gravity and the transport pel (1B')
The conveying device according to any one of claims 7 to 9, which is in tangential contact with.