CN213617837U - Multilayer ejection device for vulcanizing machine - Google Patents

Abstract

The utility model discloses a multilayer ejection device for a vulcanizing machine, which comprises a frame, a low-level ejection mechanism and a high-level ejection mechanism, wherein a first high-level rod group, a second high-level rod group and a low-level rod group are sequentially vertically arranged on the frame; the first high-position rod group, the second high-position rod group and the low-position rod group are fixedly connected through a lower horizontal connecting rod; the rod bodies between the first high-level rod groups are fixedly connected through a group of upper horizontal connecting rods; the first high-position rod group and the second high-position rod group are matched to form a high-position ejection position; the second high-position rod group and the low-position rod group are matched to form a low-position ejection position; the low-level ejection mechanism and the high-level ejection mechanism are both arranged on the frame. The utility model discloses simple structure, reasonable in design utilizes above-mentioned structure can realize the jack-up to two stove boards or template, and the flexibility is strong, through arranging above-mentioned device in vulcanizer one side or corresponding both sides, can satisfy the ejecting needs of the vulcanizer of two stove boards or four stove board structures, and is efficient.

Description

Multilayer ejection device for vulcanizing machine

Technical Field

The utility model relates to an ejecting device, specific multilayer ejecting device that vulcanizer was used that says so.

Background

Vulcanization is the reprocessing of the rubber within the mold to meet the use, performance requirements. The vulcanization is a periodic process, which comprises a plurality of steps and has requirements on time, temperature, pressure and the like, and in the actual implementation process, a vulcanizing machine is generally used and is matched with a furnace plate and a mold to complete the vulcanization. After vulcanization is finished, the ejection mechanism is required to be matched with the ejection mechanism to realize ejection, the existing ejection mechanism only supports a single-layer mold, development of vulcanization of a complex mold multi-layer furnace plate is limited, and actual requirements on industrial production and use are difficult to meet.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the not enough that prior art exists, provide a multilayer ejecting device that vulcanizer was used.

In order to achieve the above object, the utility model adopts the following technical scheme: a multilayer ejection device for a vulcanizing machine comprises a rack, a low-position ejection mechanism and a high-position ejection mechanism, wherein a first high-position rod group, a second high-position rod group and a low-position rod group are sequentially and vertically arranged on the rack; the first high-position rod group, the second high-position rod group and the low-position rod group are fixedly connected through a lower horizontal connecting rod; the rod bodies between the first high-level rod groups are fixedly connected through a group of upper horizontal connecting rods; the first high-position rod group and the second high-position rod group are matched to form a high-position ejection position; the second high-position rod group and the low-position rod group are matched to form a low-position ejection position; the low-level ejection mechanism and the high-level ejection mechanism are both arranged on the frame; the low-level ejection mechanism is arranged in the low-level ejection position; the high-level ejection mechanism is arranged in the high-level ejection position; pulley blocks are arranged on the corresponding surfaces of the two corresponding upper horizontal connecting rods, and the two corresponding pulley blocks are matched to form an upper guide rail; pulley blocks are arranged on the corresponding surfaces of the two corresponding lower horizontal connecting rods, and the two corresponding pulley blocks are matched to form a lower guide rail;

the low-position ejection mechanism comprises a first lower connecting plate, a first left ejection assembly and a first right ejection assembly; the first left ejection assembly and the first right ejection assembly are both connected with the first lower connecting plate, and synchronous movement of the two assemblies is realized through the first lower connecting plate; the first left ejection assembly and the first right ejection assembly are identical in structure and respectively comprise a first middle fixing plate, a first upper top plate, a first hydraulic rod and a first vertical guide rod; the first middle fixing plate is fixedly connected with the lower horizontal connecting rod into a whole; the first hydraulic rod is connected with the first middle fixing plate, and a movable shaft of the first hydraulic rod vertically penetrates through the first middle fixing plate and then is connected and matched with a first upper top plate positioned above the first middle fixing plate; a plurality of guide holes matched with the first vertical guide rod are formed in the first middle fixing plate; a plurality of first vertical guide rods penetrate through the corresponding guide holes, the tail ends of the first vertical guide rods are connected and matched with the first lower connecting plate, and the top ends of the first vertical guide rods are connected and matched with the first upper top plate; at least two first limiting guide rods are further arranged between the first middle fixing plate and the first lower connecting plate; the tail end of the first limiting guide rod is fixedly connected with the first lower connecting plate; the top end of the first limiting guide rod penetrates through the first middle fixing plate through a hole formed in the first middle fixing plate and then is connected with a limiting block;

the high-position ejection mechanism comprises a second lower connecting plate, a second left ejection assembly and a second right ejection assembly; the second left ejection assembly and the second right ejection assembly are both connected with the second lower connecting plate, and the synchronous motion of the two assemblies is realized through the second lower connecting plate; the second ejection assembly and the second right ejection assembly have the same structure and respectively comprise a second middle fixing plate, a second upper top plate, a second hydraulic rod, a second vertical guide rod and a second limiting guide rod; the second middle fixing plate is fixedly connected with the upper horizontal connecting rod into a whole; the second hydraulic rod is connected with the second middle fixing plate, and a movable shaft of the second hydraulic rod vertically penetrates through the second middle fixing plate and then is connected and matched with a second upper top plate positioned above the second middle fixing plate; a plurality of guide holes matched with the second vertical guide rod are formed in the second middle fixing plate; a plurality of second vertical guide rods penetrate through the corresponding guide holes, the tail ends of the second vertical guide rods are connected and matched with the second lower connecting plate, and the top ends of the second vertical guide rods are connected and matched with the second upper top plate; at least two second limiting guide rods are further arranged between the second middle fixing plate and the second lower connecting plate; the tail end of the second limiting guide rod is fixedly connected with the second lower connecting plate; the top end of the second limiting guide rod penetrates through the second middle fixing plate through a hole formed in the second middle fixing plate and then is connected with a limiting block.

Furthermore, two first hydraulic rods in the low-level ejection mechanism are connected with the same hydraulic pipe and driven by the same external hydraulic equipment.

Furthermore, two second hydraulic rods in the high-position ejection mechanism are connected with the same hydraulic pipe and driven by the same external hydraulic equipment.

Furthermore, the first upper top plate is provided with a channel, the channel is locked with the movable shaft of the first hydraulic rod and the first vertical guide rod through bolts, and when the die is implemented, the matching position between the first upper top plate and the high-position ejection position can be adjusted by adjusting the locking positions of the first hydraulic rod and the first vertical guide rod on the channel, so that the use requirements of dies with different sizes can be met.

Furthermore, the second upper top plate is provided with a channel, the channel is locked with the movable shaft of the second hydraulic rod and the second vertical guide rod through bolts, and when the die is implemented, the matching position between the first upper top plate and the low-position ejection position can be adjusted by adjusting the locking position of the second hydraulic rod and the second vertical guide rod on the channel, so that the use requirements of dies with different sizes can be met.

The utility model discloses during the implementation, the different moulds of accomplishing are pulled in upper guideway, lower guideway respectively to vulcanize, then arrive in low level ejecting position, the high-order ejecting position, the cooperation of furnace plate contact with the difference respectively on the first roof of going up of utilizing the bisymmetry among low level ejecting mechanism, the high-order ejecting mechanism, the second of bisymmetry, at the during operation, link the board under first, the second and realize corresponding the synchronous motion between the roof, and then realize the ejecting of different furnace plates. The utility model discloses simple structure, reasonable in design utilizes above-mentioned structure can realize the jack-up to two liang of side multilayer furnace plates or template, and the flexibility is strong, through arranging above-mentioned device in vulcanizer one side or corresponding both sides, can satisfy the ejecting needs of the vulcanizer of multilayer furnace plate structure, and is efficient.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Detailed Description

Various exemplary embodiments of the present specification will now be described in detail with reference to the accompanying drawings.

The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the disclosure, its application, or uses.

It should be noted that like reference numerals and letters refer to like items in the following figures, and thus, once an item is defined in one figure, further discussion thereof is not required in subsequent figures.

In the description of the present invention, it should be noted that the terms "vertical", "upper", "lower", "horizontal", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art. Example (b):

as shown in fig. 1, the utility model comprises a frame 1, a low-level ejection mechanism and a high-level ejection mechanism, wherein the frame 1 is vertically provided with a first high-level rod group 2, a second high-level rod group 3 and a low-level rod group 4 in sequence; the first high-position rod group 2, the second high-position rod group 3 and the low-position rod group 4 are fixedly connected through a lower horizontal connecting rod 5; the rod bodies among the first high-level rod groups 2 are fixedly connected through a group of upper horizontal connecting rods 6; the first high-level rod group 2 and the second high-level rod group 3 are matched to form a high-level ejection position; the second high-level rod group 3 and the low-level rod group 4 are matched to form a low-level ejection position; the low-level ejection mechanism and the high-level ejection mechanism are both arranged on the frame 1; the low-level ejection mechanism is arranged in the low-level ejection position; the high-level ejection mechanism is arranged in the high-level ejection position; pulley blocks 7 are arranged on the corresponding surfaces of the two corresponding upper horizontal connecting rods 6, and the two corresponding pulley blocks 7 are matched to form an upper guide rail; pulley blocks 8 are arranged on the corresponding surfaces of the two corresponding lower horizontal connecting rods 5, and the two corresponding pulley blocks 8 are matched to form a lower guide rail;

the low-position ejection mechanism comprises a first lower connecting plate 9, a first left ejection assembly and a first right ejection assembly; the first left ejection assembly and the first right ejection assembly are both connected with the first lower connecting plate 9, and synchronous movement of the two assemblies is realized through the first lower connecting plate 9; the first left ejection assembly and the first right ejection assembly have the same structure and respectively comprise a first middle fixing plate 10, a first upper top plate 11, a first hydraulic rod 12 and a first vertical guide rod 13; the first middle fixing plate 10 is fixedly connected with the lower horizontal connecting rod 5 into a whole; a first hydraulic rod 12 is connected with the first middle fixing plate 10, and a movable shaft of the first hydraulic rod 12 vertically penetrates through the first middle fixing plate 10 and then is connected and matched with a first upper top plate 11 positioned above the first middle fixing plate 10; a plurality of guide holes matched with the first vertical guide rod 13 are formed in the first middle fixing plate 10; a plurality of first vertical guide rods 13 penetrate through the corresponding guide holes, the tail ends of the first vertical guide rods are connected and matched with the first lower connecting plate 9, and the top ends of the first vertical guide rods are connected and matched with the first upper top plate 11; at least two first limiting guide rods 14 are further arranged between the first middle fixing plate 10 and the first lower connecting plate 9; the tail end of the first limiting guide rod 14 is fixedly connected with the first lower connecting plate 9; the top end of the first limit guide rod 14 penetrates through the first middle fixing plate 10 through a hole formed in the first middle fixing plate 10 and then is connected with a limit block 15;

the high-position ejection mechanism comprises a second lower connecting plate 16, a second left ejection assembly and a second right ejection assembly; the second left ejection assembly and the second right ejection assembly are both connected with the second lower connecting plate 16, and synchronous movement of the two assemblies is realized through the second lower connecting plate 16; the second ejection assembly and the second right ejection assembly have the same structure and respectively comprise a second middle fixing plate 17, a second upper top plate 18, a second hydraulic rod 19, a second vertical guide rod 20 and a second limiting guide rod 21; the second middle fixing plate 17 is connected with the upper horizontal connecting rod 6 into a whole; the second hydraulic rod 19 is connected with the second middle fixing plate 17, and a movable shaft of the second hydraulic rod 19 vertically penetrates through the second middle fixing plate 17 and then is connected and matched with a second upper top plate 18 positioned above the second middle fixing plate 17; the second middle fixing plate 17 is provided with a plurality of guide holes matched with the second vertical guide rod 20; a plurality of second vertical guide rods 20 penetrate through the corresponding guide holes, the tail ends of the second vertical guide rods are connected and matched with the second lower connecting plate 16, and the top ends of the second vertical guide rods are connected and matched with the second upper top plate 18; at least two second limiting guide rods 21 are further arranged between the second middle fixing plate 17 and the second lower connecting plate 16; the tail end of the second limiting guide rod 21 is fixedly connected with the second lower connecting plate 16; the top end of the second limiting guide rod 21 is connected with a limiting block 22 after penetrating through the second middle fixing plate 17 via a hole formed in the second middle fixing plate 17.

The foregoing description of the embodiments of the present specification has been presented for purposes of illustration and description, but is not intended to be exhaustive or limited to the embodiments disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the described embodiments. The terminology used herein is chosen in order to best explain the principles of the embodiments, the practical application, or improvements made to the technology in the marketplace, or to enable others of ordinary skill in the art to understand the embodiments disclosed herein. The scope of the application is defined by the appended claims.

Claims (1)

1. The utility model provides a multilayer ejecting device for vulcanizer which characterized in that: the device comprises a rack, a low-position ejection mechanism and a high-position ejection mechanism, wherein a first high-position rod group, a second high-position rod group and a low-position rod group are sequentially and vertically arranged on the rack; the first high-position rod group, the second high-position rod group and the low-position rod group are fixedly connected through a lower horizontal connecting rod; the rod bodies between the first high-level rod groups are fixedly connected through a group of upper horizontal connecting rods; the first high-position rod group and the second high-position rod group are matched to form a high-position ejection position; the second high-position rod group and the low-position rod group are matched to form a low-position ejection position; the low-level ejection mechanism and the high-level ejection mechanism are both arranged on the frame; the low-level ejection mechanism is arranged in the low-level ejection position; the high-level ejection mechanism is arranged in the high-level ejection position; pulley blocks are arranged on the corresponding surfaces of the two corresponding upper horizontal connecting rods, and the two corresponding pulley blocks are matched to form an upper guide rail; pulley blocks are arranged on the corresponding surfaces of the two corresponding lower horizontal connecting rods, and the two corresponding pulley blocks are matched to form a lower guide rail; the low-position ejection mechanism comprises a first lower connecting plate, a first left ejection assembly and a first right ejection assembly; the first left ejection assembly and the first right ejection assembly are both connected with the first lower connecting plate, and synchronous movement of the two assemblies is realized through the first lower connecting plate; the first left ejection assembly and the first right ejection assembly are identical in structure and respectively comprise a first middle fixing plate, a first upper top plate, a first hydraulic rod and a first vertical guide rod; the first middle fixing plate is fixedly connected with the lower horizontal connecting rod into a whole; the first hydraulic rod is connected with the first middle fixing plate, and a movable shaft of the first hydraulic rod vertically penetrates through the first middle fixing plate and then is connected and matched with a first upper top plate positioned above the first middle fixing plate; a plurality of guide holes matched with the first vertical guide rod are formed in the first middle fixing plate; a plurality of first vertical guide rods penetrate through the corresponding guide holes, the tail ends of the first vertical guide rods are connected and matched with the first lower connecting plate, and the top ends of the first vertical guide rods are connected and matched with the first upper top plate; at least two first limiting guide rods are further arranged between the first middle fixing plate and the first lower connecting plate; the tail end of the first limiting guide rod is fixedly connected with the first lower connecting plate; the top end of the first limiting guide rod penetrates through the first middle fixing plate through a hole formed in the first middle fixing plate and then is connected with a limiting block; the high-position ejection mechanism comprises a second lower connecting plate, a second left ejection assembly and a second right ejection assembly; the second left ejection assembly and the second right ejection assembly are both connected with the second lower connecting plate, and the synchronous motion of the two assemblies is realized through the second lower connecting plate; the second ejection assembly and the second right ejection assembly have the same structure and respectively comprise a second middle fixing plate, a second upper top plate, a second hydraulic rod, a second vertical guide rod and a second limiting guide rod; the second middle fixing plate is fixedly connected with the upper horizontal connecting rod into a whole; the second hydraulic rod is connected with the second middle fixing plate, and a movable shaft of the second hydraulic rod vertically penetrates through the second middle fixing plate and then is connected and matched with a second upper top plate positioned above the second middle fixing plate; a plurality of guide holes matched with the second vertical guide rod are formed in the second middle fixing plate; a plurality of second vertical guide rods penetrate through the corresponding guide holes, the tail ends of the second vertical guide rods are connected and matched with the second lower connecting plate, and the top ends of the second vertical guide rods are connected and matched with the second upper top plate; at least two second limiting guide rods are further arranged between the second middle fixing plate and the second lower connecting plate; the tail end of the second limiting guide rod is fixedly connected with the second lower connecting plate; the top end of the second limiting guide rod penetrates through the second middle fixing plate through a hole formed in the second middle fixing plate and then is connected with a limiting block.

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