CN211221662U - Movable vulcanizer - Google Patents

Abstract

The utility model discloses a movable vulcanizer, including vulcanizer main part, guiding mechanism, screw-nut mechanism, aversion cylinder and support, screw-nut mechanism installs on the support, the vulcanizer main part is connected with the aversion cylinder, the aversion cylinder is connected with screw-nut mechanism, guiding mechanism installs in the vulcanizer main part to be connected with the aversion cylinder. The utility model discloses in, the aversion cylinder can be used for promoting the vulcanizer main part and make the vulcanizer main part leave ground, and screw-nut mechanism can be used for the removal of aversion cylinder to the realization is to the removal of vulcanizer main part, from this, the utility model discloses other machines that are not convenient for to remove of ability adaptation use, and after removing and targetting in place, the aversion cylinder can drive the vulcanizer main part and contact with ground again, guarantees the processing reliability of vulcanizer main part, and guiding mechanism then can regard as the direction that the rising of vulcanizer main part perhaps moved down, guarantees the removal reliability of vulcanizer main part.

Description

Movable vulcanizer

Technical Field

The utility model relates to a vulcanizer design field especially relates to a movable vulcanizer.

Background

A vulcanizing machine is a common machine for processing rubber products, and the vulcanizing machine is usually required to be placed on a plane, such as the ground, when in use, so as to prevent the processing mold from tilting, thereby reducing the quality of the finished rubber product.

The common vulcanizing machine is usually not movable, but when the vulcanizing machine is actually used in production, the vulcanizing machine is sometimes expected to be moved so as to be convenient for matching with other machines which are inconvenient to move. At present, in order to solve the problems, a belt pulley is usually additionally arranged at the bottom of a vulcanizing machine, and in such a way, although the movement of the vulcanizing machine is facilitated, the pulley is not strong in reliability when being fixed, the vulcanizing machine is easy to move greatly during working, and the processing quality is affected.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a movable vulcanizer can solve one or more in the above-mentioned problem.

According to the utility model discloses an aspect provides a movable vulcanizer, including vulcanizer main part, guiding mechanism, screw-nut mechanism, aversion cylinder and support, screw-nut mechanism installs on the support, the vulcanizer main part is connected with the aversion cylinder, the aversion cylinder is connected with screw-nut mechanism, guiding mechanism installs in the vulcanizer main part to be connected with the aversion cylinder.

The utility model has the advantages that: the utility model discloses in, the aversion cylinder can be used for promoting the vulcanizer main part and make the vulcanizer main part leave ground, and screw-nut mechanism can be used for the removal of aversion cylinder to the realization is to the removal of vulcanizer main part, from this, the utility model discloses other machines that are not convenient for to remove of ability adaptation use, and after removing and targetting in place, the aversion cylinder can drive the vulcanizer main part and contact with ground again, guarantees the processing reliability of vulcanizer main part, and guiding mechanism then can regard as the direction that the rising of vulcanizer main part perhaps moved down, guarantees the removal reliability of vulcanizer main part.

In some embodiments, the feed screw and nut mechanism comprises a feed screw shaft, a nut, a first shaft seat and a second shaft seat, wherein the first shaft seat and the second shaft seat are both mounted on the bracket, the first shaft seat and the second shaft seat are both sleeved on the feed screw shaft, the nut is sleeved on the feed screw shaft through threaded fit, and the displacement cylinder is connected with the nut. Therefore, the screw shaft can rotate on the bracket, and the nut can make linear motion on the screw shaft along with the rotation of the screw shaft, so that the displacement of the displacement cylinder is realized.

In some embodiments, the bracket is provided with an elongated end through which the screw shaft passes. The extension end can be convenient for the installation and fixation of an external power mechanism, such as a motor.

In some embodiments, the guide mechanism comprises a guide shaft, a first connecting plate, a second connecting plate and a shaft sleeve, wherein the first connecting plate is installed on the vulcanizer body, the second connecting plate is installed on the shift cylinder, the shaft sleeve is installed on the second connecting plate, one end of the guide shaft is fixedly installed on the first connecting plate, and the other end of the guide shaft penetrates through the shaft sleeve. Therefore, the guide shaft can guide the movement of the vulcanizer body by being limited by the second link plate.

In some embodiments, the shifting cylinder is provided with a shifting cylinder shaft, the shifting cylinder shaft and the guide shaft are arranged in parallel, and the shifting cylinder shaft is connected with the vulcanizing machine body. Thereby, the guide direction of the guide shaft coincides with the moving direction of the shift cylinder shaft.

In some embodiments, the vulcanizing machine main body comprises a working cylinder, an upper die fixing piece, a lower die fixing piece and a frame, wherein the working cylinder is installed on the frame, the working cylinder is connected with the lower die fixing piece, the upper die fixing piece is connected with the shifting cylinder, and the upper die fixing piece is installed on the frame. The upper die fixing piece can facilitate the installation of an upper die of the die, and the lower die fixing piece can facilitate the installation of a lower die of the die.

In some embodiments, the vulcanizer body further comprises a guide rod, one end of the guide rod is connected to the upper mold fixing member, and the lower mold fixing member is fitted over the other end of the guide rod. The guide rod can guide the motion of lower mould mounting.

Drawings

Fig. 1 is a front view of a schematic structural diagram of a movable vulcanizer of the present invention.

Fig. 2 is a left side view of the vulcanizer main body of the movable vulcanizer of the present invention.

Fig. 3 is a front view of the screw nut mechanism of the movable vulcanizer of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, 2 and 3, the utility model discloses a movable vulcanizer, including vulcanizer main part 1, guiding mechanism 2, feed screw nut mechanism 3, aversion cylinder 4 and support 5.

The feed screw-nut mechanism 3 includes a feed screw shaft 31, a nut 32, a first shaft seat 33, and a second shaft seat 34. The first shaft seat 33 is fixedly installed on the support 5 through a bolt, the second shaft seat 34 is also fixedly installed on the support 5 through a bolt, and the first shaft seat 33 and the second shaft seat 34 are both sleeved on the screw shaft 31, so that the screw shaft 31 can rotate on the support 5. In addition, the bracket 5 is further provided with an extension end 51, and one end of the screw shaft 31 passes through the extension end 51.

The screw shaft 31 is provided with an external thread, the nut 32 is internally provided with an internal thread, the external thread is matched with the internal thread, the nut 32 is sleeved on the screw shaft 31 through thread matching, and the nut 32 is fixedly connected with the cylinder body of the displacement cylinder 4 through a cylinder seat, so that the displacement cylinder 4 can move along with the movement of the nut 32.

The vulcanizer body 1 includes a working cylinder 11, an upper mold fixing member 12, a lower mold fixing member 13, and a frame 14. The cylinder body of the working cylinder 11 is fixedly arranged on the frame 14 through a bolt, the cylinder shaft of the working cylinder 11 is connected with the lower die fixing piece 13, the periphery of the cylinder shaft of the working cylinder 11 is also sleeved with a guide sleeve, the guide sleeve is fixedly connected with the frame 14 to ensure the moving accuracy of the cylinder shaft of the working cylinder 11, and the upper die fixing piece 12 is fixedly arranged on the frame 14. In addition, a displacement cylinder shaft 41 is further arranged on the displacement cylinder 4, and the displacement cylinder shaft 41 and the upper die fixing piece 12 are fixedly connected through a connecting plate.

The vulcanizer body 1 further includes a plurality of guide rods 15, each guide rod 15 has a plurality of ends, one end of each guide rod 15 is fixedly connected to the upper die fixing member 12 by a bolt, and the lower die fixing member 13 is sleeved on the other end of the guide rod 15, so that the lower die fixing member 13 can be connected along the guide rod 15.

The guide mechanism 2 includes a guide shaft 21, a first connecting plate 22, a second connecting plate 23 and a shaft sleeve 24, the first connecting plate 22 is fixedly mounted on the vulcanizer body 1 through a bolt, the second connecting plate 23 is fixedly mounted on the cylinder body of the shift cylinder 4 through a bolt, the shaft sleeve 24 is fixedly mounted on the second connecting plate 23 through a bolt, one end of the guide shaft 21 is fixedly mounted on the first connecting plate 22 through a bolt, the other end of the guide shaft 21 passes through the shaft sleeve 24, and the shaft sleeve 24 is sleeved on the guide shaft 21, so that the second connecting plate 23 can limit the movement of the guide shaft 21, the guide shaft 21 can play a guiding role, the guide shaft 21 is parallel to the shift cylinder shaft 41 of the shift cylinder 4, and the guide shaft 21 and the lead screw shaft 31 are vertically arranged.

The utility model discloses when using, go up mould mounting 12 and can be used for the cope match-plate pattern of erecting the mould, lower mould mounting 13 can be used for the lower bolster of erecting the mould, and can be through starting working cylinder 11, make working cylinder 11 drive lower mould mounting 13 towards being close to the removal of last mould mounting 12 direction, realize the compound die of mould, and after processing, can restart working cylinder 11, make working cylinder 11 drive lower mould mounting 13 towards keeping away from the removal of last mould mounting 12 direction, with the die sinking of realization mould. During the mold opening or closing process, the lower mold fixing member 13 needs to move along the guide rods 15, i.e., the guide rods 15 can guide the movement of the lower mold fixing member 13.

The utility model discloses when needs remove, then lead screw axle 31 can be connected with outside power unit, if the motor for outside power unit can drive lead screw axle 31 and rotate. When the moving process is performed, the shifting cylinder 4 can be started firstly, so that the shifting cylinder 4 drives the vulcanizer body 1 to ascend, the vulcanizer body 1 is separated from the ground, then the external power mechanism is started, the screw shaft 31 rotates, the nut 32 moves on the screw shaft 31, namely, the shifting cylinder 4 connected with the nut 32 follows up, the vulcanizer body 1 connected with the shifting cylinder 4 also follows up, and when the vulcanizer body 1 moves in place, the shifting cylinder 4 is started again, so that the shifting cylinder 4 drives the vulcanizer body 1 to descend, and the vulcanizer body 1 is placed on the ground again.

On the other hand, when the shift cylinder 4 moves up or down the vulcanizer body 1, the guide shaft 21 of the guide mechanism 2 can guide the movement of the vulcanizer body 1, thereby ensuring the movement reliability of the vulcanizer body 1.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims (7)

1. The movable vulcanizing machine is characterized by comprising a vulcanizing machine main body (1), a guide mechanism (2), a feed screw nut mechanism (3), a shifting cylinder (4) and a support (5), wherein the feed screw nut mechanism (3) is installed on the support (5), the vulcanizing machine main body (1) is connected with the shifting cylinder (4), the shifting cylinder (4) is connected with the feed screw nut mechanism (3), and the guide mechanism (2) is installed on the vulcanizing machine main body (1) and is connected with the shifting cylinder (4).

2. The mobile vulcanizer of claim 1, wherein said feed screw and nut mechanism (3) comprises a screw shaft (31), a nut (32), a first shaft seat (33) and a second shaft seat (34), said first shaft seat (33) and said second shaft seat (34) are both mounted on the support (5), said first shaft seat (33) and said second shaft seat (34) are both sleeved on the screw shaft (31), said nut (32) is sleeved on the screw shaft (31) by means of a screw fit, and said displacement cylinder (4) is connected with the nut (32).

3. Mobile vulcanizer according to claim 2, wherein said support (5) is provided with an elongated end (51), said screw shaft (31) passing through the elongated end (51).

4. The mobile vulcanizer of claim 1, wherein said guide mechanism (2) comprises a guide shaft (21), a first link plate (22), a second link plate (23) and a bushing (24), said first link plate (22) is mounted on the vulcanizer body (1), said second link plate (23) is mounted on the shift cylinder (4), said bushing (24) is mounted on the second link plate (23), one end of said guide shaft (21) is fixedly mounted on the first link plate (22), and the other end passes through the bushing (24).

5. Mobile vulcanizer according to claim 4, wherein said shifting cylinder (4) is provided with a shifting cylinder shaft (41), said shifting cylinder shaft (41) being arranged parallel to said guide shaft (21), said shifting cylinder shaft (41) being connected to said vulcanizer body (1).

6. The movable vulcanizer of claim 1, wherein said vulcanizer body (1) comprises a working cylinder (11), an upper mold fixing member (12), a lower mold fixing member (13) and a frame (14), said working cylinder (11) is mounted on the frame (14), said working cylinder (11) and lower mold fixing member (13) are connected, said upper mold fixing member (12) and said shift cylinder (4) are connected, said upper mold fixing member (12) is mounted on the frame (14).

7. The movable vulcanizer of claim 6, wherein said vulcanizer body (1) further comprises a guide rod (15), one end of said guide rod (15) is connected to the upper mold fixing member (12), and said lower mold fixing member (13) is fitted over the other end of the guide rod (15).

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