CN110654044A

CN110654044A - Tire vulcanizer

Info

Publication number: CN110654044A
Application number: CN201911013021.6A
Authority: CN
Inventors: 杨舟; 殷晓; 杨者荣
Original assignee: Zhejiang Rongsheng Machinery Co Ltd
Current assignee: Zhejiang Rongsheng Machinery Co Ltd
Priority date: 2019-10-23
Filing date: 2019-10-23
Publication date: 2020-01-07

Abstract

The invention discloses a tire vulcanizer, which comprises a rack, a horizontal moving device, a vertical moving device and a segmented mold oil cylinder for combining or separating an upper mold and a lower mold, wherein the segmented mold oil cylinder is connected to the vertical moving device; the frame is of a frame structure, two plane guide rails are arranged above the frame, the horizontal moving device is connected to the plane guide rails, and the horizontal moving device can move relative to the plane guide rails; the vertical moving device is connected with the horizontal moving device and can move in the normal direction of the horizontal moving device; the lower surface of the vertical moving device is connected with a mold clamping device, and the upper surface of the underframe of the rack is connected with a lower mold locking device. Therefore, the invention realizes the automation of the mold replacement, has high automation degree, does not need manual participation and greatly improves the working efficiency of the tire vulcanizer.

Description

Tire vulcanizer

Technical Field

The invention relates to the technical field of tire vulcanizing equipment, in particular to a tire vulcanizing machine.

Background

In the prior art, the mold on the tire vulcanizer needs to be replaced manually, thereby occupying a large amount of time and manpower and reducing the replacement efficiency.

In summary, how to improve the mold replacement efficiency of the tire vulcanizer is a problem to be solved by those skilled in the art.

Disclosure of Invention

In view of the above, the present invention is to provide a tire vulcanizer, which can achieve automation of mold replacement and greatly improve the degree of automation and production efficiency.

In order to achieve the above purpose, the invention provides the following technical scheme:

a tire vulcanizer comprises a frame, a horizontal moving device, a vertical moving device and a segmented mold oil cylinder for combining or separating an upper mold and a lower mold, wherein the segmented mold oil cylinder is connected to the vertical moving device;

the rack is of a frame structure, two plane guide rails are arranged above the rack, the horizontal moving device is connected to the plane guide rails, and the horizontal moving device can move relative to the plane guide rails;

the vertical moving device is connected with the horizontal moving device and can move in the normal direction of the horizontal moving device;

the lower surface of the vertical moving device is connected with a mold clamping device, and the upper surface of the underframe of the rack is connected with a lower mold locking device.

Preferably, a rack is arranged on the planar guide rail, the horizontal moving device comprises a horizontal moving beam, a gear meshed with the rack and a horizontal servo motor driving the gear, and the gear is connected to the bottom surface of the horizontal moving beam.

Preferably, the vertical moving device comprises a vertical moving beam parallel to the horizontal moving beam and a mold opening and closing oil cylinder arranged between the horizontal moving beam and the vertical moving beam, so that the distance between the vertical moving beam and the horizontal moving beam is shortened or increased by adjusting the extension length of the mold opening and closing oil cylinder, and the upper mold and the lower mold are combined or separated.

Preferably, a guide force-applying device is arranged between the vertical moving beam and the bottom frame of the rack, the guide force-applying device comprises a guide shaft, a displacement sensor arranged on the vertical moving beam, a mold adjusting locking device, a locking cylinder and a lower locking force-applying cylinder, and the mold adjusting locking device is connected with the locking cylinder;

the locking cylinder and the lower locking boosting cylinder are both connected with the displacement sensor, so that after the displacement sensor detects that the guide shaft is located at the mold locking height, the locking cylinder controls the mold adjusting and locking device to lock the guide shaft, and the lower locking boosting cylinder extends out.

Preferably, one end of the guide shaft, which is close to the chassis of the rack, is provided with a plurality of clamping grooves, so that the clamping grooves are clamped with the mold adjusting and locking device.

Preferably, including the dress child manipulator that is used for snatching the child base and the child manipulator that unloads that is used for snatching the tire, dress child manipulator with unload the child manipulator all install in on the vertical shifting beam, and both connect respectively in vertical shifting beam is at the ascending both ends of horizontal shifting beam direction of motion.

Preferably, the tire loading manipulator and the tire unloading manipulator comprise a disk grabbing device for grabbing tires or tire blanks, a manipulator support connected with the vertical moving beam, a lifting device and a vertical rail, the lifting device is mounted on the manipulator support, one end of the lifting device is fixedly connected with the vertical rail, and the other end of the lifting device is in sliding connection with the vertical rail;

the other end of the vertical track is connected with the disk grabbing device.

Preferably, the lifting device is a screw elevator.

Preferably, the lower die locking device comprises a locking block used for being connected with the lower die in a clamped mode and a lower die locking cylinder for controlling the locking block to move, and the locking block is connected with a piston rod of the lower die locking cylinder.

The invention provides a tire vulcanizer, which comprises a rack, a horizontal moving device, a vertical moving device and a segmented mold cylinder for combining or separating an upper mold and a lower mold, wherein the segmented mold cylinder is connected to the vertical moving device; the frame is of a frame structure, two plane guide rails are arranged above the frame, the horizontal moving device is connected to the plane guide rails, and the horizontal moving device can move relative to the plane guide rails; the vertical moving device is connected with the horizontal moving device and can move in the normal direction of the horizontal moving device; the lower surface of the vertical moving device is connected with a mold clamping device, and the upper surface of the underframe of the rack is connected with a lower mold locking device.

When the die is dismounted, the lower die locking device is controlled to be opened, the segmented die oil cylinder is controlled to retract, the upper die and the lower die are kept in a die assembly state, then the vertical moving device ascends, the horizontal moving device moves from the upper part of a die assembly position to the upper part of a storage position of the replaced die, the vertical moving position descends, and the die clamping device is opened, so that the die is separated from the equipment.

When the mold is installed, the horizontal moving device moves from the upper part of the mold closing position to the upper part of the storage position of the mold to be replaced, the vertical moving device descends, and the mold clamping device clamps the mold; then the vertical moving device rises, the horizontal moving device moves to the position above the die assembly position from the position above the storage position of the die to be replaced, the vertical device descends to the locking position, the lower die locking device locks the lower die, the segmented die oil cylinder extends out, so that the upper die is separated from the lower die, and the vertical moving device drives the upper die to rise.

Therefore, the invention realizes the automation of the mold replacement, has high automation degree, does not need manual participation and greatly improves the working efficiency of the tire vulcanizer.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is a schematic structural view of an embodiment of a tire press provided in accordance with the present invention;

FIG. 2 is a schematic front view of the tire press provided in FIG. 1;

FIG. 3 is a schematic structural view of a robot of the tire press provided in FIG. 1;

fig. 4 is a partially enlarged view of the area a in fig. 1.

In FIGS. 1-4:

the device comprises a frame 1, a planar guide rail 11, a horizontal moving beam 2, a vertical moving beam 3, a mold opening and closing oil cylinder 4, a mold clamping device 5, a locking block 6, a lower mold locking cylinder 7, a guide shaft 8, a manipulator 9, a manipulator support 91, a thread elevator 92, a vertical rail 93 and a tray grabbing device 94.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The core of the invention is to provide a tire vulcanizer, which can realize the automatic replacement and heating of a mold, and greatly improve the automation degree and the production efficiency.

Referring to fig. 1-4, fig. 1 is a schematic structural diagram of an embodiment of a tire vulcanizer provided in the present invention; FIG. 2 is a schematic front view of the tire press provided in FIG. 1; FIG. 3 is a schematic structural view of a robot of the tire press provided in FIG. 1; fig. 4 is a partially enlarged view of the area a in fig. 1.

The invention provides a tire vulcanizer, comprising a frame 1, a horizontal moving device, a vertical moving device and a segmented mold cylinder for combining or separating an upper mold and a lower mold, wherein the segmented mold cylinder is connected to the vertical moving device; the frame 1 is a frame structure, two plane guide rails 11 are arranged above the frame 1, the horizontal moving device is connected to the plane guide rails 11, and the horizontal moving device can move relative to the plane guide rails 11; the vertical moving device is connected with the horizontal moving device and can move in the normal direction of the horizontal moving device; the lower surface of the vertical moving device is connected with a mold clamping device 5, and the upper surface of the underframe of the rack 1 is connected with a lower mold locking device.

When the die is dismounted, the lower die locking device is controlled to be opened, the segmented die oil cylinder is controlled to retract, the upper die and the lower die are kept in a die assembly state, then the vertical moving device ascends, the horizontal moving device moves from the upper part of a die assembly position to the upper part of a storage position of the replaced die, the vertical moving position descends, the die clamping device 5 is opened, and the die is separated from the equipment.

When the mold is installed, the horizontal moving device moves from the upper part of the mold closing position to the upper part of the storage position of the mold to be replaced, the vertical moving device descends, and the mold clamping device 5 clamps the mold; then the vertical moving device rises, the horizontal moving device moves to the position above the die assembly position from the position above the storage position of the die to be replaced, the vertical device descends to the locking position, the lower die locking device locks the lower die, the segmented die oil cylinder extends out, so that the upper die is separated from the lower die, and the vertical moving device drives the upper die to rise.

Therefore, the automation of mould change has been realized to this embodiment, and degree of automation is high, need not artifical the participation, has greatly improved tire vulcanizer's work efficiency.

Preferably, the lower mold locking device may include a locking block 6 for being clamped with the lower mold and a lower mold locking cylinder 7 for controlling the movement of the locking block 6, and the locking block 6 is connected with a piston rod of the lower mold locking cylinder 7.

Preferably, referring to fig. 4, the locking block 6 may be configured as an i-shaped locking block to be engaged with a groove on the mold.

On the basis of the above embodiment, the plane guide rail 11 may be provided with a rack, and the horizontal moving device includes the horizontal moving beam 2, a gear engaged with the rack, and a horizontal servo motor driving the gear, and the gear is connected to the bottom surface of the horizontal moving beam 2. Referring to fig. 1, since the horizontal servo motor drives the gears at the two sides at the same time, the gears at the two sides move synchronously, so that the moving direction of the horizontal moving beam 2 is always parallel to the extending direction of the planar guide rail 11, collision between the horizontal moving beam and the planar guide rail is avoided, the operating noise is reduced, and the service life of the equipment is prolonged.

Preferably, a groove may be formed in one of the bottom surfaces of the planar guide rail 11 and the horizontal transfer beam 2, and a protrusion engaged with the groove is formed in the other bottom surface of the planar guide rail 11 and the horizontal transfer beam 2, so that a contact area between the planar guide rail 11 and the horizontal transfer beam 2 is increased, and movement stability of the horizontal transfer beam 2 is enhanced.

Of course, the rack-and-pinion connection between the planar guide rail 11 and the horizontal transfer beam 2 may be replaced with a rail slider connection or the like.

On the basis of the above embodiment, the vertical moving device may include the vertical moving beam 3 parallel to the horizontal moving beam 2 and the mold opening and closing cylinder 4 disposed between the horizontal moving beam 2 and the vertical moving beam 3, so as to reduce or increase the distance between the vertical moving beam 3 and the horizontal moving beam 2 by adjusting the extension length of the mold opening and closing cylinder 4, thereby realizing the combination or separation of the upper mold and the lower mold.

Of course, the mold opening and closing cylinder 4 may be replaced by a compression cylinder or the like having a similar function.

On the basis of the above embodiment, a guiding force-applying device may be provided between the vertical moving beam 3 and the bottom frame of the frame 1, the guiding force-applying device includes a guide shaft 8, a displacement sensor provided on the vertical moving beam 3, a mold adjusting locking device, a locking cylinder and a lower locking force-applying cylinder, the mold adjusting locking device is connected with the locking cylinder; the locking cylinder and the lower locking boosting cylinder are both connected with the displacement sensor, so that after the displacement sensor detects that the guide shaft 8 is located at the mold locking height, the locking cylinder controls the mold adjusting locking device to lock the guide shaft 8, and the lower locking boosting cylinder extends out.

Preferably, a section of the guide shaft 8 close to the chassis of the rack 1 may be provided with a plurality of clamping grooves, so that the clamping grooves are clamped with the mold adjusting and locking device.

The section of the clamping groove can be rectangular, triangular or any other geometric shape as long as the clamping groove can be clamped with the mould adjusting locking device.

It should be noted that, because the slot needs to be clamped with the mold adjusting locking device to determine the locking device, the slot cannot be a spiral structure, and can only be arranged into a plurality of slots which are parallel to each other and have a depth direction perpendicular to the surface of the guide shaft 8.

The specific number of turns of the clamping groove is determined according to the requirements in actual production. Preferably, when the number of the locking grooves is plural, the plural locking grooves may be uniformly distributed in the length direction of the guide shaft 8.

On the basis of above-mentioned embodiment, can be including the dress child manipulator that is used for snatching the child blank and the child manipulator that unloads that is used for snatching the tire, dress child manipulator with unload the child manipulator and all install on vertical walking beam 3, and both connect respectively in vertical walking beam 3 at the 2 ascending both ends of moving direction of horizontal migration roof beam, consequently realized loading and unloading semi-manufactured goods and off-the-shelf automation, further improved degree of automation and production efficiency.

Preferably, in order to improve the interchangeability between the parts, the tire mounting robot and the tire removing robot may be configured in the same manner and collectively referred to as the robot 9.

Preferably, referring to fig. 3, each of the tire loading manipulator and the tire unloading manipulator includes a disk grabbing device 94 for grabbing a tire or a tire blank, a manipulator support 91 connected to the vertical moving beam 3, a lifting device and a vertical rail 93, the lifting device is mounted on the manipulator support 91, one end of the lifting device is fixedly connected to the vertical rail 93, and the other end of the lifting device is slidably connected to the vertical rail 93; the other end of the vertical rail 93 is connected to a catch disc device 94.

When the lifting device is used, the length of the lifting device is controlled to be increased, and the vertical track 93 drives the tray grabbing device 94 to ascend due to the fact that the manipulator support 91 is fixedly connected with the vertical moving beam 3 and the height of the manipulator support is unchanged.

On the contrary, the length of the lifting device is controlled to be reduced, and the vertical track 93 drives the disk grabbing device 94 to descend because the manipulator support 91 is fixedly connected with the vertical moving beam 3 and the height of the manipulator support is unchanged.

Preferably, referring to fig. 3, the lifting device may be provided with a screw elevator 92, which has a relatively simple structure and high structural stability.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The tire vulcanizer provided by the present invention is described in detail above. The principles and embodiments of the present invention are explained herein using specific examples, which are presented only to assist in understanding the method and its core concepts. It should be noted that, for those skilled in the art, it is possible to make various improvements and modifications to the present invention without departing from the principle of the present invention, and those improvements and modifications also fall within the scope of the claims of the present invention.

Claims

1. A tire vulcanizer is characterized by comprising a rack (1), a horizontal moving device, a vertical moving device and a segmented mold oil cylinder for combining or separating an upper mold and a lower mold, wherein the segmented mold oil cylinder is connected to the vertical moving device;

the rack (1) is of a frame structure, two plane guide rails (11) are arranged above the rack (1), the horizontal moving device is connected to the plane guide rails (11), and the horizontal moving device can move relative to the plane guide rails (11);

the lower surface of the vertical moving device is connected with a mold clamping device (5), and the upper surface of the underframe of the rack (1) is connected with a lower mold locking device.

2. The tyre vulcanizer according to claim 1, wherein said flat guide (11) is provided with a rack, and said horizontal moving means comprises a horizontal moving beam (2), a gear engaged with said rack, and a horizontal servo motor for driving said gear, said gear being connected to the bottom surface of said horizontal moving beam (2).

3. The tire vulcanizer according to claim 2, wherein said vertical moving means comprises a vertical moving beam (3) parallel to said horizontal moving beam (2) and a mold opening and closing cylinder (4) provided between said horizontal moving beam (2) and said vertical moving beam (3) so as to achieve the combination or separation of said upper mold and said lower mold by adjusting the extension length of said mold opening and closing cylinder (4) to reduce or increase the distance between said vertical moving beam (3) and said horizontal moving beam (2).

4. The tyre vulcanizer according to claim 3, characterized in that a guiding force-applying device is arranged between the vertical moving beam (3) and the chassis of the frame (1), and the guiding force-applying device comprises a guiding shaft (8), a displacement sensor arranged on the vertical moving beam (3), a mould adjusting locking device, a locking cylinder and a lower locking force-applying cylinder, and the mould adjusting locking device is connected with the locking cylinder;

the locking cylinder and the lower locking stressing cylinder are both connected with the displacement sensor, so that after the displacement sensor detects that the guide shaft (8) is located at the mold locking height, the locking cylinder controls the mold adjusting and locking device to lock the guide shaft (8), and the lower locking stressing cylinder extends out.

5. The tyre vulcanizer according to claim 4, wherein the guide shaft (8) has a plurality of slots at its end close to the chassis of the frame (1), so that the slots are engaged with the mold adjusting and locking device.

6. The tyre vulcanizer according to any one of claims 3-5, comprising a tyre loading manipulator for gripping green tyres and a tyre unloading manipulator for gripping tyres, wherein the tyre loading manipulator and the tyre unloading manipulator are both mounted on the vertical moving beam (3) and are respectively connected to two ends of the vertical moving beam (3) in the moving direction of the horizontal moving beam (2).

7. The tyre vulcanizer of claim 6, wherein said tyre loading manipulator and said tyre unloading manipulator each comprise a gripping disk device (94) for gripping a tyre or a green tyre, a manipulator support (91) connected to said vertical moving beam (3), a lifting device and a vertical rail (93), said lifting device being mounted on said manipulator support (91), one end of said lifting device being fixedly connected to said vertical rail (93), the other end of said lifting device being slidably connected to said vertical rail (93);

the other end of the vertical rail (93) is connected with the disc grabbing device (94).

8. The tire vulcanizer of claim 7, wherein said lifting means is a screw elevator (92).

9. The tire vulcanizer of claim 8, wherein said lower mold locking device comprises a locking block (6) for engaging with a lower mold and a lower mold locking cylinder (7) for controlling the movement of said locking block (6), said locking block (6) being connected to a piston rod of said lower mold locking cylinder (7).