CN113524081A - Large tire clamping method - Google Patents

Abstract

The invention discloses a large tire clamping method, which specifically comprises the following steps: the device comprises a fixed base, a limiting cylinder and a sealing ring, wherein the central position of the top of the fixed base is fixedly connected with the limiting cylinder, the side surface of the limiting cylinder is communicated with a feed inlet, the feed inlet is in a horn shape, and one side of the inner wall of the feed inlet extends to the ground; one end of the propelling cylinder is communicated with the limiting cylinder, the inner wall of the propelling cylinder is connected with a propelling piston in a sliding manner, and one end of the propelling piston, which is far away from the limiting cylinder, extends to the outside of the propelling cylinder and is fixedly connected with a hydraulic push rod; the invention relates to the technical field of engineering machinery, in particular to a storage device, wherein one end of the storage device is communicated with one end, far away from a propelling cylinder, of a limiting cylinder. According to the large tire clamping method, the suspension device is not needed to be used for suspension, the tire is not needed to be fixed on the suspension device, the operation is simple, the occupied space of the device can be reduced, the normal work of the device is not affected during feeding, and the working efficiency of the device is conveniently improved.

Description

Large tire clamping method

Technical Field

The invention relates to the technical field of engineering machinery, in particular to a large tire clamping method.

Background

Construction machines are an important component of the equipment industry. In general terms, mechanical equipment necessary for comprehensive mechanized construction engineering required by earth and stone construction engineering, pavement construction and maintenance, mobile hoisting, loading and unloading operation and various construction engineering is called engineering machinery, and is mainly used in the fields of national defense construction engineering, transportation construction, energy industry construction and production, raw material industry construction and production of mines and the like, agriculture and forestry water conservancy construction, industrial and civil construction, urban construction, environmental protection and the like. At present, when a large tire is clamped in vehicle engineering, a large suspension device and a clamping device are generally required to be used for installing and fixing the large tire, the device occupies a large space, the operation process is complex, and the efficiency is low.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a large tire clamping method, which solves the problems that a large suspension and a clamping device are generally required to be used for installing and fixing a large tire when the large tire is clamped in the current vehicle engineering, the device occupies a large space, the operation process is complex, and the efficiency is low.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: a large tire clamping device specifically comprises:

the device comprises a fixed base, a limiting cylinder and a sealing ring, wherein the central position of the top of the fixed base is fixedly connected with the limiting cylinder, the side surface of the limiting cylinder is communicated with a feed inlet, the feed inlet is in a horn shape, and one side of the inner wall of the feed inlet extends to the ground;

one end of the propelling cylinder is communicated with the limiting cylinder, the inner wall of the propelling cylinder is connected with a propelling piston in a sliding manner, and one end of the propelling piston, which is far away from the limiting cylinder, extends to the outside of the propelling cylinder and is fixedly connected with a hydraulic push rod;

one end of the storage device is communicated with one end of the limiting cylinder, which is far away from the propelling cylinder;

the storage device includes:

the top and the bottom of the inner wall of the storage cylinder are provided with electric conveying belts, and one end of the storage cylinder is fixedly connected with a fixing ring;

the fixing device is sleeved on the fixing ring and is rotationally connected with the fixing ring, and a groove matched with the fixing device is formed in one end, close to the fixing ring, of the storage cylinder.

Preferably, the hydraulic push rod penetrates through the propelling barrel and is fixedly connected with the propelling barrel, and one end, far away from the fixing ring, of the storage barrel is communicated with the propelling barrel.

Preferably, the fixing devices are provided with four groups and are uniformly distributed around the fixing ring, and the positions of the fixing devices at the top and the bottom of the fixing ring are opposite to the electric conveying belt.

When in use, a large tire is rolled into the limiting cylinder through the horn-shaped feed port, then the hydraulic push rod drives the pushing piston to push the tire into the storage cylinder, the tire can be moved to the position of the fixing device through the electric conveying belt in the storage cylinder, then the tire is fixed through the fixing device, the feed port is arranged, the feed port is horn-shaped, the tire can be rolled into the limiting cylinder through one side of the horn-shaped feed port close to the ground without using a suspension device for suspension, the tire is not required to be fixed on the suspension device, the operation is simple, the occupied space of the device can be reduced, the storage device is arranged, the tire can be stored in the storage cylinder in the storage device, when in need of processing, the tire can be fixed through the position of the electric conveying belt to the fixing device, and the continuous processing of the tire is convenient, and the hydraulic push rod and the pushing piston are arranged, when the electric conveying belt drives the tire in the storage cylinder to move, the tire can be continuously conveyed into the storage cylinder through the hydraulic push rod and the pushing piston, the normal work of the device is not influenced during feeding, and the working efficiency of the device is conveniently improved.

Preferably, fixing device includes the rotation circle, rotation circle side fixedly connected with splint, splint are provided with four groups and evenly distributed in the rotation circle side, the spout has all been seted up to splint both sides, spout inner wall sliding connection has the chuck, be provided with the arc spring between chuck one side and the spout inner wall, the flexible groove has been seted up to the part that is located between two splint to the rotation circle side, there is the kicking block flexible inslot wall bottom through spring coupling.

Preferably, the rotating ring is sleeved on the fixed ring and is rotationally connected with the fixed ring through a bearing, and the four groups of telescopic grooves are uniformly distributed on the rotating ring.

The tire fixing device is provided with a fixing device, when the tire is pushed to one side of the fixing device by the electric conveyer belt, the tire is extruded to the clamping plate under the driving of the electric conveyer belt, the clamping plate drives the rotating ring to rotate around the fixing ring under the thrust action of the tire, the tire continuously extrudes the clamping plate to drive the rotating ring to rotate continuously, meanwhile, the tire slides relative to the surface of the clamping plate and drives the chuck to move, when the tire moves to a position right below the rotating ring, the two clamping plates clamp the tire in the middle and abut against the side surface of the tire through the chuck to avoid the tire from moving, at the moment, the electric conveyer belt is closed, the tire at the rear abuts against the clamping plate at one side of the tire at the front, the tire can be fixed in the fixing device, the tire can be automatically pushed into the fixing device by pushing the tire to move forwards through the electric conveyer belt, and the tire is fixed through the clamping plates, the fixing operation is simple, the use is convenient, after the processing is completed, the electric conveyor belt is started again, the tire on the electric conveyor belt is driven to continuously move forward, the tire on the electric conveyor belt can be continuously extruded to clamp plates through the rear portion, the rotating ring is driven to continuously rotate, the clamp plates rotate around the rotating ring to release the tire clamped inside, then the new tire is clamped again, automatic continuous clamping can be achieved, manual clamping is not needed, manpower is saved, the process of taking down the tire inside the fixing device and the process of installing the tire are carried out simultaneously, the processing time can be saved, and the processing efficiency is improved.

According to the large tire clamping device, a large tire clamping method is provided, and the large tire clamping method comprises the following steps:

s1, rolling the large tire into the limiting cylinder through the horn-shaped feed port, driving the pushing piston to push the tire into the storage cylinder through the hydraulic push rod, and moving the tire to the position of the fixing device through the electric conveying belt in the storage cylinder;

s2, when the electric conveyer belt pushes the tire to one side of the fixing device, the tire is extruded to the clamping plate under the driving of the electric conveyer belt, the clamping plate drives the rotating ring to rotate around the fixing ring under the thrust action of the tire, the tire continuously extrudes the clamping plate to drive the rotating ring to continuously rotate, and meanwhile, the tire slides relative to the surface of the clamping plate and drives the chuck to move;

s3, when the tire moves to a position right below the rotating ring, the tire is clamped in the middle by the two clamping plates and is propped against the side surface of the tire through the clamping head to avoid the movement of the tire, at the moment, the electric conveying belt is closed, the tire at the rear part is propped against the clamping plate at one side of the tire at the front part, the tire can be fixed in the fixing device, the tire can be automatically pushed into the fixing device by pushing the tire to advance through the electric conveying belt, and the tire is fixed through the clamping plates;

and S4, when the processing is finished, the electric conveyer belt is started again to drive the tire on the conveyer belt to move forwards continuously, namely the clamping plate can be extruded continuously through the rear tire to drive the rotating ring to rotate continuously, the clamping plate rotates around the rotating ring to release the tire clamped inside, and then a new tire is clamped again.

(III) advantageous effects

The invention provides a large tire clamping method. The method has the following beneficial effects:

(1) the large tire clamping method is provided with the storage device, the large tire is rolled into the limiting cylinder through the horn-shaped feed port, then the pushing piston is driven by the hydraulic push rod to push the tire into the storage cylinder, the tire can be moved to the position of the fixing device through the electric conveying belt in the storage cylinder, then the tire is fixed through the fixing device, the feed port is arranged in the horn shape, the tire can be rolled into the limiting cylinder through one side of the horn-shaped feed port close to the ground, the suspension device is not required to be used, the tire is not required to be fixed on the suspension device, the operation is simple, and the occupied space of the device can be reduced.

(2) The large tire clamping method is provided with the storage device, tires can be stored in the storage device through the storage cylinder in the storage device, when the tires need to be processed, the tires can be conveyed to the fixing device through the electric conveying belt to be fixed, continuous processing of the tires is convenient, the hydraulic push rod and the pushing piston are arranged, when the electric conveying belt drives the tires in the storage cylinder to move, the tires can be continuously conveyed to the interior of the storage cylinder through the hydraulic push rod and the pushing piston, normal work of the device is not affected during feeding, and the working efficiency of the device is conveniently improved.

(3) This large-scale tire centre gripping method, be provided with fixing device, it can push fixing device inside automatically to promote the tire to advance through electronic transport area, and fix the tire through splint, fixed easy operation, high durability and convenient use, after processing is accomplished, electronic transport area restarts, drive the tire on it and continue to move forward, can continue to extrude splint through the tire at rear, it continues to rotate to drive the rotating ring, splint revolve rotating the rotating ring and rotate and can release the tire of inside centre gripping, then the new tire of centre gripping again, can realize automatic continuous centre gripping, need not artifical manual centre gripping, save manpower, and the process of taking off the tire inside fixing device goes on with the process of installing the tire simultaneously, can save process time, promote machining efficiency.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the internal structure of the present invention;

FIG. 3 is a schematic structural diagram of a memory device according to the present invention;

FIG. 4 is a schematic view of a fixing device according to the present invention;

FIG. 5 is a schematic view of the internal structure of the fixing device of the present invention.

In the figure: 1. the device comprises a fixed base, 2, a limiting cylinder, 3, a feeding hole, 4, a propelling cylinder, 5, a propelling piston, 6, a hydraulic push rod, 7, a storage device, 71, a storage cylinder, 72, an electric conveying belt, 73, a fixed ring, 74, a fixing device, 741, a rotating ring, 742, a clamping plate, 743, a sliding groove, 744, a clamping head, 745, a telescopic groove, 746, a top block, 75 and a groove.

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 first embodiment is as follows:

referring to fig. 1-5, the present invention provides a technical solution: a large tire clamping device specifically comprises:

the device comprises a fixed base 1, wherein a limiting cylinder 2 is arranged at the center of the top of the fixed base 1, a feed port 3 is communicated with the side surface of the limiting cylinder 2, the feed port 3 is in a horn shape, and one side of the inner wall of the feed port 3 extends to the ground;

one end of the propelling cylinder 4 is communicated with the limiting cylinder 2, the inner wall of the propelling cylinder 4 is connected with a propelling piston 5 in a sliding manner, and one end of the propelling piston 5, which is far away from the limiting cylinder 2, extends to the outside of the propelling cylinder 4 and is fixedly connected with a hydraulic push rod 6;

one end of the storage device 7 is communicated with one end of the limiting cylinder 2 far away from the propelling cylinder 4;

the storage device 7 includes:

the storage cylinder 71 is provided with electric conveyer belts 72 at the top and the bottom of the inner wall of the storage cylinder 71, and one end of the storage cylinder 71 is fixedly connected with a fixing ring 73;

the fixing device 74 is sleeved on the fixing ring 73 and is rotatably connected with the fixing ring 73, and a groove 75 matched with the fixing device 74 is formed in one end, close to the fixing ring 73, of the storage cylinder 71.

When the tire feeding device is used, a large tire is rolled into the limiting cylinder 2 through the horn-shaped feeding hole 3, then the pushing piston 5 is driven by the hydraulic push rod 6 to push the tire into the storage cylinder 71, the tire can be moved to the position of the fixing device 74 through the electric conveying belt 72 in the storage cylinder 71, then the tire is fixed through the fixing device 74, the feeding hole 3 is arranged, the feeding hole 3 is horn-shaped, the tire can be rolled into the limiting cylinder 2 through one side, close to the ground, of the horn-shaped feeding hole 3, the suspension device is not needed, the tire is not needed to be fixed on the suspension device, the operation is simple, the occupied space of the device can be reduced, the storage device 7 is arranged, the tire can be stored in the storage cylinder 71 in the storage device 7, and when the tire needs to be processed, the tire is conveyed to the position of the fixing device 74 through the electric conveying belt 72 for fixing, the tire is conveniently continuously processed, the hydraulic push rod 6 and the pushing piston 5 are arranged, when the electric conveying belt 72 drives the tire in the storage cylinder 71 to move, the tire can be continuously conveyed into the storage cylinder 71 through the hydraulic push rod 6 and the pushing piston 5, normal work of the device is not affected during feeding, and the working efficiency of the device is conveniently improved.

Fixing device 74 includes rotation circle 741, rotation circle 741 side fixedly connected with splint 742, splint 742 is provided with four groups and evenly distributed and is rotating circle 741 side, spout 743 has all been seted up to splint 742 both sides, spout 743 inner wall sliding connection has chuck 744, be provided with the arc spring between chuck 744 one side and the spout 743 inner wall, flexible groove 745 has been seted up to the part that rotates circle 741 side to be located between two splint 742, there is ejector pad 746 flexible groove 745 inner wall bottom through spring coupling, rotation circle 741 cover is established on retainer plate 73 and is rotated with retainer plate 73 through the bearing and be connected, flexible groove 745 is provided with four groups and evenly distributed on rotation circle 741.

A fixing device 74 is provided, when the electric conveyor belt 72 pushes the tire to one side of the fixing device 74, the tire is pushed to the clamp plate 742 by the electric conveyor belt 72, the clamp plate 742 drives the rotating ring 741 to rotate around the fixing ring 73 under the pushing force of the tire, the tire continuously pushes the clamp plate 742 to drive the rotating ring 741 to rotate continuously, meanwhile, the tire slides relative to the surface of the clamp plate 742 and drives the chuck 744 to move, when the tire moves to a position right below the rotating ring 741, the two clamp plates 742 clamp the tire in the middle and abut against the side of the tire through the chuck 744 to prevent the tire from moving, at this time, the electric conveyor belt 72 is closed, the rear tire abuts against the clamp plate 742 on one side of the front tire, the tire can be fixed inside the fixing device 74, the tire can be automatically pushed into the fixing device 74 by pushing the tire by the electric conveyor belt 72 forward, and the tire is fixed by the clamp plate 742, fixed easy operation, high durability and convenient use, after processing is accomplished, electronic conveyer belt 72 restarts again, drive the tire on it and continue to move forward, can continue to extrude splint 742 through the tire at rear, it continues to rotate to drive rotating ring 741, splint 742 revolves rotating ring 741 and rotates the tire release that can be with inside centre gripping, then the new tire of centre gripping again, can realize automatic continuous centre gripping, need not artifical manual centre gripping, use manpower sparingly, and the process of taking off the tire inside fixing device 74 goes on simultaneously with the process of installation tire, can save process time, and the machining efficiency is promoted.

Example two:

according to the large tire clamping device, a large tire clamping method is provided, which comprises the following steps:

s1, rolling the large tire into the limiting cylinder through the horn-shaped feed port, driving the pushing piston to push the tire into the storage cylinder through the hydraulic push rod, and moving the tire to the position of the fixing device through the electric conveying belt in the storage cylinder;

s2, when the electric conveyer belt pushes the tire to one side of the fixing device, the tire is extruded to the clamping plate under the driving of the electric conveyer belt, the clamping plate drives the rotating ring to rotate around the fixing ring under the thrust action of the tire, the tire continuously extrudes the clamping plate to drive the rotating ring to continuously rotate, and meanwhile, the tire slides relative to the surface of the clamping plate and drives the chuck to move;

s3, when the tire moves to a position right below the rotating ring, the tire is clamped in the middle by the two clamping plates and is propped against the side surface of the tire through the clamping head to avoid the movement of the tire, at the moment, the electric conveying belt is closed, the tire at the rear part is propped against the clamping plate at one side of the tire at the front part, the tire can be fixed in the fixing device, the tire can be automatically pushed into the fixing device by pushing the tire to advance through the electric conveying belt, and the tire is fixed through the clamping plates;

and S4, when the processing is finished, the electric conveyer belt is started again to drive the tire on the conveyer belt to move forwards continuously, namely the clamping plate can be extruded continuously through the rear tire to drive the rotating ring to rotate continuously, the clamping plate rotates around the rotating ring to release the tire clamped inside, and then a new tire is clamped again.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. The term "comprising", without further limitation, means that the element so defined is not excluded from the group consisting of additional identical elements in the process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A large tire clamping device specifically comprises:

the device comprises a fixed base (1), wherein a limiting cylinder (2) is fixedly connected to the center of the top of the fixed base (1), a feeding hole (3) is communicated with the side surface of the limiting cylinder (2), the feeding hole (3) is horn-shaped, and one side of the inner wall of the feeding hole (3) extends to the ground;

the device comprises a propelling cylinder (4), wherein one end of the propelling cylinder (4) is communicated with a limiting cylinder (2), the inner wall of the propelling cylinder (4) is connected with a propelling piston (5) in a sliding manner, and one end, far away from the limiting cylinder (2), of the propelling piston (5) extends to the outside of the propelling cylinder (4) and is fixedly connected with a hydraulic push rod (6);

one end of the storage device (7) is communicated with one end, far away from the propelling cylinder (4), of the limiting cylinder (2);

the method is characterized in that: the storage device (7) comprises:

the storage barrel (71), the top and the bottom of the inner wall of the storage barrel (71) are provided with electric conveying belts (72), and one end of the storage barrel (71) is fixedly connected with a fixing ring (73);

the fixing device (74) is sleeved on the fixing ring (73) and is rotationally connected with the fixing ring (73), and a groove (75) matched with the fixing device (74) is formed in one end, close to the fixing ring (73), of the storage cylinder (71).

2. A large tire gripping apparatus according to claim 1, wherein: the hydraulic push rod (6) penetrates through the propelling barrel (4) and is fixedly connected with the propelling barrel (4), and one end, far away from the fixing ring (73), of the storage barrel (71) is communicated with the propelling barrel (4).

3. A large tire gripping apparatus according to claim 1, wherein: the fixing devices (74) are provided with four groups and are uniformly distributed around the fixing ring (73), and the positions of the fixing devices (74) at the top and the bottom of the fixing ring (73) are opposite to the electric conveying belt (72).

4. A large tire gripping apparatus according to claim 1, wherein: fixing device (74) include and rotate circle (741), it has splint (742) to rotate circle (741) side fixedly connected with, splint (742) are provided with four groups and evenly distributed and rotate circle (741) side, spout (743) have all been seted up to splint (742) both sides, spout (743) inner wall sliding connection has chuck (744), be provided with the arc spring between chuck (744) one side and spout (743) inner wall, it has flexible groove (745) to rotate the part that circle (741) side lies in between two splint (742), there is ejector pad (746) flexible groove (745) through spring connection in flexible groove (745) inner wall bottom.

5. A large tire gripping apparatus according to claim 4, wherein: the rotating ring (741) is sleeved on the fixed ring (73) and is rotationally connected with the fixed ring (73) through a bearing, and four groups of telescopic grooves (745) are arranged and are uniformly distributed on the rotating ring (741).

6. According to the large tire clamping device, a large tire clamping method is provided, which is characterized in that: the method comprises the following steps:

s1, rolling the large tire into the limiting cylinder through the horn-shaped feed port, driving the pushing piston to push the tire into the storage cylinder through the hydraulic push rod, and moving the tire to the position of the fixing device through the electric conveying belt in the storage cylinder;

s2, when the electric conveyer belt pushes the tire to one side of the fixing device, the tire is extruded to the clamping plate under the driving of the electric conveyer belt, the clamping plate drives the rotating ring to rotate around the fixing ring under the thrust action of the tire, the tire continuously extrudes the clamping plate to drive the rotating ring to continuously rotate, and meanwhile, the tire slides relative to the surface of the clamping plate and drives the chuck to move;

s3, when the tire moves to a position right below the rotating ring, the tire is clamped in the middle by the two clamping plates and is propped against the side surface of the tire through the clamping head to avoid the movement of the tire, at the moment, the electric conveying belt is closed, the tire at the rear part is propped against the clamping plate at one side of the tire at the front part, the tire can be fixed in the fixing device, the tire can be automatically pushed into the fixing device by pushing the tire to advance through the electric conveying belt, and the tire is fixed through the clamping plates;

and S4, when the processing is finished, the electric conveyer belt is started again to drive the tire on the conveyer belt to move forwards continuously, namely the clamping plate can be extruded continuously through the rear tire to drive the rotating ring to rotate continuously, the clamping plate rotates around the rotating ring to release the tire clamped inside, and then a new tire is clamped again.

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