1. The utility model is part of the field of technology for lining plates and relates specifically to crusher lining plates.
Background technology.
2. The crusher is used to crush ore after the good rock has been crushed and the inner shell of the crusher begins to wear. Contact with the crusher for long periods causes rock to wear on the crusher innershell and it’s therefore necessary to put in the liner plate. But, there are still many issues.
3. You can obtain the China Authorization Notice No. Cn209076886u for a crusher liner plate, spring end is fixed with the inner plate, while the other side is secured with the outer plate. The outer edge of the plate is secured by a rubber, and the bottom plate is embedded with a number of magnet blocks. The top of the crusher is unlocked, and then the crusher liner plate is inserted into place. At this point the magnet will be able to absorb the crusher’s inner wall shell, and eventually the bottom of the crusher The crusher liner eliminates the problem of not being able to put in and lessen the impact on the crusher inner shell, however, the wear-resistant layer of the liner of the crusher is just the layer of rubber. crusherparts -resistant layer on the crusher liner is a layer of rubber. This means that the entire liner must be replaced when it wears out.
Technical recognition components
4. The current model of utility is designed to replace shredder parts crusher liner plates. It has poor wear resistance and is difficult to remove and reassemble once worn out. Furthermore, the spring to decrease the force of impulse is not stable as recommended in the background technology.
5. In order to achieve the above purpose, the utility model provides the following solution to technical problems: crusher liner, comprising a liner body, an outer plate, and an outer the inner plate is fixed on the right-hand part of the liner body, and the left end of the inner plate is secured to the outer plate through stabilizing device. The liner body has an unloading device. The right end of the device is fixed to the stabilizing device.
The ideal disassembly tool comprises a wear-resistant rubber layer, a cast stone layer, a high manganese steel layer as well as a connecting plate threaded slots with an external thread, a screw and a snap-in slot. The said high manganese steel layer will be glued to the left of the inner plate, and a cast stone layer is glued to the left side of the high manganese steel layer said wear-resistant rubber layer placed on the left side of the cast stone layer, said connecting plate is fixed to the right side of the inner plate and a threaded slot is located within the connecting plate. said threaded slot is connected to the threaded groove threaded using an external thread. The external thread is accessed via an screw, and the bottom end of the screw is fixed using a snap-in slot said slot that snaps in is opened in the receiving plate.
It is preferred that the thickness of the wear-resistant rubber layer is half the thickness of the caststone layer and the thickness of said castingstone layer is half the thickness of the high-manganese steel layer.
The preferred threaded groove is of a caliber size equal to the caliber of the snap-in slot, said snap-in slot has a caliber size equal to the caliber size of the screw.
9. The ideal stabilizing device comprises a telescopic rod, a first spring, an undertaking plate, fixed block, an articulated rod, a sliding block, a sliding slot and a second spring. The right end of the inner plate is fixed by an undertaking plate, while the left portion of the plate for undertaking is secured with one end of the telescopic rod. said other end of the rod is fixed to the outside wall of the outer plate. said outer wall of the telescopic rod wound by a first spring. The left-hand side of the outer plate
The outer wall of the outerplate is secured to fixed blocks. One end of articulated rod is fixed to a fixed block. The other end is hinged to a sliding rod. A sliding block is slidingly connected to a slot for sliding. The slot that slides is connected to a second spring.
10. It is recommended that one end of said spring is connected with the wall’s inner or receiving plate, and the other end is connected to said inner wall or outer plate.
11. It is preferred that the articulated rod be provided in two groups symmetrically and that the shape of the two groups is an “V” shape.
12. In comparison to the prior techniques the utility model offers positive effects as follows.
(1) (1) The crusher liner is equipped with a disassembly tool. It includes an wear-resistant rubber layer as well as a cast stone layer. the high manganese steel plate. Cast stone is utilized to protect the outer layer of high manganese steel. The cast stone layer offers excellent corrosion resistance and wear resistance. The wear-resistant layer of rubber and cast stone are able to be removed from the slot and the plates that are inside and on the plate can be taken apart and changed.
(2) The crusher liner has a stabilizing device. The device that stabilizes comprises an telescopicrod, an firstspring and an undertaking plate, as well as an unmovable block. The first spring shifts to the right, causing the telescopicrod’s telescopicrod’s to move to the other side. The plate inside drives the undertaking plate in the direction of the other side. The vibration-damping activity of both groups of articulatedrods are enhanced through the inner plates.
20.1 liner body 2 inner plate 3 outer plate; 41, telescopic rod; 42, first spring; 43 plate for receiving 44 fixed block 45 articulated rod slide groove; 47, slide groove 48, the second spring; 51, wear-resistant rubber layer; 52 Cast stone layer 53, high manganese steel layer; 54, connecting plate 55, threaded slots; 56, external thread screw; 58, Snap-in groove.
Specific implementation
21. This will give a detailed and thorough explanation of the technological solutions found in the utility models embodiments. The document also contains accompanying drawings. Based on the representation in the utility model any other embodiments obtained by the ordinary technical professional that do not require creative effort are subject to the protections of the utility model.
The utility model offers crusher liner technical solution: crusher lines, that includes liner bodies 1, inner plates 2 and 3. The plate 2 is attached to the right side, while the outer plate 3 is fixed to the right with the third plate. The stabilizing device secures the inner plate 2 to the outer plate 3. The tool to disassemble the liner board is fixed to the liner board 1.
23. In this particular embodiment, it is recommended, the disassembly device includes an anti-wear rubber layer 51, casting stone layer 52, a high-maternity steel layer 53, a connection plate
54, thread groove. External thread 56 screw 56 Snap-in slot 56. The inner plate 2 includes a high-manganese layer 53 which is attached on the left-hand side of casting stone layer 52. Wear-resistant rubber layer 51 is situated on the left side of the cast stone layer 52. The connection plate 54 is glued to the right side of inside plate 2. The connection plate includes a thread groove inside it. The thread groove is used to thread the external thread 56. The thread groove 55 is threaded onto the external thread 56 and the thread of the external thread is connected to the screw and the lower end of the screw is stuck in the slot 58 and the slot 58 gets opened on the receiving plate 43, which improves wear resistance. In addition, the wear-resistant rubber layer 51 the layer of cast stone 52 as well as the layer of high manganese steel 53 may be replaced quickly and easily after they have worn out, to increase the longevity of the service.
24. This embodiment is preferred for having the thicknesses of the wear-resistant layer of rubber 51 and 52 equal to one-half the thicknesses of the cast stones layers 52. The thicknesses of 52 and 52 are equal to one half of 53 for wear resistance.
25. Preferably, the thread groove 55’s size is equivalent to the diameter of the slots for clamping 58. The slots for clamping are 58’s size is the same as the diameter of the screw. This ensures that the thread groove 55, clamping spot 58 and screw 57 are in sync for clamping and fixing.
26. This embodiment includes a stabilizing device that has a telescopicrod 41, first-spring 42, an undertakingplate 43, an elongated plate 44, an articulatedrod 45, a sliding plate 46, a slot 46, an opening 47 for a slideway as well as another spring 48. The vibration-damping activity inside the plate 2 is made more stable by the use of two sets of hinge rods 45.
27. This is the preferred embodiment with one end of first spring 42 is connected to the inner walls of the receiving plates 43 while the other ends are connected to the inner walls of outer plates 3 so that the firstspring 42 is able to move through the telescopicrod 41 in a steady manner during movement of first spring 42.
28. This embodiment preferably has two groups of articulatedrods. The forms of both groups 45 of articulatedrods 45 are fixed in the shape of “v”, which improves stability.
The working principle of the utility model and process for use The left-hand side of the innerplate has been placed in a high manganese layer 53. The high-hardened layer of High Manganese Steel layer 53 is able to be resistant to wear and tear. High manganese layer 53 is coated by a layer of caststone 52. The cast stone layer 52 is a good layer for wear resistance and resistance to corrosion. The cast stone layer 52 has a wear-resistant rubber 51 on its left. Wear-resistant rubber 51 is very resistant to wear. 52 and the high manganese steel layer 53 are able to be replaced quickly and easily after wear, extending the life of the product.
30. The plate 2 moves to its right and squeezes first spring 42 to the right in order to create deformation. The inner plate 2 then drives the receiving plate 43 to the left , making the initial spring 42 move. The inside plate also drives the receiving plate 43 to move to the left, making the two sets articulated rod 45 extend outward. The articulated Rod 45 moves across the slide 46, while the second spring 48 squeezes into the slot 47. This helps to make the vibration-damping process inside the innerplate 2 more secure.
31. Although the examples of the utility model were shown and explained, it is known to anyone with ordinary skill in the art that different variations, modifications, replacements and variations of these embodiments can be made without departing from the principle and nature of the utility model and the application of the utility model is limited by the claims appended and equivalents.