Method Of Making Crusher Liner Plates

1. The utility model is part of the field of engineering liner plate and pertains to crusher lining plate.

Background technology

2. The crusher is used to crush the ore once the rock that is good has been crushed the inner shell of the crusher will wear. Long-term impact contact will cause rock to wear on the crusher innershell which is why it is essential to install the liner plate. But, there are still many difficulties.

3. It is possible to obtain the China Authorization Notice No. Cn209076886u, a crusher liner plate, spring end is fixed with the inner plate, while the other end is fixed with the outer plate, the outer edge of the inner plate is fixed by a rubber pads, and the outer bottom plate is embedded with a plurality of magnets, the top of the crusher is unlocked, and the crusher liner plate can be inserted into the crusher. At this point, the magnet is fast to absorb the crusher's internal wall shell, and eventually the bottom of the crusher. The crusher liner resolves the issue of being unable to put in and lessen the impact on the inner shell of the crusher, however the wear-resistant layer on the liner is merely a rubber layer. The wear-resistant layer on the crusher liner is made of rubber. It is a fact that the whole liner has to be replaced when it wears out.

Technical realization aspects

4. The current model of utility is made to replace crusher liners crusher liner plates. It has a low wear resistance, and it is hard to remove and reassemble once worn out. In addition, the spring to lower the force is not as stable as it is recommended in the technology behind it.

5. The utility model offers the technical solution to the above problem crusher liner. It is comprised of the liner-body, an outer and outer plate, and an stabilizing device. The right side of the innerplate connects with the outer plates through a stabilizing device. The liner body comes with a dismantling device and the right sides of these stabilizing devices are secured with the stabilizing device.

The ideal disassembly tool is equipped with a wear-resistant rubber coating, a cast stone layer, a high manganese steel layer, a connecting plate, threaded slots with an external thread, the screw and snap-in slot. The said high manganese steel layer is pasted on the left side of the inner plate, and a cast stone layer is fixed on the left side of the high manganese steel the wear-resistant rubber layer is located on the left of the cast stone layer, said connecting plate is fixed to the right side of the plate and a threaded groove is open within the connecting plate. said threaded slot is connected with said threaded groove is threaded with an external thread. The external thread is opened by the screw's lower end of the screw is seated with a snap-in slot, said slot that snaps in is opened in the receiving plate.

The preferred thickness of the wear-resistant rubber layer is one-half the thickness of the layer and said thickness of said caststone layer is equal to one-half of the thickness of the high-manganese steel layer.

Preferably, the threaded groove is equal in size to the snap-in slot's caliber, and said snap-in slots are that is equal to the size of the screw.

9. The ideal stabilizing device comprises an telescopic rod, a first spring an undertaking plate fixed block and an articulated rod an articulated rod, a sliding block, sliding slot, and a spring. The right end of the plate inside is secured with an undertaking plate while the left portion of the plate for undertaking is fixed to the other end of the telescopic rod, said opposite end of the telescopic rod is fixed with the outer wall of the outer plate, said outer wall of the telescopic rod wound by a first spring, said left side of the outer plate

The inner wall of said outer plate is secured with an elongated block fixed to the plate, and fixed block hinged by one end of the rod articulated, the other end of the rod articulated is hinged using a sliding block, said sliding block is connected by a sliding slot. said sliding slot is connected to a second spring.

10. Most likely, the first spring is connected to the inside wall of the receiving plate, and the opposite end of the first spring is connected to the wall inside of the outer plate.

11. It is recommended that the rod is provided in two groups symmetrically and that the form of the two groups has an "V" shape.

12. The utility model is superior to prior method in the following ways:

(1) (1) The crusher liner is equipped with the disassembly device. This includes the wear-resistant layer of rubber along with a cast stone layer as well as the high manganese steel plate. The outer layer of high manganese steel layer is set with a cast stone layer the cast stone layer has good corrosion resistance and wear resistance. www.crusherparts.org of the layer cast stone is set with a wear resistant layer of rubber, and the wear resistant rubber layer is an excellent wear resistance. In addition, the wear resistant rubber layer and the cast stone layer, as well as the high manganese layer can be worn away by dislodging the screw, causing the internal end of the screw separate from the slot, which makes the plate and the inside plate separated and replaced. with this device, it can enhance the wear resistance. The wear-resistant rubber layer, cast stone layer and high manganese steel layer can be easily replaced when they are worn out, and their service life can be improved.

(2) (2) The crusher liner includes stabilizing devices, and the stabilizing device includes a telescopic rod, a first spring an undertaking plate fixed block and an articulated rod an elongated block, a sliding groove, and a second spring. When the inner plate is moved to the right and presses the first spring to the left to cause deformation and deformation, the first spring is moved to the right to drive the telescopic rod to move to the left, so that the first spring is moved with greater stability, while the inner plate drives the undertaking plate to squeeze to the right to move The two groups of rods that are articulated are able to move outwards and the rods that are articulated slide in the slots through the slider. They at the same time squeeze the second spring, causing deformation, which makes the vibration-damping capability of the inner plate more secure between the two groups of articulated rods.

20.1 Inner plate; 3, outer plates; 41, telescopic spring; 43 Reception plate 44; 45; fixed rod; 46; slide groove; 48; second spring 51; wear-resistant Rubber 52 Cast stone layer 53; 54; connecting plate. 55 Threaded slot. 56; 57; 57; 58; Snap-in groove.

Specific implementation

21. The following will be a clear and complete description of the technical solutions provided in the utility model embodiments in conjunction with the illustrations of the utility model embodiments and, obviously, the described embodiments are only a portion of the utility model embodiments, not all of them. Based on the design of the utility model all other versions obtained by the ordinary technical professional without requiring creative work belong to the scope of protection of the utility model.

The utility model is a jaw crusher liner's technological solution: crusher liner, comprising liner body 1 the inner plate 2, and outer 3, the inner plate 2 is fixed on the right-hand side of the liner body 1. And the right-hand end of the inner plate 2 is connected to the outer plate 3 by a stabilizing device and a disassembly device installed on the body of the liner. and the right side of the disassembly apparatus is stuck with the stabilizing device.

23. Preferably, this embodiment includes a wear-resistant rubber 51 layer and a caststone layer 52 and a high-magnese layer 53. A connection plate is also included.

54, thread groove 55, external thread 56, screw 57 and a snap-in slot 58. the inner plate 2 contains a high manganese steel layer 53, which is bonded to the left of the high manganese steel layer 53. The cast stone layer 52 is glued to the left of the cast stone layer 52. The wear-resistant layer of rubber is installed on the left side of the cast stone layer 52, as well as the connection plate 54 is fixed to the right-hand side of the plate 2 that is inside, and the connection plate is equipped with a thread groove which is affixed to it. the thread groove 55 is connected onto the external thread 56. Thread groove 55 is threaded to the thread on the outside of 56, and the thread on the external side is joined to the screw 57 and the lower end of the screw is glued to the slot 58 and the slot 58 gets accessed through the receiving plate 43 which increases the wear resistance. The rubber layer that is wear-resistant 51, the layer of cast stone 52, and the high manganese steel layer 53 can be replaced quickly and easily when they wear out, to increase the service life.

24. This particular embodiment is preferential for having the thicknesses of wear-resistant layer of rubber 51 and 52 equal 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. It is recommended that the thread groove 55's size is equal to that of the slots for clamping 58. The slots for clamping 58's diameter is equal to the diameter of the screw. This ensures that the thread groove 55, clamping spot 58 and screw 57 work together for fixing and clamping.

26. In this case, most likely the stabilizing device is comprised of a telescopic rod 41 and a spring 42, a first, an undertaking plate 43 and an erect block 44, an articulated rod 45, the sliding block 46, a slot 47 and a second spring 48 the right-hand end of the inner plate 2 is secured by an undertaking plate and the left side of the undertaking plate 43 is secured by the other end of the telescopic rod 41, while the opposite portion of the telescopic rod is fixed by the outer wall of the outer plate 3, and the wall that is on the outside of the telescopic rod 41. The left inner wall of the outer plate 3 is held to a fixed block, and the fixed block 44 is hinged on one end of the hinge rod 45, while the opposite end of the hinge rod 45 hinges to the slider 46. the slider 46 is slidingly linked to the slideway 47, and the second spring 48 is also connected to the slideway 47 that makes the vibration-damping capability of the inner plate more stable by two sets of hinge rods 45.

27. In this particular embodiment, it is preferred the first spring 42 is attached to the wall of the plate that receives it and the opposite end of the first spring 42 is attached to the inner wall of the outer plate 3, to ensure that the first spring 42 is able to move steadily through the telescopic rod 41 throughout the motion of the initial spring 42.

28. This preferred embodiment has two groups of articulatedrods. The forms of both groups 45 of articulatedrods 45 are fixed in the shape of "v" which increases stability.

The working principle of the utility model and usage process The left-hand part of the innerplate is set in a high manganese layer 53. This highly-hardened layer High Manganese Steel layer 53 is able to be resistant to wear and tear. High manganese layer 53 is encased with caststone layer 52. The layer of cast stone 52 has good wear resistance and corrosion resistance. The wear-resistant rubber layer 51 is provided on the left of the cast stone layer 52, and the wear-resistant rubber layer 51 has high wear resistance. The wear-resistant rubber layer 52 and 53 of high manganese steel can be quickly and easily replaced, increasing the service life.

30. When the inner plate 2 is moved to the right and presses the spring 42 first to the left to produce deformation The first spring 42 moves to the right to drive the telescopic rod 41 move to the right, making the first spring 42 move in a more stable process, while the outer plate 2 drives the receiving plate 43 to move to the right after moving to the right, causing the two sets of articulated rod 45 move inwards, while the articulated rod 45 moves through the slider 46 in the slot 47, while it squeezes the second spring 48. Two sets of rods that are articulated 45 make the vibration-damping function of the inner plate more stable by utilizing two sets of rods that are articulated, and the entire process ends here.

31. The utility model has been described and illustrated in various forms. It is obvious to anyone with ordinary knowledge that modifications, variations or substitutes for these embodiments are possible. Furthermore, the appended claims, as well as their equivalents restrict the scope of the utility model.