CN220099608U - Cement pavement resonance crusher - Google Patents

Abstract

The utility model discloses a cement pavement resonance crusher, which comprises a main body, a resonance auxiliary mechanism and a module protection mechanism, wherein the resonance auxiliary mechanism is arranged on one side of the main body, and the module protection mechanism is arranged at the bottom end of the resonance auxiliary mechanism. This cement road surface resonance breaker, protection frame, resonance module all keep being connected fixedly with linking up a bottom, thereby protection frame formation all around is to the protection of resonance module, in use, the pneumatic cylinder support body that accessible resonance module distributes all around carries out lifting support, thereby make the pneumatic cylinder drive the support pad dish that the bottom is connected descend, thereby form the support after four sets of support pad dishes contact the road surface through the decline, provide stable support auxiliary effect to resonance module local position all around, thereby reduce resonance module operation in-process cooperation tup and carry out the violent rocking that resonance process produced, form the multiple spot location support, thereby dispersion effort promotes the stability of whole equipment.

Description

Cement pavement resonance crusher

Technical Field

The utility model relates to the technical field of road engineering, in particular to a cement pavement resonance crusher.

Background

Road engineering construction belongs to basic building operation in municipal engineering, and the road engineering refers to the whole process of planning, designing, constructing, maintaining and managing by taking a road as an object and engineering entities engaged in the process, while cement road engineering is road construction engineering mainly using cement mortar materials as main basic materials, in the construction process, a road resonance crusher is a novel road crushing machine for crushing old cement roads, a Congmins high-power diesel engine is adopted as power, a closed hydraulic system is adopted as driving and vibrating, and key components such as a hydraulic pump, a motor and the like are international brand products, so that the road engineering has the advantages of strong power, reliable work and the like.

In the prior art, the main structure of the crusher of the existing resonance crusher is designed integrally, the vibration process of the resonance module is needed when the crushing operation clock of the cement pavement is carried out, and in the operation process, the whole resonance crusher is supported by the frame structure of the crusher in cooperation with four groups of tires, and the local vibration process of the resonance crusher is not provided with a supporting structure, so that the stability is not strong, the stability of the whole crusher during the use is affected, and therefore, the cement pavement resonance crusher is provided.

Disclosure of Invention

The utility model aims to provide a cement pavement resonance crusher, which aims to solve the problems that in the prior art, the main structure of the conventional resonance crusher is integrally designed, the resonance module is required to vibrate when a cement pavement crushing operation clock is used, the whole cement pavement resonance crusher is supported by the frame structure of the crusher in cooperation with four groups of tires in the operation process, and the local vibration process of the cement pavement resonance crusher is not provided with a supporting structure, so that the stability is not strong, and the use process stability of the whole cement pavement resonance crusher is influenced.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a cement road surface resonance breaker, includes main part, resonance assist mechanism and module protection machanism, one side of main part is provided with resonance assist mechanism, and resonance assist mechanism's bottom is provided with module protection machanism, resonance assist mechanism includes driving box, louvre, links up platform, resonance module, tup, pneumatic cylinder and support pad dish, and the louvre has been seted up to the both sides of driving box, the bottom of driving box is provided with links up the platform, and links up the bottom of platform and be provided with resonance module, resonance module's bottom is provided with the tup, and the distribution has the pneumatic cylinder all around of tup, the bottom of pneumatic cylinder is provided with the support pad dish.

Further, the driving box is fixedly connected with the connecting table, and the radiating holes are formed in the outer walls of the two sides of the driving box at equal intervals.

Furthermore, the resonance module is communicated with the driving box and the hammer head, and the connecting table is connected with the resonance module.

Furthermore, the hydraulic cylinders and the supporting cushion discs are symmetrically distributed along the periphery of the resonance module, and the supporting cushion discs form a lifting structure with the connecting table through the hydraulic cylinders.

Further, the main body comprises a frame, a cab and tires, wherein the cab is arranged on one side of the top end of the frame, and the tires are distributed around the frame.

Further, the frame and the resonance auxiliary mechanism are fixedly connected, and the tires are symmetrically distributed along the periphery of the frame.

Further, the module protection mechanism comprises a protection outer frame, a frame cover plate and a shaft rod, wherein the frame cover plate is arranged on one side of the protection outer frame, and the shaft rod is distributed at two ends of one side of the frame cover plate.

Further, the frame cover plate and the protection outer frame form a rotary structure through the shaft rod, and the protection outer frame and the resonance auxiliary mechanism are fixedly connected.

Compared with the prior art, the utility model has the beneficial effects that: the cement pavement resonance crusher can be lifted and supported through the hydraulic cylinder frame bodies distributed around the resonance module, the hydraulic cylinder drives the support pad disc connected with the bottom end to descend, when the four groups of support pad discs descend to contact with the pavement, the support pad disc forms a support, and a stable support auxiliary effect is provided for the local position around the resonance module, so that severe shaking generated in the resonance process of the hammer head is reduced in the operation process of the resonance module, the support stress of the frame body is limited to the connection table part, a multi-point positioning support is formed, and the acting force is dispersed, so that the stability of the whole equipment is improved.

The main body part of the resonance crusher structure adopts a main body frame to carry and place modules, the connected vibration process is operated through a cab, and tires distributed around the main body frame are placed in larger sizes, so that the supporting stability of the whole equipment is improved.

The resonance module of this breaker is in protection frame inside all around, and protection frame, resonance module all keep being connected fixedly with linking platform bottom to protection frame all around forms the protection to resonance module, and the user also can be through the rotatory connection structure of frame apron and axostylus axostyle, opens the frame apron is rotatory, overhauls the operation to interior module, makes things convenient for the operator to overhaul the maintenance when forming the protection.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic perspective view of a resonance assist mechanism according to the present utility model;

fig. 3 is a schematic structural view of a module protection mechanism according to the present utility model.

In the figure: 1. a main body; 101. a frame; 102. a cab; 103. a tire; 2. a resonance auxiliary mechanism; 201. a drive box; 202. a heat radiation hole; 203. a joining station; 204. a resonance module; 205. a hammer head; 206. a hydraulic cylinder; 207. a support pad; 3. a module protection mechanism; 301. a protective outer frame; 302. a frame cover plate; 303. and a shaft lever.

Detailed Description

As shown in fig. 1, a cement pavement resonance crusher includes: a main body 1; one side of the main body 1 is provided with a resonance auxiliary mechanism 2, the bottom end of the resonance auxiliary mechanism 2 is provided with a module protection mechanism 3, the main body 1 comprises a frame 101, a cab 102 and tires 103, the cab 102 is arranged on one side of the top end of the frame 101, the tires 103 are distributed around the frame 101, the frame 101 and the resonance auxiliary mechanism 2 are fixedly connected, the tires 103 are symmetrically distributed around the frame 101, the main body part of the resonance crusher structure adopts the main body frame 101 to carry and place modules, the cab 102 is used for operating a connected vibration process, and the tires 103 distributed around the main body frame 101 are placed in a larger size, so that the supporting stability of the whole equipment is improved.

As shown in fig. 2, a cement pavement resonance crusher, resonance auxiliary mechanism 2 includes drive box 201, the louvre 202, link up the platform 203, resonance module 204, tup 205, pneumatic cylinder 206 and support pad 207, and the louvre 202 has been seted up to the both sides of drive box 201, the bottom of drive box 201 is provided with link up platform 203, and the bottom of link up platform 203 is provided with resonance module 204, the bottom of resonance module 204 is provided with tup 205, and the pneumatic cylinder 206 has been distributed all around to tup 205, the bottom of pneumatic cylinder 206 is provided with support pad 207, be fixed connection between drive box 201 and the link up platform 203, and the louvre 202 is offered along the equidistance of drive box 201 both sides outer wall, resonance module 204 and tup 205 are linked together, and link up and be connected between resonance module 204 and link up platform 203, pneumatic cylinder 206, support pad 207 is symmetrical distribution all around along resonance module 204, and support pad 207 passes through pneumatic cylinder 206 and link up-down structure is constituteed to link up and down to link up platform 203, in use, the support pad 206 frame body that can be distributed all around through resonance module 204 carries out lift support through, and let pneumatic cylinder 206 drive the bottom 206 to be connected support pad 205, thereby support up and down support platform 205 and form the support point support pad 205 and support down and take part to form the effect and shake the whole in the course by the support platform 101, thereby the whole course is stable, the support platform is cooled down, and the support platform is formed by supporting a position is stable, and the support platform is stable, and the whole is stable and is supported by supporting a position to support top position and supporting position and a vibration pad station is supported, and a vibration support frame.

As shown in fig. 3, a cement pavement resonance crusher, a module protection mechanism 3 includes a protection outer frame 301, a frame cover plate 302 and a shaft 303, wherein the frame cover plate 302 is disposed on one side of the protection outer frame 301, the shaft 303 is disposed at two ends of one side of the frame cover plate 302, the frame cover plate 302 and the protection outer frame 301 form a rotating structure through the shaft 303, the protection outer frame 301 and the resonance auxiliary mechanism 2 are fixedly connected, the resonance module 204 of the crusher is disposed in the periphery of the protection outer frame 301, the protection outer frame 301 and the resonance module 204 are fixedly connected with the bottom end of the connecting table 203, the protection outer frame 301 around forms protection to the resonance module 204, and a user can also rotate the frame cover plate 302 to open the frame cover plate through the rotating connection structure of the frame cover plate 302 and the shaft 303, so as to overhaul the internal module, and to form protection, and facilitate overhaul and maintenance of operators.

In summary, when the cement pavement resonance crusher is in use, firstly, the main body part of the structure of the resonance crusher adopts the main body frame 101 to carry and place the modules, the operation is carried out on the connected vibration process through the cab 102, the resonance crusher can be lifted and supported through the frame bodies of the hydraulic cylinders 206 distributed around the resonance module 204, the hydraulic cylinders 206 drive the supporting pads 207 with the bottom ends connected to descend, and when the four groups of supporting pads 207 are supported by descending to contact the pavement, the stable supporting auxiliary effect is provided for the local positions around the resonance module 204, so that the shaking generated by the resonance process of the hammer 205 is reduced in the operation process of the resonance module 204, and the overall stable vibration construction state is maintained through the stress of multi-point supporting.

Claims (8)

1. The utility model provides a cement road surface resonance breaker, includes main part (1), resonance complementary unit (2) and module protection machanism (3), its characterized in that: one side of main part (1) is provided with resonance assist mechanism (2), and the bottom of resonance assist mechanism (2) is provided with module protection mechanism (3), resonance assist mechanism (2) are including driving case (201), louvre (202), linking platform (203), resonance module (204), tup (205), pneumatic cylinder (206) and support pad dish (207), and louvre (202) have been seted up to the both sides of driving case (201), the bottom of driving case (201) is provided with linking platform (203), and links up the bottom of platform (203) and be provided with resonance module (204), the bottom of resonance module (204) is provided with tup (205), and the distribution all around of tup (205) has pneumatic cylinder (206), the bottom of pneumatic cylinder (206) is provided with support pad dish (207).

2. A cement pavement resonance breaker as set forth in claim 1, wherein: the driving box (201) is fixedly connected with the connecting table (203), and the radiating holes (202) are formed in the outer walls of the two sides of the driving box (201) at equal intervals.

3. A cement pavement resonance breaker as set forth in claim 1, wherein: the resonance module (204) is communicated with the driving box (201) and the hammer head (205), and the connection table (203) is connected with the resonance module (204).

4. A cement pavement resonance breaker as set forth in claim 1, wherein: the hydraulic cylinders (206) and the supporting pads (207) are symmetrically distributed along the periphery of the resonance module (204), and the supporting pads (207) and the connecting table (203) form a lifting structure through the hydraulic cylinders (206).

5. A cement pavement resonance breaker as set forth in claim 1, wherein: the main body (1) comprises a frame (101), a cab (102) and tires (103), wherein the cab (102) is arranged on one side of the top end of the frame (101), and the tires (103) are distributed around the frame (101).

6. A cement pavement resonance breaker as set forth in claim 5, wherein: the frame (101) and the resonance auxiliary mechanism (2) are fixedly connected, and the tires (103) are symmetrically distributed along the periphery of the frame (101).

7. A cement pavement resonance breaker as set forth in claim 1, wherein: the module protection mechanism (3) comprises a protection outer frame (301), a frame cover plate (302) and a shaft rod (303), wherein the frame cover plate (302) is arranged on one side of the protection outer frame (301), and the shaft rod (303) is distributed at two ends of one side of the frame cover plate (302).

8. A cement pavement resonance breaker as set forth in claim 7, wherein: the frame cover plate (302) and the protection outer frame (301) form a rotary structure through the shaft rod (303), and the protection outer frame (301) is fixedly connected with the resonance auxiliary mechanism (2).