CN212103567U - Polarizer structure device of vibrating plate compactor - Google Patents

Abstract

The utility model discloses vibration plate compactor polarizer constructional device, including casing, main tooth, pay tooth, cable, adjustment mechanism and vibration actuating mechanism, be equipped with intermeshing's main tooth in the casing and pay the tooth, the main tooth gets rid of the piece through the main shaft connection main shaft, and it gets rid of the piece to pay the tooth through paying the axle connection secondary shaft, is equipped with vibration actuating mechanism on the secondary shaft, and the cable orders about the vibration actuating mechanism activity through adjustment mechanism, makes vibration actuating mechanism drive secondary shaft get rid of the piece motion to it gets rid of the piece motion to drive the main shaft, changes vibration plate compactor direction of motion then. Beneficial effects do: the polarizer is durable, flexible in reversing and convenient to operate.

Description

Polarizer structure device of vibrating plate compactor

Technical Field

The utility model relates to a vibration plate compactor equipment field specifically is to a vibration plate compactor polarizer constructional device.

Background

The vibrating plate compactor is one kind of machine for compacting ground and has the working principle that the motor drives the eccentric throwing block inside the polarizer to rotate at high speed to produce centrifugal force, and the bottom plate jumps up via the reaction force of ground and then falls down freely to reciprocate to compact ground. The machine has no walking wheel, and the walking is produced by the rotation of eccentric throwing block, the plate compactor is divided into one-way plate compactor and two-way plate compactor, and the two-way plate compactor is made through changing the angle of two throwing blocks inside the polarizer.

As shown in fig. 7, in the existing bidirectional plate compactor, the guy cable rotates through the steering output shaft in the operation seat, the small pin of the steering output shaft pulls the rotating sleeve to slide, the clutch small shaft is driven to enter and exit, the steering output shaft is not fixed by a bearing, the shaft rotates and vibrates, the shaft and the inner hole of the shaft of the operation seat are greatly abraded, and the rotating output shaft is easily damaged; the rotating sleeve is pulled by a small pin of the steering output shaft, the small pin is easy to wear, the reversing is troublesome, and the polarizer is easy to damage; the oil hole inner hole and the steering output shaft are difficult to be concentric, and oil is easy to leak during working.

SUMMERY OF THE UTILITY MODEL

For solving at least one technical problem, the utility model provides a polarizer structure device of a vibrating plate compactor, which can be flexibly reversed and is not easy to damage.

Vibrating plate compactor polarizer constructional device, the technical scheme of its adoption be including casing, main tooth, pay tooth, cable, adjustment mechanism and vibration actuating mechanism, be equipped with intermeshing's main tooth in the casing and pay the tooth, the main tooth is passed through the main shaft and is connected the main shaft and get rid of the piece, it gets rid of the piece through paying the axle connection secondary shaft to pay the tooth, still be equipped with vibration actuating mechanism on the secondary shaft, the cable orders about through adjustment mechanism vibration actuating mechanism activity makes vibration actuating mechanism drive secondary shaft and gets rid of the piece motion to it gets rid of the piece motion to drive the main shaft, changes vibrating plate compactor direction of motion then.

Furthermore, the adjusting mechanism comprises an operation seat, a stay cable connecting sleeve and an output small shaft, the output small shaft is located in the operation seat, a bearing I and a bearing II are respectively installed at the upper end and the lower end of the output small shaft, the stay cable is connected with the output small shaft through the stay cable connecting sleeve, and the output small shaft is connected with the vibration driving mechanism.

Furthermore, an oil seal is arranged above the bearing I.

Furthermore, the vibration driving mechanism comprises a clutch small shaft, a gear sleeve, a shifting fork, a clutch plate I and a clutch plate II, the gear sleeve is positioned in the operating seat and is meshed with the output small shaft, the front end of the clutch small shaft is positioned in the gear sleeve and is connected with the gear sleeve through a bearing III, the shifting fork is fixedly connected to the rear end of the clutch small shaft and is positioned in the auxiliary gear, the clutch plate II and the clutch plate I are respectively arranged on the front side surface and the rear side surface of the auxiliary gear, the tail end of the clutch small shaft is connected with the auxiliary shaft, and the auxiliary shaft is sleeved with a throwing block.

Furthermore, the clutch plate I and the clutch plate II are symmetrically distributed along the central axis of the pair of teeth.

Furthermore, a bottom plate of the vibrating plate compactor is arranged below the shell, the main gear is connected with a driving mechanism of the vibrating plate compactor through a vibrating belt, a reversing handle is arranged on a handrail of the vibrating plate compactor, and the reversing handle is connected with the inhaul cable.

Beneficial effects do: the polarizer is durable, is not easy to leak oil, is flexible in reversing and is convenient to operate.

Drawings

In order that the present invention may be more readily and clearly understood, the following detailed description of the present invention is provided in connection with the accompanying drawings.

Fig. 1 is a schematic structural diagram of the present invention used in a device.

Fig. 2 is a schematic top view of the present invention.

Fig. 3 is a schematic view of the a-a structure of fig. 2.

Fig. 4 is a schematic view of the structure B-B of fig. 2.

FIG. 5 is a schematic view of the C-C structure of FIG. 2

Fig. 6 is a schematic sectional front view.

Fig. 7 is a schematic structural view of a related art connection member with a cable.

Wherein: 1-shell, 2-main gear, 21-main shaft, 22-main shaft throw block, 3-auxiliary gear, 31-auxiliary shaft, 32-auxiliary shaft throw block, 4-inhaul cable, 5-adjusting mechanism, 51-operating seat, 52-inhaul cable connecting sleeve, 53-output small shaft, 54-bearing I, 55-bearing II, 56-oil seal, 6-vibration driving mechanism, 61-clutch small shaft, 62-gear sleeve, 63-shifting fork, 64-clutch piece I, 641-clutch piece I step, 65-clutch piece II, 651-clutch piece II step, 66-bearing III, 7-bottom plate, 8-vibration belt, 9-reversing handle, 10-small pin, 11-steering output shaft and 12-rotating sleeve.

Detailed Description

As shown in the figures, the polarizer structure device of the vibrating plate compactor of the present invention comprises a shell 1, a main gear 2, a secondary gear 3, a cable 4, an adjusting mechanism 5 and a vibration driving mechanism 6, wherein a bottom plate 7 of the vibrating plate compactor is arranged below the shell 1, the shell 1 is internally provided with the main gear 2 and the secondary gear 3 which are engaged with each other, the main gear 2 is connected with the driving mechanism of the vibrating plate compactor through a vibration belt 8, the main gear 2 is connected with a main shaft swinging block 22 through a main shaft 21, the secondary gear 3 is connected with a secondary shaft swinging block 32 through a secondary shaft 31, the secondary shaft 31 is further provided with the vibration driving mechanism 6, a handle 9 is arranged on a handrail of the vibrating plate compactor, the handle 9 is connected with the cable 4, the cable 4 drives the vibration driving mechanism 6 to move through the adjusting mechanism 5, so that the vibration driving mechanism 6 drives the secondary shaft swinging block 32 to move, thereby driving the main shaft swinging block, and then the motion direction of the vibrating plate compactor is changed.

The adjusting mechanism 5 comprises an operation seat 51, a cable connecting sleeve 52 and an output small shaft 53, the output small shaft 53 is located in the operation seat 51, a bearing I54 and a bearing II 55 are respectively installed at the upper end and the lower end of the output small shaft 53, the bearing I adopted in the embodiment is preferably an 61904 bearing, the bearing II is preferably an 30302 bearing, an oil seal 56 is further arranged above the bearing I, and the cable 4 is connected with the upper end of the output small shaft 53 through the cable connecting sleeve 52.

Vibration actuating mechanism 6 includes separation and reunion staff 61, tooth cover 62, pulls out fork 63, clutch disc I64 and clutch disc II 65, tooth cover 62 be located handle seat 51 and with output staff 53 meshes, the front end of separation and reunion staff 61 be located tooth cover 62 and through bearing III 66 with tooth cover 62 is connected, and bearing III is the preferred 1024 bearing in this embodiment, it is located at the rear end of separation and reunion staff 61 and lie in pay in the tooth 3 to pull out fork 63 fixed connection, pay being equipped with clutch disc II 65 and clutch disc I64 on the preceding, the back both sides face of tooth 3 respectively, and clutch disc I64 and clutch disc II 65 are followed pay the center pin symmetric distribution of tooth 3.

The tail end of the clutch small shaft 64 is connected with the secondary shaft 31, and the secondary shaft fling block 32 is sleeved on the secondary shaft 31.

When the equipment works, the movable reversing handle drives the inhaul cable to act, and the inhaul cable enables the output small shaft to rotate through the inhaul cable connecting sleeve, so that the gear sleeve is driven to move inside and outside; the gear sleeve drives the clutch small shaft to simultaneously enter and exit through the bearing III, and the rear end of the clutch small shaft is fixed with the shifting fork. When the small clutch shaft is pushed, the shifting fork is contacted with a step 641 of the clutch plate I, the large end of the secondary shaft throwing block faces upwards, the large end of the main shaft throwing block faces horizontally to the left, and the two throwing blocks synchronously rotate in opposite directions through the meshing motion of the main teeth and the secondary teeth to drive the plate compactor to move backwards; when the clutch small shaft is pulled out, the shifting fork is contacted with a step 651 of a clutch plate II, the step 641 of the clutch plate I is 180 degrees related to the step 651 of the clutch plate II, namely the main shaft rotates 180 degrees, the main gear drives the auxiliary gear to also rotate 180 degrees, two clutch plates are fixed on two sides of the auxiliary gear, the steps of the clutch plates are contacted with the shifting fork to drive the auxiliary shaft to rotate, the auxiliary shaft and the auxiliary shaft throwing block are connected into a whole through a flat key, when the shifting fork replaces the step contact of the clutch plates, the auxiliary shaft and the auxiliary shaft throwing block relatively lag and rotate 180 degrees, the angle of the auxiliary shaft throwing block and the angle of the main shaft throwing block are changed by 180 degrees, the motion direction of the plate compactor is changed, and the plate compactor moves forwards.

The output small shaft and the gear sleeve in the embodiment are both over-heated and externally arranged, so that high-strength vibration can be borne; the output small teeth are fixed by two bearings and rotate flexibly; the upper part of the output small shaft is isolated from the outside through an oil seal, and the oil leakage phenomenon cannot occur. The vibrating plate compactor of the polarizer structure device is durable in use, flexible in reversing and convenient to operate.

The above mentioned is only the preferred embodiment of the present invention, not as the further limitation of the present invention, and all the equivalent changes made by the contents of the specification and the drawings are within the protection scope of the present invention.

Claims (6)

1. The polarizer structure device of the vibratory plate compactor is characterized by comprising a shell, a main tooth, a secondary tooth, an inhaul cable, an adjusting mechanism and a vibratory driving mechanism, wherein the main tooth and the secondary tooth which are meshed with each other are arranged in the shell, the main tooth is connected with a main shaft throwing block through a main shaft, the secondary tooth is connected with a secondary shaft throwing block through a secondary shaft, the vibratory driving mechanism is further arranged on the secondary shaft, and the inhaul cable drives the vibratory driving mechanism to move through the adjusting mechanism, so that the vibratory driving mechanism drives the secondary shaft throwing block to move, the main shaft throwing block is driven to move, and the motion direction of the vibratory plate compactor is changed.

2. The structure device of the vibratory plate compactor according to claim 1, wherein the adjusting mechanism comprises a manipulating base, a cable connecting sleeve and an output small shaft, the output small shaft is located in the manipulating base, a bearing I and a bearing II are respectively installed at the upper end and the lower end of the output small shaft, the cable is connected with the output small shaft through the cable connecting sleeve, and the output small shaft is connected with the vibration driving mechanism.

3. The vibrating plate compactor polarizer structural device according to claim 2, wherein an oil seal is further provided above the bearing i.

4. The structure device of the vibratory plate compactor polarizer according to claim 2, wherein the vibration driving mechanism comprises a clutch small shaft, a gear sleeve, a shifting fork, a clutch plate i and a clutch plate ii, the gear sleeve is located in the manipulation seat and engaged with the output small shaft, the front end of the clutch small shaft is located in the gear sleeve and connected with the gear sleeve through a bearing iii, the shifting fork is fixedly connected to the rear end of the clutch small shaft and located in the auxiliary gear, the clutch plate ii and the clutch plate i are respectively arranged on the front side surface and the rear side surface of the auxiliary gear, the tail end of the clutch small shaft is connected with the auxiliary shaft, and the auxiliary shaft throwing block is sleeved on the auxiliary shaft.

5. The vibrating plate compactor polarizer construction according to claim 4 wherein clutch plates I and II are symmetrically disposed about the central axis of the teeth.

6. The vibrating plate compactor polarizer structure device according to any one of claims 1-5, wherein a bottom plate of the vibrating plate compactor is arranged below the housing, the main gear is connected to a driving mechanism of the vibrating plate compactor through a vibrating belt, and a reversing handle is arranged on a handrail of the vibrating plate compactor, and the reversing handle is connected to the pulling cable.

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