CN214582986U - Bearing vertical difference measuring device - Google Patents

Abstract

A bearing vertical difference measuring device comprises a base, a discharging fixed block and a discharging seat, wherein a left mounting seat and a right mounting seat are arranged on the base, and a mounting hole is formed between the left mounting seat and the right mounting seat; a column head is arranged below the discharging fixed block and is positioned in the mounting hole; the upper end of the column head is connected with a positioning disc; positioning holes are formed in the centers of the column head and the positioning disc; the discharging seat comprises a lower positioning column and a discharging disc; the lower positioning column penetrates through the positioning hole; a material baffle plate is arranged above the material placing disc, and a V-shaped opening is processed on the side edge of the material baffle plate; a dial indicator is installed above the right installation seat, a measuring rod of the dial indicator penetrates through the right installation seat to be connected with a measuring head rod, and the measuring direction of the measuring head rod faces to a V-shaped opening of the material baffle plate. The utility model discloses utilize the striker plate to inject bearing inner race position, the location is convenient, and when measuring, the operation locating lever drives the outer lane and rotates, and the survey is accomplished fast to the amesdial simultaneously, and measurement of efficiency is high.

Description

Bearing vertical difference measuring device

Technical Field

The utility model relates to a bearing detects technical field, specifically indicates a bearing vertical difference measuring device.

Background

The bearing is a part used for reducing friction coefficient when equipment rotates and ensuring rotation precision of the equipment, the bearing generally comprises an inner ring, an outer ring and a steel ball, the bearing is generally positioned and installed by utilizing the outer ring of the bearing, and for a special positioning and installing mode, for example, the outer ring of the bearing is matched with an end face for positioning and installing, so that the perpendicularity of the outer ring and the end face of the bearing needs to be detected, and a measuring device needs to be designed for measuring the bearing vertical difference.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to above-mentioned prior art not enough, and provide a bearing perpendicular poor measuring device.

In order to solve the technical problem, the utility model discloses a technical scheme is:

a bearing vertical difference measuring device comprises a base, a discharging fixed block and a discharging seat, wherein a left mounting seat and a right mounting seat are respectively arranged on the left side and the right side of the base; a mounting notch is formed in the lower part of the base corresponding to the boss area; a column head is arranged below the discharging fixed block and is arranged in the mounting hole; the upper end of the column cap is connected with a positioning disc, and the lower end of the column cap is in threaded connection with a plug bolt; positioning holes are formed in the centers of the column head and the positioning disc; the discharging seat comprises a lower positioning column and a discharging disc, and the discharging disc is connected above the lower positioning column; the lower positioning column penetrates through the positioning hole; a first threaded hole is formed in the side edge of the positioning disc, a set screw is connected in the first threaded hole, and the lower positioning column is locked by the set screw; a material baffle plate is arranged above the material placing disc, and a V-shaped opening is processed on the side edge of the material baffle plate; a dial indicator is arranged above the right mounting seat, and a measuring rod of the dial indicator penetrates through the right mounting seat to be connected with a mounting sleeve; the mounting sleeve is provided with a measuring head rod, the measuring end of the measuring head rod is provided with a flat measuring head, and the flat measuring head faces to a V-shaped opening of the material baffle plate.

Furthermore, the mounting hole is a waist slot hole; the positioning disc and the plug bolt are respectively positioned at the upper end and the lower end of the mounting hole, and the mounting hole is of a kidney-shaped groove type, so that the mounting position of a column head of the discharging fixing block can be adjusted in the mounting hole.

Furthermore, a left limiting rod is connected in the left mounting seat; a right limiting rod is connected in the right mounting seat; v-shaped positioning grooves are symmetrically processed on two sides of the positioning plate; after the position of the discharging fixing block is adjusted, the end parts of the left limiting rod and the right limiting rod are clamped in the V-shaped positioning grooves to fix the discharging fixing block.

Further, threaded mounting holes are symmetrically machined above the material placing disc; a waist-shaped adjusting groove is processed on the material baffle plate and is connected with the threaded mounting hole through a screw.

Furthermore, the measuring device also comprises a positioning rod, wherein a conical end is processed at the lower end of the positioning rod, and a rotating block is connected at the upper end of the positioning rod; the positioning rod and the rotating block are integrally processed by plastics; and the positioning rod is connected with a rotating bearing in a matching way.

Compared with the prior art, the utility model discloses a bearing vertical difference measuring device utilizes the striker plate to inject bearing inner race position, and the location is convenient, and when measuring, the operation locating lever drives the outer lane and rotates, and the survey is accomplished fast to the amesdial simultaneously, and measurement of efficiency is high.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a cross-sectional view of the present invention;

FIG. 3 is a schematic structural view of the connection between the left and right limiting rods and the discharge fixing block of the present invention;

FIG. 4 is a schematic structural view of the connection of the positioning rod, the turning block and the turning bearing of the present invention;

the automatic feeding device comprises a base 1, a base 2, a feeding fixing block 3, a feeding seat 4, a left mounting seat 5, a right mounting seat 6, a mounting hole 7, a mounting notch 8, a left limiting rod 9, a right limiting rod 10, a flat end set screw 11, a spring 12, a material baffle plate 13, a dial indicator 14, a measuring head rod 15, a positioning rod 16, a rotating block 17, a rotating bearing 211, a column head 212, a positioning disc 213, a plug bolt 214, a first threaded hole 311, a lower positioning column 312 and a feeding disc.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below.

As shown in fig. 1 to 4, a bearing vertical difference measuring device comprises a base 1, a discharge fixing block 2 and a discharge seat 3, wherein a left mounting seat 4 and a right mounting seat 5 are respectively arranged on the left side and the right side of the base 1, a boss area is arranged on the surface of the base 1 between the left mounting seat 4 and the right mounting seat 5, and a mounting hole 6 is processed in the boss area; a mounting notch 7 is formed in the lower part of the base 1 corresponding to the boss area; a column head 211 is arranged below the discharging fixed block 2, and the column head 211 is arranged in the mounting hole 6; the upper end of the column cap 211 is connected with a positioning disc 212, and the lower end of the column cap 211 is in threaded connection with a plug bolt 213; in this embodiment, the mounting hole 6 is a waist-slot hole, and the positioning plate 212 and the plug bolt 213 are respectively located at the upper end and the lower end of the mounting hole 6, and since the mounting hole is waist-slot type, the mounting position of the column cap 211 of the fixed discharge block 2 can be adjusted in the mounting hole 6.

A thread adjusting hole is processed on the left mounting seat 4, and a left limiting rod 8 penetrates through the thread adjusting hole; a step hole is formed in the right mounting seat 5, and a right limiting rod 9 penetrates through the step hole; an internal thread is processed at the tail part of the stepped hole, and a flat-end set screw 10 is connected to the internal thread; a check ring is processed on the right limiting rod 9, and a spring 11 is arranged between the check ring and the flat end set screw 10; v-shaped positioning grooves are symmetrically processed on two sides of the positioning disc 212; after the position of the discharging fixing block 2 is determined, the end parts of the left limiting rod 8 and the right limiting rod 9 are clamped in the V-shaped positioning grooves to fix the discharging fixing block 2.

Positioning holes are formed in the centers of the column head 211 and the positioning disc 212; the discharging seat 3 comprises a lower positioning column 311 and a discharging tray 312, and the discharging tray 312 is connected above the lower positioning column 311; the lower positioning column 311 is arranged in the positioning hole in a penetrating manner; a first threaded hole 214 is formed in the side edge of the positioning disc 212, a conical-end set screw is connected in the first threaded hole 214, and the lower positioning column 311 is locked by the conical-end set screw; a material baffle plate 12 is arranged above the material placing disc 312, and a V-shaped opening is processed on the side edge of the material baffle plate 12; a dial indicator 13 is arranged above the right mounting seat 5, and a measuring rod of the dial indicator 13 penetrates through the right mounting seat 5 and is connected with a mounting sleeve; the mounting sleeve is provided with a measuring head rod 14, a flat measuring head is arranged at the measuring end of the measuring head rod 14, and the flat measuring head faces to a V-shaped opening of the striker plate 12.

In this embodiment, threaded mounting holes are symmetrically machined above the material placing tray 312; waist type adjustment tank is processed on striker plate 12, and waist type adjustment tank passes through the screw to be connected with the screw thread mounting hole, utilizes the adjustable striker plate 12's of waist type adjustment tank position, makes measuring device can satisfy the measurement of different model bearing inner races.

Meanwhile, the measuring device also comprises a positioning rod 15, a conical end is processed at the lower end of the positioning rod 15, and a rotating block 16 is connected at the upper end of the positioning rod 15; the positioning rod 15 and the rotating block 16 are integrally processed by plastics; the positioning rod 15 is connected with a rotating bearing 17 in a matching way.

Place the bearing outer lane on blowing dish 312 during the measurement, fix a position through the "V" type opening of striker plate 12, the outer lane upper end is withstood to the gauge head of gauge head pole 14, and locating lever 15 utilizes the awl end to push down the bearing outer lane, and rolling bearing 17 is being held between the fingers to one hand simultaneously, and the bearing outer lane is pressed to downward power, holds between the fingers on the other hand and makes locating lever 15 rotate on the turning block 16, drives the bearing outer lane and rotates, thereby observes amesdial 13 reading change survey bearing vertical difference.

The present invention is not limited to the above-described embodiments, and those skilled in the art can make modifications or changes without departing from the spirit of the present invention.

Claims (4)

1. The utility model provides a bearing vertical difference measuring device which characterized in that: the automatic feeding device comprises a base, a feeding fixed block and a feeding seat, wherein a left mounting seat and a right mounting seat are respectively arranged on the left side and the right side of the base, and a mounting hole is formed between the left mounting seat and the right mounting seat; a column head is arranged below the discharging fixed block and is arranged in the mounting hole; the upper end of the column cap is connected with a positioning disc, and the lower end of the column cap is in threaded connection with a plug bolt; positioning holes are formed in the centers of the column head and the positioning disc; the discharging seat comprises a lower positioning column and a discharging disc, and the discharging disc is connected above the lower positioning column; the lower positioning column penetrates through the positioning hole; a first threaded hole is formed in the side edge of the positioning disc, a set screw is connected in the first threaded hole, and the lower positioning column is locked by the set screw; a material baffle plate is arranged above the material placing disc, and a V-shaped opening is processed on the side edge of the material baffle plate; a dial indicator is arranged above the right mounting seat, and a measuring rod of the dial indicator penetrates through the right mounting seat to be connected with a mounting sleeve; the mounting sleeve is provided with a measuring head rod, and a V-shaped opening of a measuring direction striker plate of the measuring head rod is formed in the mounting sleeve.

2. A bearing vertical difference measuring device according to claim 1, characterized in that: the mounting hole is a waist slot hole; the positioning plate and the plug bolt are respectively positioned at the upper end and the lower end of the mounting hole.

3. A bearing vertical difference measuring device according to claim 1, characterized in that: a left limiting rod is connected in the left mounting seat; a right limiting rod is connected in the right mounting seat; v-shaped positioning grooves are symmetrically processed on two sides of the positioning plate; the end parts of the left limiting rod and the right limiting rod are clamped in the V-shaped positioning grooves.

4. A bearing vertical difference measuring device according to claim 1, characterized in that: the lower end of the positioning rod is processed with a conical end, and the upper end of the positioning rod is connected with a rotating block; the positioning rod and the rotating block are integrally processed by plastics; and the positioning rod is connected with a rotating bearing in a matching way.

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