CN209101990U - It is a kind of for monitoring the device of shaft coupling concentricity - Google Patents

Abstract

The utility model discloses a kind of for monitoring the device of shaft coupling concentricity, including symmetrically arranged first coupling body, the second coupling body, monitoring structure and the electric control gear being electrically connected with the monitoring structure；First coupling body and the described one end of second coupling body far from the monitoring structure are connected with external agency；The monitoring structure includes connecting rod, multiple pressure sensors and shell；Flange in the middle part of shell outer peripheral surface is located between first coupling body and the second coupling body opposite end surface；The shell is integrally formed by elastic material.With the design of this structure, when the concentricity of the first coupling body and the second coupling body changes, the multiple pressure sensor stress for being embedded in connecting rod outer peripheral surface change, and then can provide preferable foundation by the collected pressure sensor data of the electric control gear being electrically connected with pressure sensor for the adjusting of subsequent first coupling body and the second shaft coupling concentricity.

Description

It is a kind of for monitoring the device of shaft coupling concentricity

Technical field

The utility model relates to mechanical equipment technical fields more particularly to a kind of for monitoring the dress of shaft coupling concentricity It sets.

Background technique

With the rapid industrial development in our country, mechanization production is more and more instead of hand labour, and shaft coupling exists It is essential component in power transmission process.The transmission that shaft coupling assembly precision directly affects shaft coupling and its is coupled The service life of component.If shaft coupling installs the larger spring bearing unbalance loading that will lead to corresponding shafting of (rear) coaxiality deviation, And then shorten its service life, off-axis is led to when serious, while will also result in shaft coupling premature breakdown.

Currently, used shaft coupling installs coaxiality adjusting method on domestic and international market, mostly fixed using dial gauge On a half shaft coupling, then this half shaft coupling is rotated a circle, measures the diameter relative to another half shaft coupling To with end face run-out value, then carry out analytical calculation determine Adjusted Option, such method is relatively complicated, needs constantly to measure, no Disconnected adjustment, and the influence for the cylindricity and end face run-out that cannot exclude another half shaft coupling measurement position itself, meanwhile, The gravity that dial gauge gauge outfit is born also will affect measurement result.

After shaft coupling is installed, in use, it can be led because of reasons such as settlement of foundation, installation error, stress releases It causes coaxiality deviation to increase, can not but find to eventually lead to transmission parts damage in time.

Shaft coupling coaxiality deviation is larger to have become a great reason for causing transmission parts to damage, therefore in the market It is badly in need of device that is a kind of convenient for operation, and having the adjustment shaft coupling installation concentricity of real-time monitoring and control.

Utility model content

The purpose of this utility model is to provide a kind of for monitoring the device of shaft coupling concentricity, which can pass through The setting of monitoring structure, data when the first coupling body of acquisition and the second coupling body concentricity promptly and accurately changes, are subsequent The adjustment of first coupling body and the second coupling body concentricity provides preferable foundation.

For this purpose, the utility model uses following technical scheme:

It is a kind of for monitoring the device of shaft coupling concentricity, including it is symmetrically arranged first coupling body, the second coupling body, same Axis be arranged in first coupling body and the second coupling body opposite end Middle face monitoring structure and with the monitoring structure The electric control gear of electrical connection；First coupling body and the described one end of second coupling body far from the monitoring structure with outside Mechanism is connected；The monitoring structure include connecting rod, along the uniformly distributed multiple pressure sensors of the connecting rod length direction, with And it is sheathed on shell connecting rod periphery and matched with the pressure sensor；Flange in the middle part of the shell outer peripheral surface It is located between first coupling body and the second coupling body opposite end surface；The shell by elastic material one at Type.

Wherein, the opposite end surface of first coupling body and second coupling body coaxially offers the first mounting hole With the second mounting hole, the both ends of the monitoring structure are inserted in first mounting hole and the second mounting hole respectively.

Wherein, the multiple pressure sensor is symmetrically arranged the two sides in the flange and pacifies respectively with described first The inner wall for filling hole and second mounting hole is inconsistent.

Wherein, the internal diameter of first mounting hole and second mounting hole is equal.

Wherein, the multiple pressure sensor is embedded in the outer peripheral surface of the connecting rod and exposes to the shell.

Wherein, the multiple pressure sensor is distributed in the root of the flange and the both ends of the connecting rod.

The utility model has the beneficial effects that the utility model provide it is a kind of for monitoring the device of shaft coupling concentricity, Including symmetrically arranged first coupling body, the second coupling body, coaxially it is arranged in first coupling body and the second coupling body is opposite Monitoring structure in the middle part of both ends of the surface and the electric control gear being electrically connected with the monitoring structure；First coupling body and described The one end of second coupling body far from the monitoring structure is connected with external agency；The monitoring structure includes connecting rod, edge It the uniformly distributed multiple pressure sensors of the connecting rod length direction and is sheathed on connecting rod periphery and is passed with the pressure The shell that sensor matches；Flange in the middle part of the shell outer peripheral surface is located in first coupling body and second coupling body Between opposite end surface；The shell is integrally formed by elastic material.With the design of this structure, when the first coupling body and the second shaft coupling When the concentricity of body changes, the multiple pressure sensor stress for being embedded in connecting rod outer peripheral surface change, and can then lead to Crossing the collected pressure sensor data of the electric control gear being electrically connected with pressure sensor is subsequent first coupling body and described the The adjusting of two shaft coupling concentricities provides preferable foundation.

Detailed description of the invention

Fig. 1 is that the utility model is a kind of for monitoring the structural schematic diagram of the device of shaft coupling concentricity.

Fig. 2 is the partial enlarged view in Fig. 1 at A.

Fig. 3 is the first coupling body and structural schematic diagram when not coaxial the second coupling body in Fig. 1.

Specific embodiment

Further illustrate the technical solution of the utility model below with reference to the accompanying drawings and specific embodiments.

In conjunction with shown in Fig. 1 to Fig. 3, present embodiments provide a kind of for monitoring the device of shaft coupling concentricity including right Claim the first coupling body 1 of setting, the second coupling body 2, be coaxially arranged in first coupling body 1 and the second coupling body 2 opposite two Monitoring structure in the middle part of end face and the electric control gear being electrically connected with the monitoring structure；First coupling body 1 and described Two one end of coupling body 2 far from the monitoring structure are connected with external agency；The monitoring structure includes connecting rod 41, edge The uniformly distributed multiple pressure sensors 42 of 41 length direction of connecting rod and be sheathed on 41 periphery of the connecting rod and with it is described The shell 43 that pressure sensor 42 matches；The opposite sides face of flange 431 in the middle part of 43 outer peripheral surface of shell is located in institute It states between the first coupling body 1 and 2 opposite end surface of the second coupling body；The shell 43 is integrally formed by elastic material.Tool Body, shell uses rubber or plastic products with preferably elasticity to be made.

Further, in the present embodiment, the opposite end surface of first coupling body 1 and second coupling body 2 is same Axis offers the first mounting hole 11 and the second mounting hole 21, and the both ends of the monitoring structure are inserted in first mounting hole respectively 11 and second mounting hole 21.

Number when in order to more accurately obtain the first mounting hole 11 and 21 concentricity of the second mounting hole change According to, in the present embodiment, the multiple pressure sensor 42 be symmetrically arranged in the flange 431 two sides and respectively with it is described The inner wall of first mounting hole 11 and second mounting hole 21 is inconsistent, and first mounting hole 11 and second mounting hole 21 internal diameter is equal.

Further, in the present embodiment, the multiple pressure sensor 42 is embedded in the outer peripheral surface of the connecting rod 41 And expose to the shell 43.In addition, multiple pressure sensors 42 described in the present embodiment divide in order to more easily obtain data It is distributed in the root of the flange 431 and the both ends far from the flange 431.

It is embedded in by the design of above structure when the concentricity of the first coupling body and the second coupling body changes Multiple pressure sensor stress of connecting rod outer peripheral surface change, then can be by the automatically controlled dress that is electrically connected with pressure sensor The adjusting that collected pressure sensor data is set as subsequent first coupling body and the second shaft coupling concentricity provides preferably Foundation.

Technical principle of the utility model has been described above with reference to specific embodiments.These descriptions are intended merely to explain this reality With novel principle, and it cannot be construed to the limitation to scope of protection of the utility model in any way.Based on the explanation herein, Those skilled in the art, which does not need to pay for creative labor, can associate with other specific implementation modes of this utility model, These modes are fallen within the protection scope of the utility model.

Claims (6)

1. a kind of for monitoring the device of shaft coupling concentricity, it is characterised in that: including symmetrically arranged first coupling body, second Coupling body, the monitoring structure for being coaxially arranged in first coupling body and the second coupling body opposite end Middle face and with institute State the electric control gear of monitoring structure electrical connection；First coupling body and second coupling body far from the monitoring structure one End is connected with external agency；The monitoring structure includes connecting rod, along the uniformly distributed multiple pressures of the connecting rod length direction Force snesor and the shell for being sheathed on connecting rod periphery and being matched with the pressure sensor；The shell periphery The flange of Middle face is located between first coupling body and the second coupling body opposite end surface；The shell is by elasticity Material is integrally formed.

2. according to claim 1 a kind of for monitoring the device of shaft coupling concentricity, it is characterised in that: described first The opposite end surface of axis body and second coupling body coaxially offers the first mounting hole and the second mounting hole, the monitoring knot The both ends of structure are inserted in first mounting hole and the second mounting hole respectively.

3. according to claim 2 a kind of for monitoring the device of shaft coupling concentricity, it is characterised in that: the multiple pressure Force snesor be symmetrically arranged in the flange two sides and respectively with first mounting hole and second mounting hole Inner wall is inconsistent.

4. according to claim 3 a kind of for monitoring the device of shaft coupling concentricity, it is characterised in that: first peace The internal diameter of dress hole and second mounting hole is equal.

5. according to claim 1 a kind of for monitoring the device of shaft coupling concentricity, it is characterised in that: the multiple pressure Force snesor is embedded in the outer peripheral surface of the connecting rod and exposes to the shell.

6. according to claim 1 a kind of for monitoring the device of shaft coupling concentricity, it is characterised in that: the multiple pressure Force snesor is distributed in the root of the flange and the both ends of the connecting rod.