CN210952685U - Polygonal conductor crimping opposite distance measuring device - Google Patents

Abstract

The utility model relates to a polygon wire crimping is to interval measuring device, two card arms are distributing and are being the measuring module that regular polygon arranged, and the card arm folds the back, and the measuring module of symmetry distributes and supports each limit of leaning on the cable that awaits measuring, measures all relative both sides of the cable that awaits measuring simultaneously through the measuring module of symmetry, and it is high to have detection efficiency, and the measuring result stabilizes the advantage that the credibility is high.

Description

Polygonal conductor crimping opposite distance measuring device

Technical Field

The application belongs to the technical field of measuring equipment, and particularly relates to a polygonal wire crimping opposite distance measuring device.

Background

To join cables to form a unitary body, one common method of joining is to crimp the cables together. The cross section of the crimp cable is generally in a regular hexagon shape, and one of the indexes for detecting whether the crimp is qualified is that three pairs of side distances of the regular hexagon in the cross section meet corresponding technical parameter standards. The traditional method for detecting the edge distance of the crimped cable is that an operator directly measures the edge distance by using a corresponding traditional measuring tool, and under the condition that the operator works for a long time, unnecessary measuring errors or even measuring errors can be brought to measurement due to eye fatigue. Or a large-scale equipment instrument is adopted for detection, although the method can meet the requirement on precision, the operation is complex in most of the time, the detection efficiency is low, and therefore the detection equipment which does not need excessive participation of operators in the test process and is simple to operate is very necessary.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: in order to solve the defects in the prior art, the device and the method for measuring the edge distance of the polygonal crimping cable are high in detection efficiency.

The utility model provides a technical scheme that its technical problem adopted is:

a polygonal crimp cable-to-pair distance measuring device comprising:

a handle;

two latch arms, one or both of which are rotatably disposed on the handle;

the even number of measuring modules are respectively arranged on the two clamping arms, and the measuring modules are capacitive grating displacement sensors;

the clamping arms can be far away from each other and can be folded, and when the two clamping arms are folded, the clamping arms form regular polygon arrangement;

the measurement module includes: the support, set up on the support can be along axial motion be used for supporting the gauge head that lives the cable surface that awaits measuring for the displacement measurement device of response gauge head displacement.

Preferably, the utility model discloses a polygon crimping cable is to range measurement device, the gauge head passes through reset spring and leg joint, so that the gauge head resets.

Preferably, the utility model discloses a polygon crimping cable is to distance measuring device, two the card arm passes through the elastic component and connects, the elastic component to the card arm is applyed and is made two the power that the card arm folds.

Preferably, the utility model discloses a polygon crimping cable is to distance measuring device, measuring device still includes the handle of being connected with the card arm, and the user grips the handle so that one of them card arm rotates and keeps away from another card arm.

Preferably, the utility model discloses a polygon crimping cable is to distance measuring device, measuring module is 6.

Preferably, the utility model discloses a polygon crimping cable is to distance measuring device, measuring device still includes the electron part, and the electron part includes:

the signal receiving module is used for receiving the displacement value sent by the displacement sensor;

the calculation module is used for obtaining a measurement result according to the displacement value;

the storage module is used for storing the displacement value and/or the measurement result;

the display module is used for displaying the displacement value and/or displaying whether the measurement result is qualified;

and the communication module is used for sending the measurement result to the upper computer and receiving the feedback information of the upper computer.

The utility model has the advantages that:

the utility model discloses a polygon crimping cable is to spacing measuring device, two card arms are distributing and are being the measuring module that regular polygon was arranged, and the card arm folds the back, and the measuring module of symmetry distributes and supports each limit of leaning on the cable that awaits measuring, measures the opposite side spacing on all relative both sides of the cable that awaits measuring simultaneously through the measuring module of symmetry, and it is high to have detection efficiency, and the measuring result stabilizes the advantage that the credibility is high.

Drawings

The technical solution of the present application is further explained below with reference to the drawings and the embodiments.

Fig. 1 is a schematic structural view of a polygonal crimped cable with an opened distance measuring device according to an embodiment of the present application;

FIG. 2 is a schematic structural diagram of a polygonal crimped cable after being folded with respect to the edge distance measuring device according to an embodiment of the present disclosure;

FIG. 3 is a schematic structural diagram of a measurement module according to an embodiment of the present application;

FIG. 4 is a schematic diagram of a measurement method of an embodiment of the present application;

fig. 5 is a flowchart of a measurement method according to an embodiment of the present application.

The reference numbers in the figures are:

1, a handle;

2, clamping an arm;

3, a measuring module;

4, a handle;

5, an elastic piece;

9, a cable to be tested;

31 a support;

32 measuring heads;

33 a displacement measuring device;

34 return spring.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

In the description of the present application, it is to be understood that the terms "center," "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings for convenience in describing the present application and for simplicity in description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated in a particular manner, and are not to be considered limiting of the scope of the present application. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the invention, unless otherwise specified, "a plurality" means two or more.

In the description of the present application, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art through specific situations.

The technical solutions of the present application will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

Example 1

The present embodiment provides a device for measuring a pair of pitches of a polygonal crimped cable, as shown in fig. 1, including:

a handle 1;

two catch arms 2, one or both of which are rotatably provided on the handle 1;

the even number of measuring modules 3 are respectively arranged on the two clamping arms 2, and the measuring modules 3 are capacitance grid displacement sensors;

the clamping arms 2 can be far away from each other and can be folded, and when the two clamping arms 2 are folded, the clamping arms 2 form regular polygon arrangement;

the measurement module 3 includes: the device comprises a bracket 31, a measuring head 32 which is arranged on the bracket 31 and can move along the axial direction and is used for abutting against the surface of a cable to be measured, and a displacement measuring device 33 used for sensing the moving distance of the measuring head 32.

The polygon crimping cable of above-mentioned embodiment is to margin distance measuring device, and two card arms 2 are distributing and are being the measuring module 3 that regular polygon arranged, and card arm 2 folds the back, and the measuring module 3 of symmetry distributes and supports each limit of leaning on the cable that awaits measuring, measures all relative both sides of the cable that awaits measuring simultaneously through the measuring module 3 of symmetry, has detection efficiency height, and the stable credibility of measuring result is high advantage.

The gauge head 32 is connected to the holder 31 by a return spring 34 to return the gauge head 32.

The number of the clamp arms 2 may be 4, 6, 8, etc., and generally, the crimp cables are all 6-sided, and therefore, the number of the clamp arms 2 is 6.

Each clamping arm 2 is in a semicircular ring shape, the measuring heads 32 are uniformly distributed on the clamping arms 2, when the two clamping arms 2 are folded, the clamping arms 2 are arranged in a regular polygon shape, for example, 4 measuring heads 32 are arranged in a square shape, and 6 measuring heads are arranged in a hexagon shape.

Preferably, the two clamping arms 2 are connected through an elastic member 5, and the elastic member 5 applies a force to the clamping arms 2 to close the two clamping arms 2, so as to ensure that the measuring head 32 can completely cling to the cable 9 to be measured when the clamping arms 2 are closed.

Preferably, the polygonal crimp cable-to-space measuring device further comprises a handle 4 connected to the clamp arms 2, so that a user can conveniently hold the handle 4 to rotate one of the clamp arms 2 away from the other clamp arm 2.

The method abandons the measurement mode that the original vernier caliper can only measure one pair of side distances at a time, adopts a 'shear type' mechanical structure, and simultaneously carries out multiple pairs of side distances to measure. On one hand, the method utilizes a 'shear type' mechanical structure, so that the operation is convenient and efficient; on the other hand, a plurality of pairs of edge distances are measured simultaneously, so that the probability of missed detection and false detection of the edge distances is greatly reduced, and the real-time reliability of the measured data is ensured.

The specific measurement method of this patent will be described below by taking a set of pairs of distance measurements as an example:

as shown in fig. 4, when measurement is not performed initially, power-on zero clearing needs to be performed first, and then a standard component needs to be clamped for calibration;

the initial distance between two opposed measuring heads 32 is d₀After a standard part with the edge distance D is clamped on the measuring device, the two measuring heads 32 are respectively compressed outwards by the displacement delta D₁₀And Δ d₂₀Then, there is the relation: d₀＝D－Δd₁₀－Δd₂₀Thus, the initial distance d can be obtained₀The specific numerical values of (a);

the standard part is taken down, the measurement of the cable 9 to be measured can be carried out, and the edge distance is d_xThe cable to be measured is clamped on the measuring device, and the displacement of the two measuring heads is delta d respectively₁And Δ d₂And then the opposite side distance of the cable to be measured is as follows: d_x＝d₀+Δd₁+Δd₂。)

The whole measurement process is shown in fig. 5.

The polygonal crimping cable opposite-side distance measuring device is further provided with an electronic part to realize automatic execution and digital display of the measuring process, and has a data transmission function to store and send the measured value to a cloud end or other intelligent devices.

The electronic part specifically comprises:

the signal receiving module is used for receiving the displacement value sent by the displacement sensor;

the calculation module is used for obtaining a measurement result according to the displacement value; the signal receiving module and the calculating module can be the same chip and are used for receiving displacement level data sent by the capacitive grating displacement sensor and resolving high and low levels into actual measurement values.

The storage module is used for storing the displacement value and/or the measurement result, such as storage of an SD card and the like, and can be conveniently checked by an operator through storing the measurement data with the latest data;

the display module is used for displaying the displacement value and/or displaying whether the measurement result is qualified or not, and is generally an LCD display screen;

and the communication module uses a wireless WiFi module and is used for generating a measuring result to the upper computer and receiving feedback information sent by the upper computer.

The method for measuring the distance between the polygonal crimped cable and the pair of the polygonal crimped cables in the device in the embodiment 1 specifically comprises the following steps:

a calibration step: placing the standard part between two clamping arms, folding the clamping arms to enable all measuring heads to contact the surface of the standard part, recording displacement distances of all measuring heads, obtaining the distances between all opposite measuring heads, and then taking away the standard part; during calibration, the distance between all the opposite measuring heads is d₀，d₀＝D－Δd₁₀－Δd₂₀(ii) a Wherein D is the distance between two opposite sides of the standard, Δ D₁₀And Δ d₂₀The displacement amounts of two opposite measuring heads when the standard part is measured are respectively.

A measurement step: placing the cable to be tested between two clamping arms, folding the clamping arms to enable all measuring heads to contact the surface of the cable to be tested, recording displacement distances of all measuring heads, and calculating the edge distance of each opposite edge of the cable to be tested according to the distance between the opposite measuring heads; opposite side distance d of cable to be measured_xComprises the following steps: d_x＝d₀+Δd₁+Δd₂，Δd₁And Δ d₂The displacement of two opposite measuring heads is measured when the cable to be measured is measured.

A judging step: and judging whether the opposite side distance of each group of opposite sides meets the technical parameter standard.

When measuring hexagons, 3 sets of edge distances will occur.

In light of the foregoing description of the preferred embodiments according to the present application, it is to be understood that various changes and modifications may be made without departing from the spirit and scope of the invention. The technical scope of the present application is not limited to the contents of the specification, and must be determined according to the scope of the claims.

Claims (6)

1. The utility model provides a polygon wire crimping is to distance measuring device which characterized in that includes:

a handle;

two latch arms, one or both of which are rotatably disposed on the handle;

the even number of measuring modules are respectively arranged on the two clamping arms, and the measuring modules are capacitive grating displacement sensors;

the clamping arms can be far away from each other and can be folded, and when the two clamping arms are folded, the clamping arms form regular polygon arrangement;

the measurement module includes: the support, set up on the support can be along axial motion be used for supporting the gauge head that lives the cable surface that awaits measuring for the displacement measurement device of response gauge head displacement.

2. The polygonal wire crimping edge distance measuring device according to claim 1, wherein the measuring head is connected with a bracket through a return spring to return the measuring head.

3. The polygonal wire crimping pair edge distance measuring device according to claim 1, wherein the two clamp arms are connected by an elastic member, and the elastic member applies a force to the clamp arms to close the two clamp arms.

4. The polygonal wire crimp pair edge distance measuring device of claim 1, further comprising a handle connected to the latch arms, the handle being held by a user to rotate one of the latch arms away from the other latch arm.

5. The polygonal wire crimping pair edge distance measuring device according to claim 1, wherein the number of the measuring modules is 6.

6. The polygonal wire crimping pair edge distance measuring device according to any one of claims 1 to 5, wherein the measuring device further comprises an electronic part, the electronic part comprising:

the signal receiving module is used for receiving the displacement value sent by the displacement sensor;

the calculation module is used for obtaining a measurement result according to the displacement value;

the storage module is used for storing the displacement value and/or the measurement result;

the display module is used for displaying the displacement value and/or displaying whether the measurement result is qualified;

and the communication module is used for generating a measurement result to the upper computer and receiving feedback information of the upper computer.

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