CN212567185U - Caliper gauge - Google Patents

Abstract

The utility model discloses a caliper gauge, which comprises an upper body and a lower body which are arranged at intervals up and down, wherein the upper body is rotatably connected with the lower body through a lever pin positioned at the middle position of the lower body; the front end of the lower body is fixedly connected with a lower bayonet extending forwards, and the lower bayonet is provided with a planar plane measuring head; the rear end of the lower body is fixedly connected with a measuring block, and the upper surface of the measuring block is abutted against a measuring head of the dial indicator; the front end of the upper body is embedded with a spherical measuring head; an installation seat is fixed above the rear end of the upper body, the installation seat is fixedly connected above a side lever of the dial indicator, and the vertical moving distance of the installation seat can be measured through the dial indicator; the upper surface of the measuring block, the axle center of the lever pin and the sphere center of the spherical measuring head are all on the same horizontal line. The problem of traditional form band table snap gauge measure the time working opening be two planes that change, so it can not measure the size between two parallel planes is solved.

Description

Caliper gauge

Technical Field

The utility model relates to a length measurement technical field, concretely relates to caliper gauge.

Background

The working opening of the traditional form snap gauge with the meter is two parallel planes when the gauge is not measured, and when the gauge is used for measuring the diameter of the shaft, the two parallel planes of the working opening are inclined due to the change of the diameter of the shaft, so the traditional form snap gauge with the meter has a positioning block which acts to ensure that the distances from a measuring point of the diameter of the shaft to a lever pin and the distances from the lever pin to a dial indicator are approximately equal, so the measuring precision can be ensured, and the working opening of the traditional form snap gauge with the meter is two changed planes when the gauge is used for measuring, so the gauge cannot measure the dimension between the two parallel planes.

For example, the working opening is two changed planes in a Chinese utility model patent with an authorization publication number of CN207635974U, an application date of 2017, 12 and 21, and a name of 'a reading caliper gauge for measuring shaft dimensions'. And the patent of the Chinese utility model with the publication number of CN205940325U, the application date of 2016, 8 and 3, and the name of 'a card gauge with a meter', the working opening is two changed planes.

However, when various parts are inspected on site, the work of measuring the length and the shaft diameter is generally inseparable, such as the shaft diameter and the shaft length. The tools used are two types of tools which are completely different, and the operation and measurement processes of the two types of tools which are completely different need to be carried out, so that the working efficiency is reduced. In particular, length tools, such as vernier calipers, require a main scale with a static jaw and a vernier with a dynamic jaw that slides along the main scale to manually push the dynamic jaw to fit the measured size of the workpiece. And when the caliper gauge is used for measurement, the outer circumferential surface of the test piece is placed in a measurement space, the dial indicator is used for reading, and the workers are switched in different operation processes.

In view of the foregoing, there is a need for a caliper gauge capable of measuring length with high accuracy and convenient use.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a quick, accurate caliber of measuring length.

In order to achieve the above purpose, the invention provides the following technical scheme:

a caliper, comprising:

the dial gauge comprises an upper body, a lower body and a dial gauge arranged on the upper body;

the upper body and the lower body are arranged at intervals up and down, and the upper body is rotatably connected with the lower body through a lever pin positioned in the middle of the lower body;

the front end of the lower body is fixedly connected with a lower bayonet extending forwards, and the lower bayonet is provided with a planar measuring head;

the rear end of the lower body is fixedly connected with a measuring block, and the upper surface of the measuring block is abutted against a measuring head of the dial indicator;

a spherical measuring head is embedded at the front end of the upper body;

a gauge clamp is fixed above the rear end of the upper body, the gauge clamp is fixedly connected above a side lever of the dial indicator, and the vertical moving distance of the gauge clamp can be measured through the dial indicator;

the upper surface of the measuring block, the axle center of the lever pin and the sphere center of the spherical measuring head are all on the same horizontal line;

the horizontal distance from the spherical measuring head to the lever pin is equal to the horizontal distance from the lever pin to the dial indicator measuring head;

a through hole is formed in the middle of the lower body, and a handle is formed at the rear end of the lower body;

a cavity is formed in the connecting part of the upper part of the lower body and the lower part of the upper body and used for mounting a C-shaped spring;

a pair of vertically arranged hanging pins are respectively fixed on the lower body and the upper body and are symmetrically arranged relative to the lever pin;

an opening with a small outer part and a large inner part is processed on the C-shaped spring, a through groove with an inward inclination is processed in the middle of the hanging pin, the opening of the C-shaped spring is clamped in the through groove, and the C-shaped spring is connected with the two hanging pins into a whole under the elastic force action of the C-shaped spring.

Further, the upper body is connected with the upper part of the hook in the cavity;

the middle position of the hook hand is provided with a chute, and the lower body is fixedly connected with a hook hand sliding pin in the cavity;

the lower part of the hook is exposed in the through hole of the lower body;

the hook hand and the spherical measuring head are distributed on two sides of the lever pin;

the hook is pulled by external force, and the hook sliding pin can move in the chute.

Furthermore, the lower bayonet is detachably connected with a plane measuring block capable of providing a plane measuring head through a bolt.

In the technical scheme, the utility model provides a pair of calliper gauge changes the activity measuring surface of traditional survey shaft diameter into the arc surface by the plane, and the arc surface central line equals to the distance of lever round pin central line and lever round pin central line amesdial measuring point, and the fixed measuring claw, plane measuring head design into the plane promptly when measuring, and when thickness size change, the arc surface center of measuring claw arc surface equals with thickness size change. When the caliper gauge can measure the length, the caliper gauge has the same operation process as a caliper gauge tool for measuring the shaft diameter, and only a workpiece needs to be placed into the caliper gauge tool, so that the dial indicator can automatically read.

Drawings

In order to more clearly illustrate the embodiments of the present application or technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to the drawings.

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

FIG. 2 is a schematic view of the lower body structure of the present invention;

FIG. 3 is a schematic view of the lower bayonet structure of the present invention;

FIG. 4 is a schematic view of the wedge structure of the present invention;

fig. 5 is a schematic structural view of the C-shaped spring and the hanging pin of the present invention;

fig. 6 is a schematic side view of the upper body of the present invention;

fig. 7 is a schematic top view of the upper body of the present invention;

fig. 8 is a schematic structural view of the measurement principle of the present invention;

fig. 9 is a schematic view of the measurement accuracy structure of the present invention.

Description of reference numerals:

1. a lower body; 2. a lower bayonet; 3. a wedge block; 4. a wedge screw; 8. a cylindrical pin; 9. hanging a pin; 10. A lever pin; 11. an upper body; 12. a limit screw; 13. a C-shaped spring; 14. hooking the hand; 15. hooking a sliding pin; 16. a fixing pin; 17. a watch clip; 21. a measuring block; 110. a spherical measuring head; 100. a planar measuring head.

Detailed Description

In order to make the technical solution of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings.

As shown in fig. 1-9, an embodiment of the present invention provides a caliper gauge, which mainly includes:

the device comprises an upper body 11, a lower body 1 and a dial indicator arranged on the upper body 11;

the upper body 11 and the lower body 1 are arranged at intervals up and down, and the upper body 11 is rotatably connected with the lower body 1 through a lever pin 10 positioned in the middle of the lower body 1;

the front end of the lower body 1 is fixedly connected with a lower bayonet 2 extending forwards, and the lower bayonet 2 is provided with a planar plane measuring head 100;

the rear end of the lower body 1 is fixedly connected with a measuring block 21, and the upper surface of the measuring block 21 is abutted against a measuring head of a dial indicator;

the front end of the upper body 11 is embedded with a spherical measuring head 110;

a gauge clamp 17 is fixed above the rear end of the upper body 11, the gauge clamp 17 is fixedly connected above a side lever of the dial indicator, and the vertical moving distance of the gauge clamp 17 can be measured through the dial indicator;

the upper surface of the measuring block 21, the axle center of the lever pin 10 and the sphere center of the spherical measuring head 110 are all on the same horizontal line;

the horizontal distance from the spherical measuring head 110 to the lever pin 10 is equal to the horizontal distance from the lever pin 10 to the measuring head of the dial indicator;

a through hole is formed in the middle of the lower body 1, and a handle is formed at the rear end of the lower body 1;

a cavity is formed at the connecting part of the upper part of the lower body 1 and the lower part of the upper body for mounting a C-shaped spring 13;

a pair of vertically arranged hanging pins 9 are respectively fixed on the lower body 1 and the upper body 11 and are symmetrically arranged relative to the lever pin 10;

an opening with a small outside and a large inside is processed on the C-shaped spring 13, a through groove with an inward inclination is processed in the middle of the hanging pin 9, the opening of the C-shaped spring 13 is clamped in the through groove, and the C-shaped spring 13 is connected with the two hanging pins 9 into a whole under the elastic force action.

A groove for installing the lower jaw 2 is processed on the lower body 1, the lower jaw 2 is installed in the groove, and a wedge screw penetrates through a wedge 3 and is fastened on the lower body 1, so that the lower body 1 and the lower jaw 2 are integrated. The detachable connection of the lower jaw 2 to the lower body 1 is common knowledge in the art and will not be described in detail here. The middle of the lower body 1 is provided with a through hole as a hand-held part of the handle; the upper portion of the lower body 1 and the lower portion middle connecting portion of the upper body 11 are provided with cavities, the C-shaped springs 13 are connected with the hanging pins 9 of the two C-shaped springs and arranged in the cavities, the C-shaped springs 13 are provided with openings which are small in outside and large in inside, the middle portions of the hanging pins 9 of the C-shaped springs are provided with through grooves which are inwards inclined, the shaft ends of the hanging pins 9 of the two C-shaped springs are connected and symmetrically arranged, bayonets of the C-shaped springs 13 are clamped in the through grooves in the middle portions of the hanging pins 9 of the C-shaped springs, the hanging pins 9 of the two C-shaped springs are connected into a whole under the elastic action of the C-shaped springs 13, and the hanging pins 9 are fixed in the upper body 11.

The preferred diameter of lever pin 10 is 3mm, puts 1R 1.5 on the lower terminal surface of last body 11 and lower body 1 up end and lacks half circular groove, and another peg 9 inlays on body 1 down and arranges with the peg 9 symmetry of top. The lower body 1 can perform lever rotation with the lever pin 10 as a fulcrum. The mounting of the lever pin 10 is prior art in the field and is not described in detail here.

The upper body 11 is connected with the upper part of the hook 14 in the cavity; the middle position of the hook 14 is provided with a chute, and the lower body 1 is fixedly connected with a hook sliding pin 15 in the cavity; the lower part of the hook 14 is exposed in the through hole of the lower body 1; the hook 14 and the spherical measuring head 110 are distributed on two sides of the lever pin 10; the hook 14 is pulled by external force, and the hook sliding pin 15 can move in the chute. Collude hand 14 and install under in body 1 and last body 11 cavity, collude 14 upper portion and penetrate body 11 with phi 3mm fixed pin 16, during the lower part penetrates body 1 with phi 3mm colludes hand sliding pin 15, collude the pinhole of 14 lower parts of hand and be the wide chute of 3mm, collude hand sliding pin 15 with phi 3mm and link to each other with body 1 down, collude when hand 14, phi 3mm colludes hand sliding pin 15 and can move in the wide chute of 3mm and drive body 11 switch. As shown in fig. 1, the hook 14 is released, the upper body 11 and the lower body 1 are placed in parallel, the hook 14 is moved, the vertical distance between the fixing pin 16 and the lower body 1 is reduced due to the inclined slot and the guiding function of the hook sliding pin 15 in the inclined slot, the front end of the upper body 11 is lifted upwards to facilitate the placing of the workpiece, and the spherical measuring head 110 of the upper body 11 is abutted above the workpiece when the hook is released.

The lever pin 10 is the axle center of last body 11 and lower body 1, and wherein the distance of measuring point to the axle center equals with table to the axle center distance, all has R1.5 to lose half slot on last body 11 and the lower body 1, and is gapped between them, goes up body 11 and lower body 1 and swings around lever pin 10.

The gauge clamp 17 is fixed above the rear end of the upper body 11, the gauge clamp 17 is fixedly connected above a side rod of the dial gauge, the lower part of the side plate extends to the upper surface of the measuring block 21, and the gauge clamp 17 rotates along with the upper body. Therefore, the upper body 11 has a position change, and the distance change between the upper surface of the measuring block 21 and the rear end of the upper body 11 can be displayed through the length change of the dial indicator side rod. The mounting of the dial gauge is common knowledge in the art and is not described here in detail.

The upper body 11 is provided with a limit screw 12 which is contacted with the front end of the lower body 1. The rear end of the lower body 1 is fixed with a measuring block 21, the measuring block 21 is contacted with a measuring head of a dial indicator, and the measuring block 21, the axle center of the lever pin and the sphere center of the spherical measuring head 110 are on the same plane.

The middle part of a hanging pin 9 of the C-shaped spring is perpendicular to a through groove cut by an axis, one side surface and the bottom surface of the through groove are smaller than 90 degrees, one side surface and the bottom surface are larger than 90 degrees, and the other side surface is parallel to the axis. Taking the hanging pin 9 installed on the upper body as an example, a through groove with a trapezoidal section is formed on the hanging pin 9; however, in order to clamp the opening of the C-shaped spring, the opening of the C-shaped spring is formed by two inclined planes; one side surface of the through groove is required to be provided with an inclined surface which is consistent with the inclined direction of the opening of the C-shaped spring, so that the side surface and the bottom surface are less than 90 degrees. I.e. the end of the groove of each peg 9 facing the C-spring is open larger than the bottom of the groove. The opening distance of the C-shaped spring is that the opening distance of the position with the larger diameter is smaller than that of the position with the smaller diameter, and the C-shaped spring and the hanging pin 9 form a wedge-shaped clamping connection. At the beginning, the elasticity of C type spring lets the opening press from both sides tightly two and hang round pin 9, and because the design of inclined plane, the difficult level drunkenness in C type spring's position again. The snap-fit positioning of the C-spring is common knowledge in the field of C-springs and is not described here in any greater detail.

When the size is measured, the measuring device takes the lever pin 10 as a measuring point of an axis, and the horizontal distance A from the spherical measuring head 110 to the lever pin 10 is equal to the horizontal distance B from the lever pin 10 to a measuring head of a dial indicator; the upper body 11 is an equidistant lever structure, and when the size of the measured piece changes, the upper body 11 swings around the lever pin 10 to transmit the length size change 1:1 to the dial indicator to display numerical values.

The measuring force is controlled and adjusted by the C-shaped spring 13, the size of the measuring force can be controlled by the size of a cut of the C-shaped spring 13, the plastic rejection problem does not exist, a hook 14 structure is adopted, the hook 14 holds the body 11 to be in a lifting state during measurement, the size of the bayonet is larger than that of a measured product, the measured product is placed at the measuring position of the lower bayonet 2 and the spherical measuring head 110 and then the hook 14 is released, the spherical measuring head 110 on the upper body 11 falls onto the surface of the measured product, the measured size is measured, the phenomenon that the bayonet slides on the surface of the product when the body 11 is measured on a traditional caliper, and the surface of the measured part is scratched when the size is changed from small to large is avoided.

The axis of the lever pin is used as a circle center O, the initial position of a spherical measuring head for measuring the standard workpiece is D, the position of the workpiece to be measured is exemplarily explained by the size of the workpiece larger than the standard workpiece by 1mm (CE is 1mm), the actual position of the corresponding spherical measuring head is C, and CE is the vertical distance from the corresponding spherical measuring head to an OD straight line.

Preferably, the horizontal distance from the spherical measuring head to the lever pin is 50 mm.

Then the process of the first step is carried out,

it can be seen that CD ≈ CE

The upper body 11 and the lower body 1 swing around the lever pin 10, even if the dial indicator measures the CD variation value, the variation value can be highly similar to the CE variation value. The caliper gauge has high sensitivity and can quickly reflect the error between a measured workpiece and a standard workpiece.

The caliper gauge has the advantages of rapid measurement, measurement accuracy of 0.001 mm, visibility of an operator to the control of the product size, capability of avoiding the occurrence of waste products and small influence of human factors. The operation process is similar to that of a caliper gauge for measuring angles, so that the productivity is improved.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims (3)

1. A caliper, comprising: the device comprises an upper body (11), a lower body (1) and a dial indicator arranged on the upper body (11);

the upper body (11) and the lower body (1) are arranged at intervals up and down, and the upper body (11) is rotatably connected with the lower body (1) through a lever pin (10) positioned in the middle of the lower body (1);

the front end of the lower body (1) is fixedly connected with a lower bayonet (2) extending forwards, and the lower bayonet (2) is provided with a planar plane measuring head (100);

the rear end of the lower body (1) is fixedly connected with a measuring block (21), and the upper surface of the measuring block (21) is abutted to a measuring head of the dial indicator;

a spherical measuring head (110) is embedded at the front end of the upper body (11);

a gauge clamp (17) is fixed above the rear end of the upper body (11), and the gauge clamp (17) is fixedly connected above a side lever of the dial indicator;

the upper surface of the measuring block (21), the axle center of the lever pin (10) and the sphere center of the spherical measuring head (110) are all on the same horizontal line;

the horizontal distance from the spherical measuring head (110) to the lever pin (10) is equal to the horizontal distance from the lever pin (10) to the dial indicator measuring head;

a through hole is formed in the middle of the lower body (1), and a handle is formed at the rear end of the lower body (1);

cavities are formed in the parts, correspondingly connected, of the upper part of the lower body (1) and the lower part of the upper body (11) and used for mounting a C-shaped spring (13);

a pair of vertically arranged hanging pins (9) are respectively fixed on the lower body (1) and the upper body (11) and are symmetrically arranged relative to the lever pin (10);

an opening with a small outer part and a large inner part is processed on the C-shaped spring (13), a through groove with an inward inclination is processed in the middle of the hanging pin (9), the opening of the C-shaped spring (13) is clamped in the through groove, and the C-shaped spring (13) is connected with the two hanging pins (9) into a whole under the action of elasticity.

2. The calliper according to claim 1, characterised in that the upper body (11) is connected to the upper part of a hooking hand (14) inside the cavity;

a chute is formed in the middle of the hook (14), and a hook sliding pin (15) is fixedly connected to the lower body (1) in the cavity;

the lower part of the hook hand (14) is exposed in the through hole of the lower body (1);

the hook hand (14) and the spherical measuring head (110) are distributed on two sides of the lever pin (10);

the hook hand (14) is pulled by external force, and the hook hand sliding pin (15) can move in the chute.

3. The calliper according to claim 1, wherein the lower bayonet (2) is removably connected by means of a bolt to a plane measuring block able to provide a plane measuring head (100).

Images