CN203534447U - An edge-aligning testing fixture - Google Patents

Abstract

An edge-aligning testing fixture includes a testing fixture body, a reference block and a measuring tool. The testing fixture body is rectangular, and a reference groove is arranged in a left outer side in the lower portion of the testing fixture body. A measuring tool accommodating groove is arranged in the right surface of the upper portion of the testing fixture body. The measuring tool accommodating groove is provided with a perforating hole which perforates to the left sidewall of the upper portion of the testing fixture body. The testing fixture body is also provided with a locating hole arranged to be perpendicular to the perforating hole. The reference block is accommodated inside the reference groove. The reference block is provided with a plurality of fixing holes for the fixation of a plurality of fixing bolts on the testing fixture body. The measuring tool is arranged inside the accommodating groove, and a measurement portion of the measuring tool goes through the perforating hole to extent out from the testing fixture body. The edge-aligning testing fixture of the utility model is simple in operation, high in working efficiency and the edge-aligning testing fixture can satisfy testing demands for batch production; at the same time, measurement data can be reflected visually, and the accuracy degree of the data is high.

Description

Edging cubing

Technical field

Whether the utility model relates to the checking tool of mechanical field, particularly a kind of side that detects workpiece neat edging cubing such as.

Background technology

For example, for two adjacent components (adjacent component of mould bases) are alignd, need to whether the limit of this two adjacent component be alignd and be checked, in conventional art, conventionally by manually adopting micrometric depth gauge or height gauge to measure the edging error between adjacent two plates, and there is following defect in this method:

1, detection efficiency is low, conventionally needs a plurality of steps and personnel to operate;

2, due to be people for operating, influence factor is many, easily in detection, produces larger error;

3, large-scale workpiece is difficult to realize detection.

For this reason, deviser of the present utility model is because above-mentioned defect, by concentrating on studies and designing, is comprehensively engaged in for a long time experience and the achievement of related industry for many years, and research and design goes out a kind of edging cubing, to overcome above-mentioned defect.

Utility model content

A kind of edging cubing is provided during the purpose of this utility model, and it is simple to operate, and work efficiency is high, can meet the detection demand of batch production; Measurement data reflection is simultaneously very directly perceived, and the accuracy of data is higher.

For achieving the above object, the utility model discloses a kind of edging cubing, comprise cubing body, reference block and measurer, it is characterized in that:

Described cubing body is rectangle, its below left-external side is provided with a baseline trough, the right surface of its top is provided with a measurer holding tank, described measurer holding tank has the through hole connecting to the top left side wall of described cubing body, and described cubing body also has the pilot hole arranging perpendicular to described through hole;

Described reference block is placed in described baseline trough, described reference block is provided with a plurality of fixed orifices, for a plurality of set bolts, be fixed on described cubing body, the length of described baseline trough conforms to described reference block with height, thereby reference block is embedded in described baseline trough, the width of described reference block is greater than the degree of depth of described baseline trough, thereby a part for reference block is outwardly from described baseline trough, and the projecting surface of described reference block is reference field;

Described measurer is arranged in described measurer holding tank, and the measurement section of described measurer is passed described through hole to stretch out from described cubing body, and positioning piece is screwed in described pilot hole so that measurer is positioned.

Wherein: described measurer is milscale.

Wherein: described reference block is square body.

Wherein: a plurality of fixed orifices of described reference block are five, be respectively middle fixed orifice in the middle of being positioned at and equi-spaced apart be positioned in the middle of fixed orifice around around four of fixed orifice.

Known by said structure, edging cubing of the present utility model has following technique effect:

1, very simple to operate, without the detection of carrying out professional training and can realize edging;

2, work efficiency is high, and its detection speed is fast, can effectively meet the detection demand of batch production;

3, measurement data reflection is very directly perceived, and the accuracy of data is higher;

4, applied range, also can detect for the edging of high-accuracy mould bases.

Detailed content of the present utility model can obtain by explanation described later and institute's accompanying drawing.

Accompanying drawing explanation

Fig. 1 is the vertical view of the utility model edging cubing;

Fig. 2 be the utility model edging cubing view;

Fig. 3 is the side view of the utility model edging cubing;

Fig. 4 is the schematic diagram of the utility model reference block;

In figure, 11-cubing body, 12-baseline trough, 13-measurer holding tank, 14-through hole, 141-pilot hole; 15-reference block, fixed orifice in the middle of 151-, 152-is fixed orifice around, 16-set bolt.

Embodiment

Below in conjunction with drawings and Examples, embodiment of the present utility model is further described, following examples are only for the technical solution of the utility model is more clearly described, and can not limit protection domain of the present utility model with this.

As shown in Figure 1 to Figure 3, the concrete technical scheme of implementing of the utility model is: edging cubing, comprises cubing body 11, reference block 15 and measurer.

Wherein, described cubing body 11 is rectangle, its below left-external side is provided with a baseline trough 12, the right surface of its top is provided with a measurer holding tank 13, described measurer holding tank 13 has the through hole 14 connecting to the top left side wall of described cubing body 11, and described cubing body 11 also has the pilot hole 141 arranging perpendicular to described through hole 14.

Wherein, described reference block 15 is placed in described baseline trough 12, described reference block 15 is provided with a plurality of fixed orifices, for a plurality of set bolts 16, be fixed on described cubing body 11, the length of described baseline trough 12 conforms to described reference block 15 with height, thereby reference block 15 is embedded in described baseline trough 12, and the width of described reference block 15 is greater than the degree of depth of described baseline trough 12, thereby a part for reference block 15 is outwardly from described baseline trough 12, the projecting surface of described reference block 15 is reference field.

Wherein, described measurer (not shown) is arranged in described measurer holding tank 13, and the measurement section of described measurer is passed described through hole 14 to stretch out from described cubing body 11, and positioning piece is screwed in described pilot hole 141 so that measurer is positioned.

Preferably, described measurer is milscale.

Referring to Fig. 4, described reference block 15 can be square body, a plurality of fixed orifices on it are five, be respectively middle fixed orifice 151 in the middle of being positioned at and equi-spaced apart be positioned in the middle of fixed orifice around around four of fixed orifice 151, thereby reference block 15 can accurately be fixed on cubing body 11, and stress equalization, avoids the reference field of reference block 15 to exert an influence, guaranteed the accurate and precision detecting.

Introduce concrete application of the present utility model below:

As carried out the both sides neat detection such as whether, measurer (as milscale) can be put into behind measurer holding tank location, the reference field of the reference block 15 of the application's edging cubing is posted by the limit of a workpiece, and make the measurement section that measurer stretches out be posted by this limit, to obtain the initial value of measurer, then reference field is remained on to the limit of this workpiece, and the measurement section of measurer is posted by the limit of another workpiece, after reading numerical values, compare with initial value, can obtain the difference on both sides, and pass through the measurement section of measurer in the movement on the limit of another workpiece, also can obtain the depth of parallelism on the limit of two workpiece.

As can be seen here, the utility model has the advantage of:

1, very simple to operate, without the detection of carrying out professional training and can realize edging;

2, work efficiency is high, and its detection speed is fast, can effectively meet the detection demand of batch production;

3, measurement data reflection is very directly perceived, and the accuracy of data is higher;

4, applied range, also can detect for the edging of high-accuracy mould bases.

The above is only preferential embodiment of the present utility model; should be understood that; for those skilled in the art; do not departing under the prerequisite of the utility model know-why; can also make some improvements and modifications, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims (4)

1. an edging cubing, comprises cubing body, reference block and measurer, it is characterized in that:

Described cubing body is rectangle, its below left-external side is provided with a baseline trough, the right surface of its top is provided with a measurer holding tank, described measurer holding tank has the through hole connecting to the top left side wall of described cubing body, and described cubing body also has the pilot hole arranging perpendicular to described through hole;

Described reference block is placed in described baseline trough, described reference block is provided with a plurality of fixed orifices, for a plurality of set bolts, be fixed on described cubing body, the length of described baseline trough conforms to described reference block with height, thereby reference block is embedded in described baseline trough, the width of described reference block is greater than the degree of depth of described baseline trough, thereby a part for reference block is outwardly from described baseline trough, and the projecting surface of described reference block is reference field;

Described measurer is arranged in described measurer holding tank, and the measurement section of described measurer is passed described through hole to stretch out from described cubing body, and positioning piece is screwed in described pilot hole so that measurer is positioned.

2. edging cubing according to claim 1, is characterized in that: described measurer is milscale.

3. edging cubing according to claim 1 and 2, is characterized in that: described reference block is square body.

4. edging cubing according to claim 3, is characterized in that: a plurality of fixed orifices of described reference block are five, be respectively middle fixed orifice in the middle of being positioned at and equi-spaced apart be positioned in the middle of fixed orifice around around four of fixed orifice.

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