CN203822777U - Quick connection structure for detection tool - Google Patents

Abstract

The utility model discloses a quick connection structure for a detection tool. The quick connection structure for the detection tool comprises a first connecting seat and a second connecting seat connected onto the first connection seat, wherein at least one guide hole and at least two positioning holes are formed in the upper surface of the first connecting seat; a guide shaft and positioning pins which respectively correspond to the guide hole and the positioning holes are respectively arranged on the lower surface of the second connecting seat; the positioning pins extend into the positioning holes; the guide shaft extends into the guide hole and is locked by a locking mechanism arranged on the first connecting seat; the lower surface of the second connecting seat is fitted with the upper surface of the first connecting seat; butting structures used for connecting external equipment are arranged on both the first connecting seat and the second connecting seat. According to the quick connection structure for the detection tool, the quick disassembling and connecting between the detection tool and a support seat or a detection platform can be realized; meanwhile, the accuracy of the detection tool can be ensured; the replacement time and the labor intensity of the detection tool are reduced; the operation is simple and convenient; the time consumption for connecting and disconnecting is short; the work efficiency is improved.

Description

Cubing fast joint structure

Technical field

The utility model relates to detection technique field, is specifically related to the cubing fast joint structure of rapid installing/dismounting between a kind of bearing of being convenient to cubing and installation cubing.

Background technique

Cubing is that a kind of being used for measured and the dedicated inspection device of evaluating parts size quality.When part is fixed in cubing exactly, by estimating or by instruments of inspections such as meter, slide calliper rule and inspection pins, hole in piece part position, profile, periphery being tested, can reasonably measure the geometric parameter of part.Before trial production of new products and volume production, cubing, as the benchmark of exemplar, has substantial directive significance.

As automotive field, in the trial-production of vehicle body and volume production process, can use all types of, a fairly large number of cubing, and detection to identical product, may use different multiple cubings, if each cubing is fixedly mounted on a bearing, cost is too high, and it is large to take up room, traditional method is, cubing is respectively installed in fixing detection platform or bearing, after this product has detected, pulling down again these cubings changes another batch of cubing and detects, although do not need to regulate again bearing and detection platform in the process of switching in cubing, but between traditional cubing and bearing or detection platform, dismounting and installation are relatively wasted time and energy, and the installation of cubing will ensure higher precision, therefore to ensure under the condition of cubing installation precision, realize quick-detachment and the installation of cubing, be cubing be switching to fast the problem of needing solution badly.

The deficiencies in the prior art are: between existing cubing and cubing erection support, mount and dismount cumbersomely, consuming time longer, and each cubing all will recalibrate after installing, complicated operation.

Model utility content

The purpose of this utility model is to provide one to be convenient to installation and removal fast between cubing and bearing, carries out the cubing fast joint structure switching fast.

For achieving the above object, the technical solution of the utility model is as follows: a kind of cubing fast joint structure, comprise the first connecting base and be arranged on the second connecting base on the first connecting base, described the first connecting base upper surface offers at least one pilot hole and at least two positioning holes, on described the second connecting base lower surface, be provided with corresponding with described pilot hole and the positioning hole respectively axis of guide and locating stud, described locating stud stretches in positioning hole, the described axis of guide stretches in pilot hole, this axis of guide is by being arranged on the locking mechanism locking on the first connecting base, the upper surface laminating of the lower surface of described the second connecting base and the first connecting base, described the first connecting base is provided with the docking structure for being connected external equipment with on the second connecting base.

Adopt said structure, the first connecting base connects external equipment by its docking structure, as detection platform or cubing erection support etc., the second connecting base connects cubing by its docking structure, the first connecting base is fixedly mounted on detection platform or cubing bearing, in the time carrying out the replacing of cubing, after only different cubings need being connected with the second connecting base, allowing the second connecting base connect docks and can complete installation with the first connecting base, second connecting base also can be installed in each cubing, the switching of cubing becomes in fact the dismounting between the first connecting base and the second connecting base and is connected, more convenient in the time changing, fast.The second connecting base leads by the axis of guide, stretch in pilot hole, then stretch in positioning hole and position by two or more locating studs, the upper surface laminating of the lower surface of the second connecting base and the first connecting base makes its linkage structure firm, this axis of guide bottom is by being arranged on the locking mechanism locking on the first connecting base, when dismounting, unclamp locking mechanism, take out the second connecting base, this linkage structure can realize the quick-detachment between cubing and bearing or detection platform and be connected, can ensure cubing self precision simultaneously, reduce cubing and change time and labor intensity.

Described locking mechanism comprises and is laterally opened in the pin-and-hole of the first connecting base side and is arranged on the spring bolt in this pin-and-hole, described pin-and-hole is communicated with described pilot hole lower end, the shaft axis of this pin-and-hole and pilot hole is positioned at same plane, and mutually vertical, described axis of guide lower, transverse offers the locking hole adapting with described spring bolt, this axis of guide bottom is stretched in pin-and-hole, and described spring bolt will be locked the axis of guide and the first connecting base through locking hole and pin-and-hole.

Adopt said structure, the locking hole that axis of guide bottom is offered overlaps with pin-and-hole shaft axis, after the locking hole of the spring bolt insertion axis of guide, will between the second connecting base and the first connecting base, lock, when dismounting, spring bolt is extracted to pin-and-hole, the second connecting base can separate with the first connecting base, and this locking mechanism can be realized and connects fast and separate, simple, convenient, connect and separate consuming time shortly, increasing work efficiency.

The cross section at described spring bolt middle part is polygonal, and this spring bolt contacts with the inwall line of locking hole, and one end that this spring bolt stretches out the first connecting base side is connected with handle.

Spring bolt stretches into the also polygonal of cross section of locking hole part, can be regular pentagon, Hexagon, Octagon etc., limit number is five all can to 20, contact with locking hole inwall line by many seamed edges, can reduce surface of contact, be convenient to insertion and the taking-up of pin, can ensure precision by seamed edge simultaneously.

Described the first connecting base and the second connecting base are equal-sized rectangular block, and described pilot hole is positioned at the center of the first connecting base, and described positioning hole is two, and lay respectively at the both sides of described pilot hole.

Described the second connecting base upper surface offers the first counterbore, and the second center, connecting base lower end is stretched in described axis of guide upper end, and fixes by the screw being arranged in the first counterbore.

Described docking structure comprises the second counterbore that is opened in the first connecting base upper surface and the second connecting base lower surface, in this second counterbore, bolt is installed, bolt on described the first connecting base passes the upper surface of the first connecting base, and the bolt on described the second connecting base passes the lower surface of the second connecting base.

In use, the second connecting base can be connected by the bolt and cubing bearing or the detection platform etc. that are arranged in the second counterbore, the first connecting base can be connected with cubing by the bolt being arranged in the second counterbore, in the time that cubing is switched, it is exactly in fact the connection moon dismounting between the first connecting base and the second connecting base, very convenient, quick, counterbore is at least two, can be two to four.

The second counterbore on described the second connecting base is four, and is evenly distributed on described pilot hole surrounding, and the second counterbore on described the first connecting base is four, and is evenly distributed on axis of guide surrounding.

On described the first connecting base, be provided with time positioning hole with the Si Jiaochu of the second connecting base, this positioning hole runs through respectively the upper and lower surface of described the first connecting base and the upper and lower surface of the second connecting base.

Inferior positioning hole uses as standby positioning.

The beneficial effects of the utility model are: this linkage structure can realize the quick-detachment between cubing and bearing or detection platform and be connected, can ensure cubing self precision simultaneously, reduce cubing and change time and labor intensity, simple, convenient, connect and separate consuming time shortly, increasing work efficiency.

Brief description of the drawings

Fig. 1 structural representation of the present utility model;

Fig. 2 is the structural representation of the first connecting base;

Fig. 3 is the structure structure schematic diagram of the second connecting base;

Structural representation when Fig. 4 the utility model separates;

Fig. 5 is use phase diagram of the present utility model;

Fig. 6 is that A in Fig. 5 is to view.

Embodiment

Below in conjunction with drawings and Examples, the utility model is described in further detail:

As shown in Figures 1 to 4, a kind of cubing fast joint structure, comprise the first connecting base 1 and be arranged on the second connecting base 2 on the first connecting base 1, this first connecting base 1 and the second connecting base 2 are equal-sized rectangular block, the first connecting base 1 upper surface center offers a pilot hole 3, on the first connecting base 1 of the both sides of pilot hole 3, offer respectively a positioning hole 4, on the second connecting base 2 lower surfaces, be provided with corresponding with pilot hole 3 and the positioning hole 4 respectively axis of guide 5 and locating stud 6, the length of the axis of guide 5 is longer than the length of locating stud 6, the first connecting base 1 side level offers pin-and-hole 71, in this pin-and-hole 71, be equipped with spring bolt 72, pin-and-hole 71 is communicated with pilot hole 3 lower ends, and pin-and-hole 71 is positioned at same plane with the shaft axis of pilot hole 3, mutually vertical, the axis of guide 5 lower, transverse offer the locking hole 51 adapting with spring bolt 72, these axis of guide 5 bottoms are passed pilot hole 3 and are stretched in pin-and-hole 71, locating stud 6 stretches in positioning hole 4, spring bolt 72 will be locked the axis of guide 5 and the first connecting base 1 through locking hole 51 and pin-and-hole 71, the upper surface laminating of the lower surface of the second connecting base 2 and the first connecting base 1.

The cross section at spring bolt 72 middle parts is polygonal, as regular pentagon, regular hexagon octagon etc., this spring bolt 72 contacts with the inwall line of locking hole 51, and one end that this spring bolt 72 stretches out the first connecting base 1 side is connected with handle 10, the second connecting base 2 upper surfaces offer the first counterbore, the second connecting base 2 centers, lower end are stretched in the axis of guide 5 upper ends, and fix by the screw 8 being arranged in the first counterbore.

The first connecting base 1 upper surface and the second connecting base 2 lower surfaces all offer four the second counterbores 91, in this second counterbore 91, bolt 92 is installed, bolt 92 on the first connecting base 1 passes the upper surface of the first connecting base 1, bolt 92 on the second connecting base 2 passes the lower surface of the second connecting base 2, the second counterbore 91 on the second connecting base 2 is four, and being evenly distributed on pilot hole 3 surroundings, the second counterbore 91 on the first connecting base 1 is four, and is evenly distributed on the axis of guide 5 surroundings; On the first connecting base 1, be provided with time positioning hole 11 with the Si Jiaochu of the second connecting base 2, this positioning hole 11 runs through respectively the upper and lower surface of the first connecting base 1 and the upper and lower surface of the second connecting base 2.

As shown in Figure 5 and Figure 6, in use, the first connecting base 1 is connected with the first section bar 12 by bolt 92, these the first section bar 12 lower ends can connect bearing or be arranged in detection platform, the second connecting base 2 is connected with the second section bar 13 by bolt 92, these the second section bar 13 upper ends can connect cubing, the first connecting base 1 is arranged on the first section bar 12 all the time, be connected with bearing or detection platform, in the time that cubing is switched, only cubing need be connected with the second connecting base 2 upper ends, then will between the first connecting base 1 and the second connecting base 2, dock, also can on the support section bar of each cubing, connect second connecting base 2 simultaneously, in the time carrying out cubing switching, only the second connecting base 2 of cubing need to be connected with the first connecting base 1 on bearing, simple to operate, switch speed is fast, simultaneously by coordinating of the axis of guide 5 and pilot hole 3 and coordinating of locating stud 6 and positioning hole 4, realize accurately location, ensure the reference precision of cubing self.

Claims (8)

1. a cubing fast joint structure, comprise the first connecting base (1) and be arranged on the second connecting base (2) on the first connecting base (1), it is characterized in that: described the first connecting base (1) upper surface offers at least one pilot hole (3) and at least two positioning holes (4), on described the second connecting base (2) lower surface, be provided with corresponding with described pilot hole (3) and positioning hole (4) the respectively axis of guide (5) and locating stud (6), described locating stud (6) stretches in positioning hole (4), the described axis of guide (5) stretches in pilot hole (3), this axis of guide (5) is by being arranged on the locking mechanism locking on the first connecting base (1), the upper surface laminating of the lower surface of described the second connecting base (2) and the first connecting base (1), described the first connecting base (1) is provided with the docking structure for being connected external equipment with on the second connecting base (2).

2. cubing fast joint structure according to claim 1, it is characterized in that: described locking mechanism comprises and is laterally opened in the pin-and-hole (71) of the first connecting base (1) side and is arranged on the spring bolt (72) in this pin-and-hole (71), described pin-and-hole (71) is communicated with described pilot hole (3) lower end, this pin-and-hole (71) is positioned at same plane with the shaft axis of pilot hole (3), and mutually vertical, the described axis of guide (5) lower, transverse offers the locking hole (51) adapting with described spring bolt (72), this axis of guide (5) bottom is stretched in pin-and-hole (71), described spring bolt (72) will be locked the axis of guide (5) and the first connecting base (1) through locking hole (51) and pin-and-hole (71).

3. cubing fast joint structure according to claim 2, it is characterized in that: the cross section at described spring bolt (72) middle part is polygonal, this spring bolt (72) contacts with the inwall line of locking hole (51), and one end that this spring bolt (72) stretches out the first connecting base (1) side is connected with handle (10).

4. according to the cubing fast joint structure described in claim 1 or 2 or 3, it is characterized in that: described the first connecting base (1) and the second connecting base (2) are equal-sized rectangular block, described pilot hole (3) is positioned at the center of the first connecting base (1), described positioning hole (4) is two, and lays respectively at the both sides of described pilot hole (3).

5. cubing fast joint structure according to claim 4, it is characterized in that: described the second connecting base (2) upper surface offers the first counterbore (21), the second connecting base (2) center, lower end is stretched in the described axis of guide (5) upper end, and fixes by the screw (8) being arranged in the first counterbore (21).

6. cubing fast joint structure according to claim 5, it is characterized in that: described docking structure comprises the second counterbore (91) that is opened in the first connecting base (1) upper surface and the second connecting base (2) lower surface, in this second counterbore (91), bolt (92) is installed, bolt (92) on described the first connecting base (1) passes the upper surface of the first connecting base (1), and the bolt (92) on described the second connecting base (2) passes the lower surface of the second connecting base (2).

7. cubing fast joint structure according to claim 6, it is characterized in that: the second counterbore (91) on described the second connecting base (2) is four, and be evenly distributed on described pilot hole (3) surrounding, the second counterbore (91) on described the first connecting base (1) is four, and is evenly distributed on the axis of guide (5) surrounding.

8. cubing fast joint structure according to claim 7, it is characterized in that: described the first connecting base (1) Si Jiaochu upper and the second connecting base (2) is provided with time positioning hole (11), and this positioning hole (11) runs through respectively the upper and lower surface of described the first connecting base (1) and the upper and lower surface of the second connecting base (2).