CN103630046A - Detection tool structure for beam brackets on two sides - Google Patents

Abstract

The invention provides a detection tool structure for beam brackets on two sides. By the detection tool structure, the detection process of the beam brackets on the two sides is simple, short in period, high in efficiency and high in accuracy. The detection tool structure comprises a bottom plate, wherein datum sleeves are respectively arranged at three angular positions of the bottom plate; analog blocks are supported to the upper end surface of the bottom plate; a positioning bump which is protruded upward is formed on the upper surface of each analog block; the upward protrusion height of each positioning bump is 3 mm; in a detecting state, the lower surfaces of beam brackets on the two sides are closely adhered to the upper end surfaces of the corresponding positioning bumps; a front-end positioning pin and a back-end positioning pin are arranged at the corresponding positions of a front bump and a back bump of each analog block; a pressure clamp bracket is arranged on one side of the front bump and the back bump of the each analog block; each pressure clamp bracket is connected with a pressure clamp through a rotating shaft; an analog block pressure block is fastened to the lower end of each pressure clamp.

Description

The cubing structure of a kind of both sides overarm brace

Technical field

The present invention relates to the technical field of auto parts and components cubing structure, be specially the cubing structure of a kind of both sides overarm brace.

Background technology

The detection of existing both sides overarm brace, it detects separately data by cubing to each position, then judge that with the numerical value contrast of standard whether this both sides overarm brace is qualified, in comparison process due to measuring error, the detection data that record by cubing also need trickle finishing, the complex process of its detection, and the cycle is long, efficiency is low, and error is larger.

Summary of the invention

For the problems referred to above, the invention provides the cubing structure of a kind of both sides overarm brace, it makes the characterization processes of both sides overarm brace simple, the cycle is short, efficiency is high, and accuracy is high.

The cubing structure of a kind of both sides overarm brace, it is characterized in that: it comprises base plate, the position, wherein three angles of described base plate is respectively arranged with standard sleeve, simulated block is supported on the upper surface of described base plate, the upper surface of described simulated block is provided with the locating convex block of epirelief, the epirelief height of described locating convex block is 3mm, under detected state, the lower surface of both sides overarm brace is close to the upper surface of described locating convex block, the front portion projection of described simulated block, bulge-structure corresponding position, rear portion is provided with front end register pin, rear end register pin, the front portion projection of described simulated block, one side position place of rear portion projection is provided with pressing tongs support, described pressing tongs support connects pressing tongs by rotating shaft, the lower end of described pressing tongs is fastened with simulated block briquetting, the medium position of described simulated block briquetting has dodges groove, the lower surface correspondence of the described simulated block briquetting under detected state press-fits in described anterior projection/or the upper surface of the corresponding described both sides overarm brace of rear portion projection, and described front end register pin, groove is dodged in the top of rear end register pin described in correspondence position, one side position place of the medium position of described simulated block is provided with middle part pressing tongs support, described middle part pressing tongs support connects middle part pressing tongs by rotating shaft, the lower surface correspondence of the described middle part pressing tongs under detected state press-fits in the upper surface of the correspondence position of described both sides overarm brace, in the hole slot of described both sides overarm brace, be respectively arranged with register pin, described register pin is plugged in the pilot hole of described simulated block upper surface after running through described hole slot, it also comprises gap go-no go gauge, the butt diameter of described gap go-no go gauge is 3.3mm, taper end diameter is 2.7mm.

Adopt after the present invention, only detected both sides overarm brace need be placed in to simulated block, make afterwards pressing tongs, middle part pressing tongs press down, difference plug-in mounting register pin, front end register pin, rear end register pin, then by gap go-no go gauge, detect, thereby whether the physical dimension of judging detected both sides overarm brace is qualified, it makes the characterization processes of both sides overarm brace simple, the cycle is short, efficiency is high, and accuracy is high.

Accompanying drawing explanation

Fig. 1 is stereographic map structural representation of the present invention;

Fig. 2 is the hole slot of simulated block, the mounting structure schematic diagram of register pin;

Fig. 3 is the structural representation of gap of the present invention go-no go gauge.

Embodiment

See Fig. 1～Fig. 3, it comprises base plate 1, the position, wherein three angles of base plate 1 is respectively arranged with standard sleeve 2, simulated block 3 is supported on the upper surface of base plate 1, the upper surface of simulated block 3 is provided with the locating convex block 4 of epirelief, the epirelief height of locating convex block 4 is 3mm, under detected state, the lower surface of both sides overarm brace 5 is close to the upper surface of locating convex block 4, the front portion projection 6 of simulated block 3, projection 7 structural correspondence positions, rear portion are provided with front end register pin 8, rear end register pin 9, the front portion projection 6 of simulated block 3, one side position place of rear portion projection 7 is provided with pressing tongs support 10, pressing tongs support 10 connects pressing tongs 11 by rotating shaft, the lower end of pressing tongs 11 is fastened with simulated block briquetting 12, the medium position of simulated block briquetting 12 has dodges groove 13, the lower surface correspondence of the simulated block briquetting 12 under detected state press-fits in the upper surface of the corresponding both sides overarm brace 5 of anterior projection 6/ or rear portion projection 7, and front end register pin 8, groove 13 is dodged through correspondence position in the top of rear end register pin 9, one side position place of the medium position of simulated block 3 is provided with middle part pressing tongs support 14, middle part pressing tongs support 14 connects middle part pressing tongs 15 by rotating shaft, the lower surface correspondence of the middle part pressing tongs 15 under detected state press-fits in the upper surface of the correspondence position of both sides overarm brace 5, in the hole slot 16 of both sides overarm brace 5, be respectively arranged with register pin 17, register pin 17 is plugged in the pilot hole 18 of simulated block 3 upper surfaces after running through hole slot 16, it also comprises gap go-no go gauge 19, the butt diameter of gap go-no go gauge 19 is 3.3mm, taper end diameter is 2.7mm.

Claims (1)

1. the cubing structure of a both sides overarm brace, it is characterized in that: it comprises base plate, the position, wherein three angles of described base plate is respectively arranged with standard sleeve, simulated block is supported on the upper surface of described base plate, the upper surface of described simulated block is provided with the locating convex block of epirelief, the epirelief height of described locating convex block is 3mm, under detected state, the lower surface of both sides overarm brace is close to the upper surface of described locating convex block, the front portion projection of described simulated block, bulge-structure corresponding position, rear portion is provided with front end register pin, rear end register pin, the front portion projection of described simulated block, one side position place of rear portion projection is provided with pressing tongs support, described pressing tongs support connects pressing tongs by rotating shaft, the lower end of described pressing tongs is fastened with simulated block briquetting, the medium position of described simulated block briquetting has dodges groove, the lower surface correspondence of the described simulated block briquetting under detected state press-fits in described anterior projection/or the upper surface of the corresponding described both sides overarm brace of rear portion projection, and described front end register pin, groove is dodged in the top of rear end register pin described in correspondence position, one side position place of the medium position of described simulated block is provided with middle part pressing tongs support, described middle part pressing tongs support connects middle part pressing tongs by rotating shaft, the lower surface correspondence of the described middle part pressing tongs under detected state press-fits in the upper surface of the correspondence position of described both sides overarm brace, in the hole slot of described both sides overarm brace, be respectively arranged with register pin, described register pin is plugged in the pilot hole of described simulated block upper surface after running through described hole slot, it also comprises gap go-no go gauge, the butt diameter of described gap go-no go gauge is 3.3mm, taper end diameter is 2.7mm.