CN202074974U - Laser symmetrical instrument of clay model of automobile - Google Patents

Abstract

The utility model discloses a laser symmetrical instrument of a clay model of an automobile, which comprises a transverse beam and a vertical beam arranged in the middle of the transverse beam, a horizontal laser transmitter capable of moving vertically along the vertical beam is arranged on the vertical beam, the transverse beam is provided with two first vertical laser transmitters capable of synchronously moving in opposite directions along the transverse beam, and the two first vertical laser transmitters are symmetrical with the vertical beam as a symmetric line. Two ends of the transverse beam are further respectively provided with a second vertical laser transmitter with an adjustable angle, and the two second vertical laser transmitters are symmetrical with the vertical beam as a symmetric line. The laser symmetrical instrument of the clay model of the automobile can realize indications at any spatial points within a working area by adjusting positions of the horizontal laser transmitter and the first vertical laser transmitters and angles of the second vertical laser transmitters. The laser symmetrical instrument has the advantages of being good in generality, simple in structure, convenient to use, small in size, convenient to carry and the like, thereby being suitable for any occasions.

Description

Automobile clay model laser symmetry instrument

Technical field

The utility model relates to a kind of preparing automobile oil sludge model field, particularly a kind of laser symmetry instrument of making the automobile clay model use.

Background technology

Automobile clay model is as the object authentication link of auto industry product in the design in early stage, and symmetry is directly perceived, the important point in numerous technical indicators.Present most fairly large Automobile Design company and research and development centre of main engine plants all are provided with between the plasticine model making and the mechanical type three-coordinates measuring machine is used for the plasticine model making.

Have two kinds of situations in the automobile clay model of reality is produced, a kind of is to carry out preparing automobile oil sludge model between professional plasticine model is made; Another kind is to carry out preparing automobile oil sludge model in amateur place.Though have the mechanical type three-coordinates measuring machine to assist symmetry between the specialty plasticine model is made, but because mechanical type three-coordinates measuring machine itself is bulky, the manipulation maintenance is numerous and diverse, efficient is lower, and in the preparing automobile oil sludge model process, really need to use the mechanical type three-coordinates measuring machine to carry out the very fraction that the accurately work of symmetry only accounts for the work population proportion, just adopt rough symmetric mode fast mostly, therefore the symmetrical precision of automobile clay model is relatively poor, is unfavorable for very much carrying out of follow-up work.And not possess auxiliary symmetrical hardware in amateur place, and can only adopt traditional method for making, efficient is extremely low and symmetrical precision is also poor, also can cause bigger adverse effect to follow-up work.

The utility model content

At above-mentioned the deficiencies in the prior art, the technical problems to be solved in the utility model provides a kind of being easy to carry, and can both use in the environment of any place, and can guarantee the laser symmetry instrument of the making automobile clay model use that basic accuracy requires

For solving the problems of the technologies described above, the utility model adopts following technical scheme:

A kind of automobile clay model laser symmetry instrument, it comprises a crossbeam and a longeron, described longeron is positioned at the centre of described crossbeam, described longeron is provided with a horizontal laser light transmitter that can move up and down along described longeron, described crossbeam is provided with two can be along the first vertical generating laser of described crossbeam synchronous backward translation, described two first vertical generating lasers are along described longeron symmetry, the two ends of described crossbeam also respectively are provided with the second vertical generating laser of an adjustable angle, and described two second vertical generating lasers are along described longeron symmetry.

Preferably, described crossbeam is provided with a cross slide way, a crosswise fixed tooth bar and four transverse movement assemblies, described transverse movement assembly is provided with slide block that cooperates with described cross slide way and the horizontal guide wheel that meshes with described crosswise fixed tooth bar, described horizontal guide wheel is connected with driving mechanism, described two first vertical generating lasers are fixedlyed connected with two transverse movement assemblies respectively, described two second vertical generating lasers are connected by two transverse movement assemblies of hinge and other respectively, and the described second vertical generating laser is hinged on the described crossbeam by a rotating shaft.

Preferably, described longeron is provided with a longitudinal rail, a vertical stationary rack and a lengthwise movement assembly, described lengthwise movement assembly is provided with slide block that cooperates with described vertical rail and the vertical guide wheel that meshes with described vertical stationary rack, described vertical guide wheel is connected with described driving mechanism, and described horizontal laser light transmitter is fixedlyed connected to the motion assembly with described.

Preferably, be respectively equipped with grating on described crossbeam, the longeron, described transverse movement assembly, lengthwise movement assembly are provided with and the corresponding grating read element of described grating.

Preferably, be provided with bracing frame below the described crossbeam.

Technique scheme has following beneficial effect: this automobile clay model laser symmetry instrument in use, all launch a lasing area by horizontal laser light transmitter, two first vertical generating lasers, two second vertical generating lasers respectively, five lasing areas intersect the intersection point that forms two symmetries respectively in the left and right sides of longeron, and these two intersection points are exactly that auxiliary plasticine model is made the volume coordinate point of symmetry.This automobile clay model laser symmetry instrument is by regulating horizontal laser light transmitter, the position of the first vertical generating laser and the angle of the second vertical generating laser, can be implemented in the indication of any spatial point in the perform region, versatility is better, and have advantages such as simple in structure, easy to use, that volume is little, be easy to carry, be adapted at using under the various occasions.

Above-mentioned explanation only is the general introduction of technical solutions of the utility model, for can clearer understanding technological means of the present utility model, and can be implemented according to the content of instructions, below with preferred embodiment of the present utility model and conjunction with figs. describe in detail as after.Embodiment of the present utility model is provided in detail by following examples and accompanying drawing thereof.

Description of drawings

Fig. 1 is the front view of the utility model embodiment.

Fig. 2 is the side view of the utility model embodiment.

Fig. 3 is the structural representation of the utility model embodiment crossbeam.

Embodiment

Below in conjunction with accompanying drawing preferred embodiment of the present utility model is described in detail.

As shown in Figure 1, 2, this automobile clay model laser symmetry instrument comprises a crossbeam 1 and a longeron 2, longeron 2 is positioned at the centre of crossbeam 1, longeron 2 is provided with a horizontal laser light transmitter 3 that can move up and down along longeron 2, crossbeam 1 is provided with two can be along the first vertical generating laser 4 of crossbeam 1 synchronous backward translation, two first vertical generating lasers 4 are along longeron 2 symmetries, the two ends of crossbeam 1 also respectively are provided with 5, two second vertical generating lasers 5 of the second vertical generating laser of an adjustable angle along longeron 2 symmetries.The below of crossbeam 1 also is provided with a bracing frame 6.

As shown in Figure 3, crossbeam 1 is provided with a cross slide way 12, a crosswise fixed tooth bar 11 and four transverse movement assemblies 13, and transverse movement assembly 13 is positioned on the cross slide way 12, and transverse movement assembly 13 is provided with the slide block 14 that matches with cross slide way 12.Crosswise fixed tooth bar 11 is parallel with cross slide way 12, and transverse movement assembly 13 is provided with the horizontal guide wheel 15 with 11 engagements of crosswise fixed tooth bar.Two first vertical generating lasers 4 are fixedlyed connected with two transverse movement assemblies 13 respectively, two second vertical generating lasers 5 are connected by two transverse movement assemblies 13 of hinge 18 and other respectively, and the second vertical generating laser 5 is hinged on the crossbeam 1 by a rotating shaft 51.

Horizontal guide wheel 15 on four transverse movement assemblies 13 all is connected with a driving mechanism, this driving mechanism can drive two horizontal guide wheel 15 synchronous backwards rotations of the transverse movement assembly 13 that is connected with the first vertical generating laser 4, thereby makes two first vertical generating lasers 4 realize the synchronous backward translation; This driving mechanism can drive two horizontal guide wheel 15 synchronous backwards rotations of the transverse movement assembly 13 that is connected with the second vertical generating laser 5 simultaneously, thereby makes the second vertical generating laser 5 identical but the angle that direction is opposite of 51 anglecs of rotation around the shaft.In order accurately to measure the displacement of the first vertical generating laser 4 and the anglec of rotation of the second vertical generating laser 5, also be provided with grating 16 on the crossbeam 1, transverse movement assembly 13 is provided with and grating 16 corresponding grating read elements 17, grating 16 just can be determined the displacement of transverse movement assembly 13 with grating read element 17, and then determines the displacement of the first vertical generating laser 4 and the anglec of rotation of the second vertical generating laser 5.

Structure on the structure of longeron 2 and the crossbeam 1 is basic identical, also be provided with a longitudinal rail, a vertical stationary rack and a lengthwise movement assembly, the lengthwise movement assembly is provided with slide block that cooperates with vertical rail and the vertical guide wheel that meshes with vertical stationary rack, vertically guide wheel is connected with driving mechanism, horizontal laser light transmitter 3 with fixedly connected to the motion assembly.Driving mechanism can drive vertical guide wheel and move up and down along longeron 2, also is provided with grating on the longeron respectively, and the lengthwise movement assembly is provided with and the corresponding grating read element of described grating, thereby is convenient to horizontal laser light transmitter 3 is accurately located.

This automobile clay model laser symmetry instrument in use, all launch a lasing area by horizontal laser light transmitter, two first vertical generating lasers, two second vertical generating lasers respectively, five lasing areas intersect the intersection point that forms two symmetries respectively in the left and right sides of longeron, and these two intersection points are exactly that auxiliary plasticine model is made the volume coordinate point of symmetry.This automobile clay model laser symmetry instrument is by regulating horizontal laser light transmitter, the position of the first vertical generating laser and the angle of the second vertical generating laser, can be implemented in the indication of any spatial point in the perform region, versatility is better, and have advantages such as simple in structure, easy to use, that volume is little, be easy to carry, be adapted at using under the various occasions.

More than automobile clay model laser symmetry instrument that the utility model embodiment is provided be described in detail; for one of ordinary skill in the art; thought according to the utility model embodiment; all can change to some extent in specific embodiments and applications; therefore this description only is used in the utility model embodiment is described; should not be construed as restriction of the present utility model, all any changes of being made according to the utility model design philosophy are all within protection domain of the present utility model.

Claims (5)

1. automobile clay model laser symmetry instrument, it is characterized in that: it comprises a crossbeam and a longeron, described longeron is positioned at the centre of described crossbeam, described longeron is provided with a horizontal laser light transmitter that can move up and down along described longeron, described crossbeam is provided with two can be along the first vertical generating laser of described crossbeam synchronous backward translation, described two first vertical generating lasers are along described longeron symmetry, the two ends of described crossbeam also respectively are provided with the second vertical generating laser of an adjustable angle, and described two second vertical generating lasers are along described longeron symmetry.

2. automobile clay model laser symmetry instrument according to claim 1, it is characterized in that: described crossbeam is provided with a cross slide way, one crosswise fixed tooth bar and four transverse movement assemblies, described transverse movement assembly is provided with slide block that cooperates with described cross slide way and the horizontal guide wheel that meshes with described crosswise fixed tooth bar, described horizontal guide wheel is connected with driving mechanism, described two first vertical generating lasers are fixedlyed connected with two transverse movement assemblies respectively, described two second vertical generating lasers are connected by two transverse movement assemblies of hinge and other respectively, and the described second vertical generating laser is hinged on the described crossbeam by a rotating shaft.

3. automobile clay model laser symmetry instrument according to claim 2, it is characterized in that: described longeron is provided with a longitudinal rail, a vertical stationary rack and a lengthwise movement assembly, described lengthwise movement assembly is provided with slide block that cooperates with described vertical rail and the vertical guide wheel that meshes with described vertical stationary rack, described vertical guide wheel is connected with described driving mechanism, and described horizontal laser light transmitter is fixedlyed connected to the motion assembly with described.

4. automobile clay model laser symmetry instrument according to claim 3, it is characterized in that: be respectively equipped with grating on described crossbeam, the longeron, described transverse movement assembly, lengthwise movement assembly are provided with and the corresponding grating read element of described grating.

5. automobile clay model laser symmetry instrument according to claim 1 is characterized in that: described crossbeam below is provided with bracing frame.

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