CN204594371U - The measurement mechanism of bridge-type welding machine train - Google Patents

Abstract

The utility model discloses a kind of measurement mechanism of bridge-type welding machine train, comprise the first pedestal, second pedestal and the measurement bridge be set up on described first pedestal and described second pedestal, described first pedestal and the second level meter described second pedestal being provided with the first level meter of arranging along the first horizontal direction and arrange along the second horizontal direction different with described first horizontal direction, described measurement bridge is provided with the 3rd level meter arranged along its length, described measurement bridge is also arranged at intervals with two elevation carrection parts, described elevation carrection parts have and screw part, orienting lug and for the guiding framework of described orienting lug along movement, described measurement bridge offer for the described through hole screwing part and pass, described orienting lug to be positioned at below described measurement bridge and to be threaded with the described part that screws, described guiding framework is fixed on below described measurement bridge.Adopt this measurement mechanism of the present utility model, the measuring accuracy of train can be improved.

Description

The measurement mechanism of bridge-type welding machine train

Technical field

The utility model relates to bridge-type welding machine field, and specifically, the utility model relates to a kind of measurement mechanism of bridge-type welding machine train.

Background technology

Mibach laser welder more and more rolls production line for cold rolling acid, but the precision of the position correction of the critical component in welding machine directly affects the welding quality of steel plate, therefore, constantly need study this equipment, and make the position correction apparatus adapted with this equipment.Up to the present, we have have researched and developed and have made laser jam welding laser dotting confirmation safely and efficiently adjusting gear and the jamproof position detecting device of welding machine center support system etc., realize the once adjustment of the biased difference of single point on the one hand, the detection control of the semi-automatic centralising device position of welding machine can be realized on the other hand, improve Plate Welding quality, be conducive to the production of continuous high-efficient.In addition, also find that the train positional precision in welding machine is very large on the welding precision and weldquality impact that control steel plate, particularly angle sheave, in advance smooth take turns and flatten wheel wait take turns based part, so will to the height of its position, levelness and circularity etc. carry out Accurate Calibration, its elevation references benchmark is the lower jaw platform of welding machine, prior art adopts a square station meter to be placed on the lower jaw of two clamps of welding machine entrance clamp and outlet clamp, the wheel that mobile welding machine dolly allows needs detect runs to the position of station meter, judge that whether the height of train is suitable with visual, the accuracy detected is lower, and, the levelness on train surface and circularity etc. are then difficult to measure, have impact on the reliability of welding quality.

Problem existing for measuring for existing train, provides a kind of new measurement mechanism to have great importance.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of measurement mechanism of bridge-type welding machine train, and it can improve the measuring accuracy of train.

In order to solve the problems of the technologies described above, the utility model have employed following technical scheme: a kind of measurement mechanism of bridge-type welding machine train, comprise the first pedestal, second pedestal and the measurement bridge be set up on described first pedestal and described second pedestal, described first pedestal and the second level meter described second pedestal being provided with the first level meter of arranging along the first horizontal direction and arrange along the second horizontal direction different with described first horizontal direction, described measurement bridge is provided with the 3rd level meter arranged along its length, described measurement bridge is also arranged at intervals with two elevation carrection parts, described elevation carrection parts have and screw part, orienting lug and for the guiding framework of described orienting lug along movement, described measurement bridge offer for the described through hole screwing part and pass, described orienting lug to be positioned at below described measurement bridge and to be threaded with the described part that screws, described guiding framework is fixed on below described measurement bridge.

Preferably, described screw part there is the portion that screws above described measurement bridge of being positioned at and through described through hole and and the connecting portion be threaded with described orienting lug, described screwing in portion is provided with index line, described measurement bridge is also provided with the index dial screwing the number of turns for screwing part described in coordinating with described index line to measure.

Preferably, described first pedestal and described second pedestal are rectangular parallelepiped.

Further, described first pedestal and described second pedestal all run through in the position in its four bights and are provided with screw adjustments.

Further, described first pedestal is provided with the first longitudinal chute extended along its length, is provided with the first longitudinal sliding motion parts in described first longitudinal chute; Described second pedestal is provided with the second longitudinal chute extended along its length, is provided with the second longitudinal sliding motion parts in described second longitudinal chute, and described measurement crane span structure is located on described first longitudinal sliding motion parts and described second longitudinal sliding motion parts.

Further, at least one in described first longitudinal sliding motion parts and described second longitudinal sliding motion parts offers the storage tank that the length direction along described measurement bridge extends, and the local of described measurement bridge is positioned at described storage tank.

Further, Wedge mechanism is provided with between described first longitudinal sliding motion parts and described measurement bridge and between described second longitudinal sliding motion parts and described measurement bridge, described Wedge mechanism has adjusting bolt, when screwing described adjusting bolt, described measurement bridge can move towards close or away from described first pedestal and described second pedestal direction.

Preferably, described measurement bridge offers the horizontal concrete chute extended along its length, slidably connects sliding shoe in described horizontal concrete chute, described in one of them, elevation carrection parts are connected with described sliding shoe.

Preferably, also comprise dial gauge, described dial gauge is connected with described guiding framework by link.

Further, described link is two hinged connecting rods, and two described connecting rods are provided with the frictional damping face for carrying out position restriction to the two in its hinged place.

Compared with prior art, the beneficial effects of the utility model are:

1, the first pedestal, the second pedestal and measurement bridge are provided with level meter, therefore, the levelness of this measurement mechanism each several part can be ensured, by regulating the part that screws of two elevation carrection parts also to observe the angle screwed separately respectively, the difference in height existing for two wheels of welding machine can be drawn;

2, the depth of parallelism and the circularity parameter of wheel can be measured by dial gauge;

3, by Wedge mechanism, the height measuring bridge can be adjusted, to adapt to the needs of different train;

4, when one of them elevation carrection parts can slide along the length direction measuring bridge, it goes for wheel in irregular shape.

Accompanying drawing explanation

Fig. 1 is the structural representation of the measurement mechanism of bridge-type welding machine train of the present utility model;

Fig. 2 is the structural representation of the first pedestal in Fig. 1;

Fig. 3 is the structural representation of the second pedestal in Fig. 1;

Fig. 4 is in Fig. 1, measures the partial structurtes schematic diagram of bridge portion;

Fig. 5 is the working state schematic representation of measurement mechanism of the present utility model.

Description of reference numerals

1-first pedestal; The longitudinal chute of 101-first; 2-second pedestal; The longitudinal chute of 201-second; 3-first level meter; 4-second level meter; 5-screw adjustments; 6-Wedge mechanism; 7-measures bridge; 8-screws part; 9-leads framework; 10-orienting lug; 11-connecting rod; 12-dial gauge; 13-the 3rd level meter; 14-horizontal concrete chute; 15-sliding shoe; 16-first longitudinal sliding motion parts; 17-second longitudinal sliding motion parts; .

Embodiment

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail, but not as to restriction of the present utility model.

See Fig. 1-Fig. 4, the utility model provides a kind of measurement mechanism of bridge-type welding machine train, comprises the first pedestal 1, second pedestal 2 and is set up in the measurement bridge 7 on the first pedestal 1 and the second pedestal 2.First pedestal 1 and the second level meter 4 the second pedestal 2 being provided with the first level meter 3 of arranging along the first horizontal direction and arrange along the second horizontal direction different with the first horizontal direction, by this first level meter 3 and the second level meter 4 with the use of, just can measure and adjust the levelness of the first pedestal 1 and the second pedestal 2.Measure on bridge 7 and be provided with the 3rd level meter 13 arranged along its length, on the basis of aforementioned first pedestal 1 with the second pedestal 2 level, as long as the value of the 3rd level meter 13 is the value of horizontality, then measurement bridge 7 entirety is in horizontality.

As shown in FIG., measure on bridge 7 and be also arranged at intervals with two elevation carrection parts, the effect of these two elevation carrection parts is to measure two wheels simultaneously, to ensure that the height of two wheels is identical.Elevation carrection parts have and screw part 8, orienting lug 10 and for the guiding framework 9 of orienting lug 10 along movement, measure on bridge 7 and offer the through hole passed for screwing part 8, orienting lug 10 be positioned to measure below bridge 7 and with screw part 8 and be threaded, guiding framework 9 is fixed on to be measured below bridge 7.This structure, the thread tooth distance screwing part 8 can be known in advance, afterwards, screwing part 8 makes orienting lug 10 move along guiding framework 9 to wheel, when after contact, record screw part 8 screw the number of turns, and thread tooth distance mentioned before being multiplied by by this number of turns, like this, just can know that this wheel changes with the distance measuring bridge 7; Same mode, measures another wheel, and knows that this wheel changes with the distance measuring bridge 7, afterwards, compares these two distance changes, and adjusts according to the height of difference to one of them wheel of these two distance changes.

Further, screw part 8 have be positioned at measure the portion that screws above bridge 7 and through through hole and and the connecting portion be threaded with orienting lug 10, for ease of know screw part 8 definitely screw the number of turns, screw in portion and be provided with index line, measure on bridge 7 and be also provided with for coordinating to measure the index dial 18 screwing the number of turns screwing part 8 with index line.This index dial 18 arranges angle line, like this, when can accurately know screw part 8 screw the number of turns, and calculate orienting lug 10 and the relative movement distance measuring bridge 7.

As shown in FIG., in the utility model, the first pedestal 1 and the second pedestal 2 are rectangular parallelepiped.Certainly, it can be chosen as other shapes, is convenient to the levelness etc. ensureing to measure bridge 7.

For ease of adjusting the upper surface of the first pedestal 1 and the upper surface of the second pedestal 2 and the relative height of installation site, the first pedestal 1 and the second pedestal 2 all run through in the position in its four bights and are provided with screw adjustments 5.This screw adjustments 5 screws out the first pedestal 1 and the second pedestal more than 2, then this relative height is larger, otherwise then relative height is less.

First level meter 3 and the second level meter 4 pass through with the use of the levelness that can reach measurement first pedestal 1 and the second pedestal 2, as a kind of mode, first level meter 3 is the lateral level extended along the Width of the first pedestal 1 and the second pedestal 2, and the second level meter 4 be the vertical equity instrument of the length direction extension along the first pedestal 1 and the second pedestal 2.

The position of bridge 7 at the first pedestal 1 and the second pedestal 2 length direction is measured for ease of adjustment, in the utility model, first pedestal 1 is provided with in the longitudinal chute 101 of first longitudinal chute 101, first extended along its length and is provided with the first longitudinal sliding motion parts 16; Second pedestal 2 is provided with in the longitudinal chute 201 of second longitudinal chute 201, second extended along its length and is provided with the second longitudinal sliding motion parts 17, measures bridge 7 and is set up on the first longitudinal sliding motion parts 16 and the second longitudinal sliding motion parts 17.Like this, can adjust by promoting the first longitudinal sliding motion parts 16 and the second longitudinal sliding motion parts 17 position measuring bridge 7.

For ensureing to measure the bearing of trend of bridge 7, the first longitudinal sliding motion parts 16 offer with at least one in the second longitudinal sliding motion parts 17 storage tank extended along the length direction measuring bridge 7, and the local of measurement bridge 7 is positioned at storage tank.Like this, measure bridge 7 and be merely able to transversely or vertically move, and can not along the movement arbitrarily of other directions.

The relative height of bridge 7 and the first pedestal 1 and the second pedestal 2 is measured for ease of adjustment, Wedge mechanism 6 is provided with between first longitudinal sliding motion parts 16 and measurement bridge 7 and between the second longitudinal sliding motion parts 17 and measurement bridge 7, Wedge mechanism 6 has base 601, voussoir 602 and adjusting bolt 603, base 601 has relative inclined-plane with voussoir 602, when screwing adjusting bolt 603, measuring bridge 7 can move towards close or away from the first pedestal 1 and the second pedestal 2 direction.

Further, in the utility model, measure on bridge 7 and offer the horizontal concrete chute 14 extended along its length, slidably connect sliding shoe 15 in horizontal concrete chute 14, one of them elevation carrection parts is connected with sliding shoe 15.Like this, these elevation carrection parts can move along the length direction measuring bridge 7, can measure multiple positions of wheel.

In addition, this measurement mechanism of the present utility model also comprises dial gauge 12, and dial gauge 12 is connected with guiding framework 9 by link.The parameter such as the depth of parallelism and circularity of wheel can be measured by this dial gauge 12.As a kind of mode, link is two hinged connecting rod 11, two connecting rods 11 are provided with for carrying out position restriction to the two frictional damping face in its hinged place.

Shown in Figure 5, it illustrates a using state of this measurement mechanism of the present utility model, wherein, this measurement mechanism is for measuring the angle sheave of welding machine.Particularly, entrance angle sheave 400 and export orientation are taken turns 500 and are all positioned on welding machine dolly 300, and the first pedestal 1 is positioned on entrance clamp 100, and the second pedestal 2 is positioned on outlet clamp 200.

In use, first pedestal 1 and the second pedestal 2 are positioned over respectively the entrance clamp of welding machine and outlet clamp position, then leveling is carried out to the first pedestal 1, second pedestal 2 and measurement bridge 7, afterwards, traverse measurement bridge 7 makes two elevation carrection parts correspond respectively to two angle sheaves, like this, these two angle sheaves and the relative position measuring bridge 7 can be measured, afterwards, according to these two relative positions, position adjustment is carried out to angle sheave, make two angle sheaves be in sustained height.

In addition, after measuring height, this measurement bridge 7 can be moved, dial gauge 12 is contacted with angle sheave respectively, and be measured by the depth of parallelism of this dial gauge 12 pairs of angle sheaves and circularity parameter.

Above embodiment is only exemplary embodiment of the present utility model, is not used in restriction the utility model, and protection domain of the present utility model is defined by the claims.Those skilled in the art can in essence of the present utility model and protection domain, and make various amendment or equivalent replacement to the utility model, this amendment or equivalent replacement also should be considered as dropping in protection domain of the present utility model.

Claims (10)

1. the measurement mechanism of a bridge-type welding machine train, it is characterized in that, comprise the first pedestal, second pedestal and the measurement bridge be set up on described first pedestal and described second pedestal, described first pedestal and the second level meter described second pedestal being provided with the first level meter of arranging along the first horizontal direction and arrange along the second horizontal direction different with described first horizontal direction, described measurement bridge is provided with the 3rd level meter arranged along its length, described measurement bridge is also arranged at intervals with two elevation carrection parts, described elevation carrection parts have and screw part, orienting lug and for the guiding framework of described orienting lug along movement, described measurement bridge offer for the described through hole screwing part and pass, described orienting lug to be positioned at below described measurement bridge and to be threaded with the described part that screws, described guiding framework is fixed on below described measurement bridge.

2. the measurement mechanism of bridge-type welding machine train according to claim 1, it is characterized in that, described screw part there is the portion that screws above described measurement bridge of being positioned at and through described through hole and and the connecting portion be threaded with described orienting lug, described screwing in portion is provided with index line, described measurement bridge is also provided with the index dial screwing the number of turns for screwing part described in coordinating with described index line to measure.

3. the measurement mechanism of bridge-type welding machine train according to claim 1, is characterized in that, described first pedestal and described second pedestal are rectangular parallelepiped.

4. the measurement mechanism of bridge-type welding machine train according to claim 3, is characterized in that, described first pedestal and described second pedestal all run through in the position in its four bights and be provided with screw adjustments.

5. the measurement mechanism of bridge-type welding machine train according to claim 3, is characterized in that, described first pedestal is provided with the first longitudinal chute extended along its length, is provided with the first longitudinal sliding motion parts in described first longitudinal chute; Described second pedestal is provided with the second longitudinal chute extended along its length, is provided with the second longitudinal sliding motion parts in described second longitudinal chute, and described measurement crane span structure is located on described first longitudinal sliding motion parts and described second longitudinal sliding motion parts.

6. the measurement mechanism of bridge-type welding machine train according to claim 5, it is characterized in that, at least one in described first longitudinal sliding motion parts and described second longitudinal sliding motion parts offers the storage tank that the length direction along described measurement bridge extends, and the local of described measurement bridge is positioned at described storage tank.

7. the measurement mechanism of bridge-type welding machine train according to claim 5, it is characterized in that, Wedge mechanism is provided with between described first longitudinal sliding motion parts and described measurement bridge and between described second longitudinal sliding motion parts and described measurement bridge, described Wedge mechanism has adjusting bolt, when screwing described adjusting bolt, described measurement bridge can move towards close or away from described first pedestal and described second pedestal direction.

8. the measurement mechanism of bridge-type welding machine train according to claim 1, it is characterized in that, described measurement bridge offers the horizontal concrete chute extended along its length, slidably connects sliding shoe in described horizontal concrete chute, described in one of them, elevation carrection parts are connected with described sliding shoe.

9. the measurement mechanism of bridge-type welding machine train according to claim 1, is characterized in that, also comprise dial gauge, and described dial gauge is connected with described guiding framework by link.

10. the measurement mechanism of bridge-type welding machine train according to claim 9, is characterized in that, described link is two hinged connecting rods, and two described connecting rods are provided with the frictional damping face for carrying out position restriction to the two in its hinged place.