Disclosure of Invention
The invention aims to overcome the defects of the prior art, and provides the DR equipment clamping device suitable for the field complex environment, which can be used for quickly, stably and accurately fixing the DR equipment and the receiving screen under the complex field environment, improving the detection efficiency and shortening the detection time.
The technical scheme adopted by the invention for solving the technical problem is as follows:
the utility model provides a DR equipment clamping device suitable for on-spot complex environment, includes and receives screen anchor clamps, DR ray machine anchor clamps and gimbal, installs DR ray machine anchor clamps on two gimbal that the interval symmetry set up, DR ray machine anchor clamps include backup pad, portable clamping bar, chuck, gimbal connection head, parallel interval system has two rectangular holes in the backup pad, installs two portable clamping bars between two rectangular holes, two portable clamping bars pass through locking bolt fastening with two rectangular holes, adorn four chucks in the opposite face symmetry of two portable clamping bars admittedly, adorn two gimbal connections head in the bottom surface bilateral symmetry of backup pad admittedly.
And, the screen receiving clamp comprises a clamp platform, a connector, a telescopic rod insertion head and a telescopic rod, wherein the telescopic rod insertion head is fixedly arranged at the lower part of the clamp platform, and the telescopic rod penetrates through the telescopic rod insertion head.
And the clamp platform consists of a fixed end chuck, a platform and a hemispherical device with a bolt hole, wherein the fixed end chuck is fixedly arranged on one side of the top surface of the platform, a movable end chuck is arranged on the other side of the top surface of the platform opposite to the fixed end chuck in a sliding manner, two sliding blocks are arranged on the bottom surface of the movable end chuck, and two grooves serving as guide rails are correspondingly arranged on the top surface of the platform.
And, the gimbal include tripod, truckle, lifting screw, fixing bolt, lifting screw knob, anchor clamps connector, at the bottom installation truckle of tripod, make a bolt hole in the center of tripod, lifting screw passes the bolt hole, at lifting screw's bottom suit lifting screw knob, at lifting screw's top installation anchor clamps connector.
Furthermore, a fixing bolt is sleeved on the upper part of the lifting screw rod.
The invention has the advantages and positive effects that:
the invention can fix DR equipment and the receiving screen quickly, stably and accurately in a complex field environment, improve the detection efficiency and shorten the detection time.
1) The DR equipment and the receiving screen are quickly fixed, and the fixed DR equipment and the fixed receiving screen are not easy to shift, cannot fall off and are relatively stable;
2) the fixing mode and angle of the receiving screen of the DR equipment can be changed arbitrarily according to the field environment;
3) the DR equipment can adjust the irradiation position at will without being interfered by the field environment;
if the shooting result does not accord with the expectation, the DR equipment or the receiving screen can be adjusted quickly, and the detection time is saved.
Drawings
FIG. 1 is a front view of a receiving screen fixture;
FIG. 2 is a top view of FIG. 1;
FIG. 3 is a view showing a state of use of the receiving screen jig;
FIG. 4 is a front view of a DR ray machine clamp;
FIG. 5 is a top view of FIG. 4;
FIG. 6 is a left side view of FIG. 5;
FIG. 7 is a front view of the gimbal structure;
FIG. 8 is a diagram of the attachment of the DR ray machine clamp to the gimbal.
1 clamp platform, 2 moving end chucks, 3 screw rods, 4 moving bolts, 5 fixing bolts, 6 fastening bolts I, 7 connectors, 8 fastening bolts II, 9 telescopic rod inserting heads, 10 telescopic rods, 11 rubber round balls, 12 receiving screen clamps, 13 receiving screens, 14 supporting plates, 15 movable clamping rods, 16 chucks, 17 universal support connectors, 18 locking bolts, 19 long holes, 20 tripods, 21 casters, 22 lifting screw rods, 23 fixing bolts, 24 lifting screw rod knobs, 25 clamp connectors and 26DR ray machine
Detailed Description
The present invention is further illustrated by the following specific examples, which are intended to be illustrative, not limiting and are not intended to limit the scope of the invention.
A DR equipment clamping device suitable for a field complex environment comprises a receiving screen clamp, a DR ray machine clamp and universal supports, wherein the DR ray machine clamp is arranged on the two universal supports symmetrically arranged at intervals.
The screen receiving clamp 12 comprises a clamp platform (1), a connector (7), a telescopic rod insertion head (9) and a telescopic rod (10), wherein the telescopic rod insertion head (9) is fixedly arranged at the lower part of the clamp platform (1), and the telescopic rod (10) is arranged on the telescopic rod insertion head (9) in a penetrating manner. The clamp platform (1) provides a clamping function and can clamp the receiving screen.
The fixture platform (1) consists of a fixed end chuck, a platform and a hemispherical device with a bolt hole. The fixed end chuck is fixedly arranged on one side of the top surface of the platform, the movable end chuck (2) is arranged on the other side of the top surface of the platform opposite to the fixed end chuck in a sliding mode, two sliding blocks are arranged on the bottom surface of the movable end chuck (2), and two grooves are correspondingly formed in the top surface of the platform and used as guide rails.
The fixed end chuck and the movable end chuck (2) are connected through a screw rod (3), one end of the screw rod (3) is fixed on the fixed end chuck through a fixing bolt (5), the movable end chuck (2) penetrates through the screw rod (3), and the other end of the screw rod is meshed with a movable bolt (4). Rubber layers are adhered to the inner sides of the fixed end chuck and the movable end chuck (2), so that friction between the chucks and the receiving screen can be increased, the receiving screen cannot easily slide off, and the receiving screen can be protected from being abraded and damaged by the chucks.
After the inner sides of the fixed end chuck and the movable end chuck (2) are both contacted with the receiving screen, the movable bolt (4) is rotated, so that the chucks clamp the receiving screen, and the effective clamping effect is ensured. The bottom surface welding of platform has the hemisphere device of taking the bolt hole, and cooperation fastening bolt I and connector (7) use can reach multi-angle rotating.
Connector (7) provide the effect that turns to, utilize fastening bolt I (6), fastening bolt II (8) that link to each other with connector (7), but multi-angle adjustment receives the screen position, and it turns to the angle and is the hemisphere, and complete cover receives the screen receiving range.
The telescopic rod inserting head (9) can move the receiving screen back and forth, so that the detected part can be completely projected on the receiving screen.
The telescopic link (10) can be extended or shortened, the rubber balls are assembled at two ends of the telescopic link and have certain friction force, the rubber balls are matched with the telescopic link to be used together, under the combined action of pressing force and friction force, the DR equipment receiving screen and the fixture are fixed between the equipment, the appearance of the equipment is not damaged, the DR equipment receiving screen can be randomly erected in an equipment interval, and the DR equipment receiving screen is guaranteed to be stably fixed.
Receiving screen anchor clamps application method:
1) preliminarily judging the number of the clamps of the receiving screen according to factors such as the spacing distance of field devices, the position of a detected component and the like, and determining the clamping position of the clamps on the receiving screen 13 according to the number of the clamps;
2) inserting a sliding block at the bottom of the movable end chuck (2) into a groove of the clamp platform (1);
3) inserting the screw (3) into the fixed end chuck and the movable end chuck (2) of the clamp platform (1), screwing the fixing bolt (5) and fixing the screw (3);
4) placing the receiving screen inside the fixed end chuck and the movable end chuck (2), and screwing the movable bolt (4) to enable the clamp to clamp the receiving screen;
5) the clamp platform (1) and the telescopic rod insertion head (9) which clamp the receiving screen are connected with the connector (7), and the fastening bolt I (6) and the fastening bolt II (8) are inserted, so that stable connection is ensured without screwing;
6) inserting a telescopic rod (10) into a telescopic rod insertion head (9), adjusting the telescopic rod (10) to enable rubber balls (11) on two sides of the telescopic rod (10) to be in close contact with the two sides at intervals, continuously adjusting the telescopic rod (10) to enable the rubber balls (11) on the two sides to generate pressing force, and stably erecting the receiving screen in the equipment interval;
7) according to the position of the DR ray machine, the detected position and the imaging position, the angle of the receiving screen is adjusted through two bolts on the connector (7), and the front position and the rear position of the receiving screen are adjusted through the telescopic rod inserting head (9).
The DR ray machine fixture comprises a supporting plate (14), movable clamping rods (15), a chuck (16) and a universal bracket connector (17), wherein two strip holes (19) are formed in the supporting plate (14) in parallel at intervals, the two movable clamping rods (15) are installed between the two strip holes (19), and the two movable clamping rods (15) and the two strip holes (19) are fixed through four locking bolts (18). Four clamping heads (16) are symmetrically and fixedly arranged on the opposite surfaces of the two movable clamping rods (15). Two clamping heads (16) are fixedly arranged on each movable clamping rod (15) at intervals. Two universal bracket connectors (17) are symmetrically and fixedly arranged on two sides of the bottom surface of the supporting plate (14).
The movable clamping rod (15) can slide in the long hole (19) according to the size of the DR ray machine (26); the chuck (16) is used for clamping the DR ray machine, so that the DR ray machine is fixed on the two movable clamping rods (15); the locking bolt (18) is used for fixing the position of the movable clamping rod (15); the universal bracket connector (17) is used for connecting a universal bracket.
The use method of the DR ray machine clamp comprises the following steps:
1) two movable clamping rods (15) are respectively inserted into the strip holes (19) on the supporting plate (14);
2) adjusting the position of a movable clamping rod (15) according to the length of the DR ray machine;
3) clamping spanners at two ends of the DR ray machine by using a chuck (16) to ensure that the DR ray machine and the movable clamping rod (15) are kept fixed;
4) the locking bolt (18) is screwed down, so that the movable clamping rod (15) cannot move left and right, and the DR ray machine is stably fixed on the support plate (14).
The universal support comprises a tripod (20), a caster (21), a lifting screw (22), a fixing bolt (23), a lifting screw knob (24) and a clamp connector (25). The bottom of the tripod (20) is provided with a caster (21), the center of the tripod (20) is provided with a bolt hole, the lifting screw (22) passes through the bolt hole, the bottom end of the lifting screw (22) is sleeved with a lifting screw knob (24), the upper part of the lifting screw (22) is sleeved with a fixing bolt (23), and the top end of the lifting screw (22) is provided with a clamp connector (25).
The tripod (20) plays a supporting role; the caster (21) plays a role in movement; the lifting screw rod (22) can move the ray machine erected on the bracket up and down; the fixing bolt (23) plays a role in fixing, and can share the force of the lifting screw (22) and the internal thread of the triangular support (20) due to the fact that the DR ray machine is heavy, so that the support can be used for a long time; the top of the lifting screw knob (24) is provided with a bolt hole, the bottom of the lifting screw knob is an integrally formed plane, and the lifting screw (22) can be rotated and can be used as a knob after being screwed; the clamp connector (25) is integrally welded with the top end of the lifting screw rod (22) and is connected with the universal bracket connector (17).
The use method of the universal support of the DR ray machine comprises the following steps:
1) screwing the fixing bolt (23) into the top end of the lifting screw (22);
2) screwing a lifting screw rod (22) into a bolt hole at the top of the tripod (20);
3) screwing the lifting screw knob (24) into the lifting screw (22) until the lifting screw cannot be screwed in continuously;
4) the caster (21) is mounted at the bottom of the tripod (20).
The DR ray machine clamp and the universal bracket are matched for use:
1) inserting a fixture connector (25) on the universal support into a universal support connector (17) on the DR ray machine fixture, and inserting bolts into bolt holes of the two connectors to connect the universal support with the DR ray machine fixture;
2) rotating a lifting screw knob (24) to adjust the height of a support lifting screw (22) according to the equipment interval size and the position of the detected part;
3) after the height is adjusted to the expected position, the fixing bolt (23) is screwed down, so that the fixing bolt (23) is tightly attached to the upper end of the triangular support (20).
The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various changes and modifications can be made without departing from the inventive concept, and these changes and modifications are all within the scope of the present invention.