CN110470457A - A kind of ocean engineering anchor chain tensile capacity detection device - Google Patents

Abstract

The invention discloses a kind of ocean engineering anchor chain tensile capacity detection devices, including detection box and clamping device, detection box side outer wall is provided with fixation hole, and outlet tube is plugged in fixation hole, detection box side outer wall is fixedly connected with firm banking, the firm banking top exterior walls are provided with supporting leg, and supporting leg top exterior walls are provided with hydraulic cylinder, described hydraulic cylinder one end outer wall is plugged with hydraulic telescopic rod, detection box side inner wall is provided with through-hole, and hydraulic telescopic rod one end passes through through-hole side inner wall.Anchor chain ontology can be fixed in cutting ferrule by the present invention; dynamometry experiment can all be carried out to the every segment length of anchor chain ontology; avoid it is traditional only to the torque of anchor chain overall length detected brought by limitation and inaccuracy; and anchor chain ontology when carrying out dynamometry when its damage snap when; cutting ferrule can play buffer protection function to anchor chain ontology, avoid fragment from flying out and damage to tester.

Description

A kind of ocean engineering anchor chain tensile capacity detection device

Technical field

It is detected and is filled with anchor chain tensile capacity the present invention relates to field of ocean engineering more particularly to a kind of ocean engineering It sets.

Background technique

In ocean engineering, anchor chain is commonly used in being fixed effect to ship in the sea, if before anchor chain uses not Carrying out tensile test to it may be such that anchor chain produces fracture when in use, lead to the generation of contingency.

When we are when carrying out tension test to anchor chain, general detection device is often to measure the overall length torque of anchor chain, Torque without being capable of measuring one section of anchor chain causes the result of measurement to be deviated so that measurement has certain limitation.Due to It is tension detection to be carried out to the anchor chain of ocean engineering, therefore we need to simulate marine environment complicated in ocean, guarantee inspection The authenticity of survey, when carrying out tension detection to anchor chain, the miniature deformation of anchor chain is that testing staff can not with the naked eye observe, Trouble and error are caused to the detection process and result of people.Therefore a kind of ocean engineering anchor chain tensile capacity detection is needed Device.

Summary of the invention

The purpose of the present invention is to solve the torque for not being capable of measuring one section of anchor chain exists in the prior art, so that measurement tool There is certain limitation, causes the result of measurement to be deviated, can not really simulate marine environment complicated in ocean, and The process and degree of the deformation of anchor chain and a kind of ocean engineering anchor chain tensile capacity detection device proposed.

To achieve the goals above, present invention employs following technical solutions:

A kind of ocean engineering anchor chain tensile capacity detection device, including detection box and clamping device, the detection box one Side outer wall is provided with fixation hole, and outlet tube is plugged in fixation hole, and detection box side outer wall is fixedly connected with fixed bottom Seat, the firm banking top exterior walls are provided with supporting leg, and supporting leg top exterior walls are provided with hydraulic cylinder, the hydraulic cylinder one End outer wall is plugged with hydraulic telescopic rod, and detection box side inner wall is provided with through-hole, and hydraulic telescopic rod one end passes through through-hole Side inner wall, the hydraulic telescopic rod is provided with brace far from one end outer wall of hydraulic cylinder, and brace one end outer wall is provided with folder Gripping arm, outer wall is provided with link block at the top and bottom of the clamping limb, and to be provided with the first rectangle convex for link block side outer wall Block, clamping limb side inner wall is provided with limiting slot, and connecting rod is plugged in limiting slot, the setting of described connecting rod one end outer wall There is cutting ferrule, and cutting ferrule side outer wall is provided with cutting ferrule end, cutting ferrule middle part and cutting ferrule tail portion, top exterior walls in the middle part of the cutting ferrule It is provided with fixing groove, cutting ferrule tail portion top exterior walls are provided with through slot, are connected with anchor chain ontology inside the fixing groove and through slot, And the junction height of anchor chain ontology is higher than the height of through slot and fixing groove, described cutting ferrule one end outer wall is provided with limited block, institute It states limited block top exterior walls and is provided with threaded hole, and threaded hole internal screw thread is connected with fixing bolt, detection box side outer wall It is provided with reciprocating motor, and one end outer wall of reciprocating motor output shaft is provided with impact bead, detection box side inner wall is set It is equipped with the extension sleeve equidistantly distributed, and extension sleeve top inner wall is provided with the first compressed spring, another telescopic Cylinder top inner wall is provided with the second compressed spring, and first compressed spring and the second compressed spring bottom outer wall are provided with and stretch Contracting bar, and telescopic rod bottom end outer wall is provided with connecting plate, anchor chain ontology side inner wall is provided with steel needle.

Further, outer wall is provided with the second rectangular cam, and the first rectangular cam at the top and bottom of the connecting rod And second engaging of mutual dislocation between rectangular cam.

Further, cross section is step-like in the cutting ferrule, and cutting ferrule tail portion cross section is V-type.

Further, the cutting ferrule top exterior walls are provided with raised line, and raised line gradient is 60 °.

Further, detection liquid is contained in the detection box, and anchor chain ontology is immersed in detection box.

Further, outer wall is provided with fixed plate at the top and bottom of the connecting plate, and fixed plate cross section is fish tail Type.

Further, the anchor chain bodies top and bottom outer wall are provided with ultra-thin steel bar, and steel needle is far from anchor chain sheet One end of body is in contact with ultra-thin steel bar.

Further, the length of first compressed spring is longer than the length of the second compressed spring.

Further, outlet tube side outer wall is provided with circular hole, and control valve is provided in circular hole.

Further, the hydraulic cylinder and reciprocating motor pass through conducting wire and are connected with switch, and switch through conducting wire connection There is power supply.

The invention has the benefit that

1. anchor chain ontology can be fixed in cutting ferrule by cutting ferrule middle part, fixing groove, through slot and the cutting ferrule tail portion of setting, it can All to carry out dynamometry experiment to the every segment length of anchor chain ontology, avoids and traditional institute's band only is detected to the torque of anchor chain overall length Come limitation and inaccuracy, and anchor chain ontology when carrying out dynamometry when its damage snap when, cutting ferrule can be to anchor chain ontology Buffer protection function is played, avoids fragment from flying out and tester is damaged, since in the middle part of cutting ferrule and cutting ferrule tail portion is respectively Stepped ramp type and V-type, it is therefore prevented that anchor chain falls off out of slot in measurement, so that operation is more convenient and safe.

2. when due to carrying out tensile test to anchor chain, anchor chain ontology is horizontal by 30 ° by the cutting ferrule and raised line of setting Angle it is more life-like simulate use of the anchor chain in ocean engineering, and raised line tilt angle be 60 ° make raised line with by Power direction is vertical, so that the frictional force between anchor chain ontology and raised line be made to reach maximum, structure is more reasonable.

3., can be more preferable by connecting rod by clamping limb, connecting rod, the first rectangular cam and the second rectangular cam of setting Clamping, and the first rectangular cam and the second rectangular cam mutual dislocation engaging, ensure that between connecting rod and clamping limb Stability.

4. by reciprocating motor, connecting plate and the fixed plate of setting, reciprocating motor carries out connecting plate to beat the company of ensure that Fishplate bar generates wave in aqueous solution, more real simulation truth of the anchor chain in ocean, and fixed plate cross section For fish tail type, facilitates connecting plate and swung in aqueous solution.

5. by extension sleeve, the first compressed spring, the second compressed spring and the telescopic rod of setting, due to the first compression bullet The wave that length difference between spring and the second compressed spring can be such that connecting plate generates in water is more random, really Simulate the water environment of ocean complexity.

6., when miniature deformation occurs for anchor chain, people can not use meat by steel needle, anchor chain ontology and the ultra-thin steel bar of setting Eye is observed, therefore we can really react the small of anchor chain generation by the vertical range between steel needle and ultra-thin steel bar Deformation facilitates people and preferably carries out tension test to anchor chain.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of ocean engineering anchor chain tensile capacity detection device proposed by the present invention；

Fig. 2 is a kind of ferrule structure schematic diagram of ocean engineering anchor chain tensile capacity detection device proposed by the present invention；

Fig. 3 is a kind of cord tissue schematic diagram of ocean engineering anchor chain tensile capacity detection device proposed by the present invention；

Fig. 4 is a kind of clamping device enlarged structure signal of ocean engineering anchor chain tensile capacity detection device proposed by the present invention Figure；

Fig. 5 is a kind of extension sleeve structural schematic diagram of ocean engineering anchor chain tensile capacity detection device proposed by the present invention；

Fig. 6 is a kind of fixed plate structure schematic diagram of ocean engineering anchor chain tensile capacity detection device proposed by the present invention；

Fig. 7 is a kind of anchor chain ontology deformation process structure of ocean engineering anchor chain tensile capacity detection device proposed by the present invention Schematic diagram.

In figure: 1 detection box, 2 limited blocks, 3 fixing bolts, 4 control valves, 5 outlet tubes, 6 anchor chain ontologies, 7 clamping dresses It sets, 701 link blocks, 702 clamping limbs, 703 limiting slots, 704 first rectangular cams, 705 connecting rods, 706 second rectangular cams, 8 Through-hole, 9 hydraulic telescopic rods, 10 hydraulic cylinders, 11 firm bankings, 12 cutting ferrules, 1201 cutting ferrule ends, 1202 fixing grooves, 1203 cutting ferrules Middle part, 1204 cutting ferrule tail portions, 1205 through slots, 1206 raised lines, 13 impact beads, 14 reciprocating motors, 15 telescopic rods, 16 first compression bullets Spring, 17 second compressed springs, 18 extension sleeves, 19 connecting plates, 20 fixed plates, 21 steel needles, 22 ultra-thin steel bars.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.

Referring to Fig.1-5, a kind of ocean engineering anchor chain tensile capacity detection device, including detection box 1 and clamping device 7,1 side outer wall of detection box is provided with fixation hole, and outlet tube 5 is plugged in fixation hole, and 1 side outer wall of detection box is fixed to be connected It is connected to firm banking 11, supporting leg has been bolted in 11 top exterior walls of firm banking, and supporting leg top exterior walls pass through spiral shell It tethers and is connected to hydraulic cylinder 10,10 one end outer wall of hydraulic cylinder is plugged with hydraulic telescopic rod 9, and 1 side inner wall of detection box is provided with through-hole 8, and 9 one end of hydraulic telescopic rod passes through 8 side inner wall of through-hole, hydraulic telescopic rod 9 is welded with far from one end outer wall of hydraulic cylinder 10 Brace, and brace one end outer wall is welded with clamping limb 702,702 top and bottom outer wall of the clamping limb company of being bolted Block 701 is connect, and 701 side outer wall of link block is welded with the first rectangular cam 704,702 side inner wall of clamping limb is provided with limiting slot 703, and connecting rod 705 is plugged in limiting slot 703,705 one end outer wall of connecting rod is welded with cutting ferrule 12, and outside 12 side of cutting ferrule Wall is provided with cutting ferrule end 1201, cutting ferrule middle part 1203 and cutting ferrule tail portion 1204, and 1203 top exterior walls are provided with solid in the middle part of cutting ferrule Determine slot 1202,1204 top exterior walls of cutting ferrule tail portion are provided with through slot 1205, are connected with anchor inside fixing groove 1202 and through slot 1205 Chain ontology 6, and the junction height of anchor chain ontology 6 is higher than the height of through slot 1205 and fixing groove 1202,12 one end outer wall of cutting ferrule It is welded with limited block 2,2 top exterior walls of limited block are provided with threaded hole, and threaded hole internal screw thread is connected with fixing bolt 3, detection case Reciprocating motor 14 has been bolted in 1 side outer wall of body, and one end outer wall of 14 output shaft of reciprocating motor is bolted There is impact bead 13,1 side inner wall of detection box is welded with the extension sleeve 18 equidistantly distributed, and 18 top inner wall of extension sleeve It is welded with the first compressed spring 16, another 18 top inner wall of extension sleeve is welded with the second compressed spring 17, the first compressed spring 16 and 17 bottom outer wall of the second compressed spring be welded with telescopic rod 15, and 15 bottom end outer wall of telescopic rod is welded with connecting plate 19, 6 side inner wall of anchor chain ontology is welded with steel needle 21.

In the present invention, 705 top and bottom outer wall of connecting rod is welded with the second rectangular cam 706, and the first rectangle is convex Mutual dislocation engages between block 704 and the second rectangular cam 706, improves the friction between clamping limb 702 and connecting rod 705 Power, so that clamping is more stable.

1203 cross sections are step-like in the middle part of cutting ferrule, and 1204 cross section of cutting ferrule tail portion is V-type, it is therefore prevented that anchor chain is measuring When fall off out of slot so that operation it is more convenient and safe.

12 top exterior walls of cutting ferrule are welded with raised line 1206, and 1206 gradient of raised line is 60 °, due to anchor chain horizontal by 30 ° of angles it is more life-like simulate use of the anchor chain in ocean engineering, and 1206 tilt angle of raised line is 60 ° so that Raised line 1206 is vertical with Impact direction, so that the frictional force between anchor chain and raised line 1206 be made to reach maximum, structure is more reasonable.

Detection liquid is contained in detection box 1, and anchor chain ontology 6 is immersed in detection box 1, is more really simulated The corrosivity of seawater in ocean.

19 top and bottom outer wall of connecting plate is provided with fixed plate 20, and 20 cross section of fixed plate is fish tail type, convenient Connecting plate 19 is swung in aqueous solution.

6 top and bottom outer wall of anchor chain ontology is welded with ultra-thin steel bar 22, and the one end of steel needle 21 far from anchor chain ontology 6 It is in contact with ultra-thin steel bar 22, anchor chain generation can be really reacted by the vertical range between steel needle 21 and ultra-thin steel bar 22 Miniature deformation, facilitate people preferably to anchor chain carry out tension test.

The length of first compressed spring 16 is longer than the length of the second compressed spring 17, can make to connect, 19 generate in water Wave it is more random.

5 side outer wall of outlet tube is provided with circular hole, and control valve 4 has been bolted in circular hole.

Hydraulic cylinder 10 and reciprocating motor 14 are connected with switch by conducting wire, and switch and be connected with power supply by conducting wire.

In use, anchor chain ontology 6 is connected in cutting ferrule 12 by staff, the junction between anchor chain ontology 6 is higher than solid Determine the height of slot 1202 and through slot 1205, is then fixed on limited block 2 in detection box 1 by fixing bolt 3, by cutting ferrule 12 The connecting rod 705 of other end welding is clamped by clamping limb 702, the top and bottom outer wall of clamping limb 702 and connecting rod 705 The first rectangular cam 704 and 706 mutual dislocation of the second rectangular cam clamping being arranged, improve clamping limb 702 and connecting rod 705 Between frictional force so that clamping it is more stable, 702 other end of clamping limb is connected on 9 one end outer wall of hydraulically extensible telescopic rod, Opening control valve 4 will test submergence anchor chain ontology 6, start reciprocating motor 14, and reciprocating motor 14 connects by the way that the hammer of impact bead 12 is dynamic Fishplate bar 19 so that connecting plate 19 simulates the wave in ocean in detection box 1, and passes through the first pressure in extension sleeve 18 Length between contracting spring 16 and the second compressed spring 17 is different, can more really simulate the water environment of ocean, with Afterwards start hydraulic cylinder 10, when anchor chain ontology 6 generate miniature deformation when, people naked eyes can not observe, can by steel needle 21 with Vertical range between ultra-thin steel bar 22 really observes the deformation degree of anchor chain ontology 6.

The foregoing is only a preferred embodiment of the present invention, but scope of protection of the present invention is not limited thereto, Anyone skilled in the art in the technical scope disclosed by the present invention, according to the technique and scheme of the present invention and its Inventive concept is subject to equivalent substitution or change, should be covered by the protection scope of the present invention.

Claims (10)

1. a kind of ocean engineering anchor chain tensile capacity detection device, including detection box (1) and clamping device (7), feature It is, detection box (1) side outer wall is provided with fixation hole, and outlet tube (5), the detection box are plugged in fixation hole (1) side outer wall is fixedly connected with firm banking (11), and firm banking (11) top exterior walls are provided with supporting leg, and support Leg top exterior walls are provided with hydraulic cylinder (10), and described hydraulic cylinder (10) one end outer wall is plugged with hydraulic telescopic rod (9), the detection Cabinet (1) side inner wall is provided with through-hole (8), and hydraulic telescopic rod (9) one end passes through through-hole (8) side inner wall, described hydraulic to stretch Contracting bar (9) is provided with brace far from one end outer wall of hydraulic cylinder (10), and brace one end outer wall is provided with clamping limb (702), institute It states outer wall at the top and bottom of clamping limb (702) to be provided with link block (701), and link block (701) side outer wall is provided with the One rectangular cam (704), clamping limb (702) side inner wall are provided with limiting slot (703), and are plugged in limiting slot (703) Connecting rod (705), described connecting rod (705) one end outer wall are provided with cutting ferrule (12), and cutting ferrule (12) side outer wall is provided with In the middle part of cutting ferrule end (1201), cutting ferrule (1203) and cutting ferrule tail portion (1204), (1203) top exterior walls are provided in the middle part of the cutting ferrule Fixing groove (1202), cutting ferrule tail portion (1204) top exterior walls are provided with through slot (1205), the fixing groove (1202) and through slot (1205) internal to be connected with anchor chain ontology (6), and the junction height of anchor chain ontology (6) is higher than through slot (1205) and fixing groove (1202) height, described cutting ferrule (12) one end outer wall are provided with limited block (2), and limited block (2) top exterior walls are provided with spiral shell Pit, and threaded hole internal screw thread is connected with fixing bolt (3), detection box (1) side outer wall is provided with reciprocating motor (14), and one end outer wall of reciprocating motor (14) output shaft is provided with impact bead (13), and detection box (1) side inner wall is set It is equipped with the extension sleeve (18) equidistantly distributed, and extension sleeve (18) top inner wall is provided with the first compressed spring (16), separately One extension sleeve (18) top inner wall is provided with the second compressed spring (17), first compressed spring (16) and the second pressure Contracting spring (17) bottom outer wall is provided with telescopic rod (15), and telescopic rod (15) bottom end outer wall is provided with connecting plate (19), institute It states anchor chain ontology (6) side inner wall and is provided with steel needle (21).

2. a kind of ocean engineering according to claim 1 anchor chain tensile capacity detection device, which is characterized in that the company Outer wall is provided with the second rectangular cam (706) at the top and bottom of extension bar (705), and the first rectangular cam (704) and the second square Mutual dislocation engages between shape convex block (706).

3. a kind of ocean engineering according to claim 1 anchor chain tensile capacity detection device, which is characterized in that the card Set middle part (1203) cross section is step-like, and cutting ferrule tail portion (1204) cross section is V-type.

4. a kind of ocean engineering according to claim 1 anchor chain tensile capacity detection device, which is characterized in that the card Set (12) top exterior walls are provided with raised line (1206), and raised line (1206) gradient is 60 °.

5. a kind of ocean engineering according to claim 1 anchor chain tensile capacity detection device, which is characterized in that the inspection Detection liquid is contained in measuring tank body (1), and anchor chain ontology (6) is immersed in detection box (1).

6. a kind of ocean engineering according to claim 1 anchor chain tensile capacity detection device, which is characterized in that the company Outer wall is provided with fixed plate (20) at the top and bottom of fishplate bar (19), and fixed plate (20) cross section is fish tail type.

7. a kind of ocean engineering according to claim 1 anchor chain tensile capacity detection device, which is characterized in that the anchor Outer wall is provided with ultra-thin steel bar (22) at the top and bottom of chain ontology (6), and the one end of steel needle (21) far from anchor chain ontology (6) with Ultra-thin steel bar (22) is in contact.

8. a kind of ocean engineering according to claim 1 anchor chain tensile capacity detection device, which is characterized in that described The length of one compressed spring (16) is longer than the length of the second compressed spring (17).

9. a kind of ocean engineering according to claim 1 anchor chain tensile capacity detection device, which is characterized in that it is described go out Liquid pipe (5) side outer wall is provided with circular hole, and control valve (4) are provided in circular hole.

10. a kind of ocean engineering according to claim 1 anchor chain tensile capacity detection device, which is characterized in that described Hydraulic cylinder (10) and reciprocating motor (14) are connected with switch by conducting wire, and switch and be connected with power supply by conducting wire.