CN215178572U - Detection equipment for detecting disengaging hook device - Google Patents

Abstract

The utility model relates to a check out test set technical field specifically is a check out test set for detecting disengaging hook device, including fixing base and tension mechanism, the fixing base is used for fixed disengaging hook, and tension mechanism includes the power supply, is provided with the detection piece on the power supply, and the detection piece is used for being connected with the cable, and the detection piece is connected with and is used for giving the spacing subassembly of cable. This scheme is spacing through spacing subassembly to the cable, and the cable pops out when can avoiding the fluke release and causes personnel's injury.

Description

Detection equipment for detecting disengaging hook device

Technical Field

The utility model relates to a check out test set technical field specifically is a check out test set for detecting disengaging hook device.

Background

The release hook is special equipment which is arranged on a wharf or a ship and used for ship mooring and mooring, is an updated product of the traditional mooring bollard, and compared with the mooring bollard, the release hook reduces the labor intensity of workers and improves the labor efficiency, safety and reliability.

The cable release hook generally comprises a hook frame, an anchor hook and a locking mechanism for locking the anchor hook, wherein the anchor hook is hinged on the hook frame, the locking mechanism locks the anchor hook when the cable is hung, the locking mechanism releases the anchor hook when the cable is released, and the anchor hook rotates under the tension of the cable to realize cable release. After the production of the release hook is finished, the structural safety of the release hook needs to be detected so as to ensure that the release hook is safe and reliable and is used for ship mooring.

During actual detection, not only need detect the pulling force that the release hook can bear to whether detect its structure safety, still need detect its practicality, whether it can the atress release promptly, with the condition of atress release when simulating it and mooring for boats and ships, the particular operation is to release the fluke after adjusting the rated tension of release hook with the pulling force. Most of the existing detection equipment is connected with a disengaging hook and a power source through a guy cable, the guy cable is directly and simply sleeved on the power source, and when an anchor hook is released, the guy cable is easily popped out by large pulling force, so that personnel injury is easily caused, and the safety is low.

SUMMERY OF THE UTILITY MODEL

The utility model discloses it is anticipated to provide the check out test set who is used for detecting the release hook device to the cable easily pops out the problem of hindering the people when solving and detecting release hook atress release.

In order to achieve the above object, the utility model provides a following technical scheme:

a check out test set for detecting disengaging hook device, including fixing base and pulling force mechanism, the fixing base is used for fixed disengaging hook, and pulling force mechanism includes the power supply, is provided with the detection piece on the power supply, and the detection piece is used for being connected with the cable, and the detection piece is connected with and is used for giving the spacing subassembly of cable.

The principle and the beneficial effect of the scheme are as follows:

the fixing base is used for fixed disengaging hook, detects the piece and is used for being connected with the cable, and the locating part is used for spacing for the cable, and the power supply is used for providing pulling force. During detection, the release hook is fixed on the fixing seat, one end of the stay cable is sleeved on the release hook, the other end of the stay cable is connected with the detection piece, the power source is started to pull the stay cable, pulling force is applied to the release hook, and the pulling force is detected through the detection piece, so that the pulling force detection of the release hook can be realized. When the force release capacity of the release hook needs to be detected, the anchor hook is released after the pulling force is adjusted to the rated pulling force of the release hook, the stay cable is separated from the release hook quickly, the release hook is detected in force release, the stay cable is limited through the limiting assembly, and the stay cable is popped out to cause personal injury when the anchor hook is released.

Furthermore, the power source is an oil cylinder, the detection part is a pin shaft sensor, and the pin shaft sensor is inserted into the free end of the oil cylinder rod.

Has the advantages that: the oil cylinder is adopted as a power source to provide enough pulling force, the pin shaft sensor is adopted to detect the pulling force, the structure is simple, and the detection is convenient.

Furthermore, spacing subassembly is including connecting the spacing dish at round pin axle sensor both ends, and the area of spacing dish is greater than round pin axle sensor's diameter.

Has the advantages that: during actual application, an annular inhaul cable is adopted, the middle of the inhaul cable is sleeved on the disengaging hook after the inhaul cable is folded, two ends of the inhaul cable are respectively sleeved at two ends of the pin shaft sensor, the limiting discs are installed at two ends of the pin shaft sensor, two ends of the inhaul cable are limited by the limiting discs when the anchor hook is released, the inhaul cable can be prevented from sliding off the pin shaft sensor, and the inhaul cable is prevented from being popped out when the anchor hook is released.

Furthermore, a sleeve is fixed on the limiting discs, the sleeve can be sleeved on the pin shaft sensor, and a connecting piece can be detachably connected between the limiting discs.

Has the advantages that: through with the sleeve cover on round pin axle sensor, can connect spacing dish on round pin axle sensor, easy dismounting, the connecting piece is used for connecting two spacing dishes, makes its stable connection on round pin axle sensor.

Furthermore, the connecting piece is the connecting plate of U type, and the spacing dish of round pin axle sensor both sides is detained between the connecting plate.

Has the advantages that: two spacing dishes are withheld to the connecting plate that adopts the U type, compare the connecting plate that adopts the bar and connect, and the connection effect of this scheme is better.

Furthermore, a wiring hole is formed in the limiting disc on one side of the pin shaft sensor, and the diameter of the wiring hole is smaller than that of the pin shaft sensor.

Has the advantages that: the wiring hole is used for supplying the wiring of round pin axle sensor, designs the diameter in wiring hole for being less than the diameter of round pin axle sensor, can avoid round pin axle sensor from wiring hole roll-off, improves round pin axle sensor's installation stability.

Furthermore, a positioning assembly for positioning the pin shaft sensor is arranged on the oil cylinder rod.

Has the advantages that: the positioning assembly is arranged to position the pin shaft sensor, so that the pin shaft sensor is prevented from rotating in the detection process, and the detection accuracy of the pin shaft sensor is improved.

Furthermore, the positioning assembly comprises a positioning screw hole formed in the end face of the free end of the oil cylinder rod and a positioning bolt in the positioning screw hole in threaded connection, and the positioning bolt is connected in the positioning screw hole and then abutted against the pin shaft sensor.

Has the advantages that: the positioning bolt is screwed into the positioning screw hole, and the pin shaft sensor can be positioned by tightly abutting the positioning bolt against the pin shaft sensor, so that the structure is simple, and the operation is convenient.

Further, still include the base, pulling force mechanism and fixing base are all installed on the base, and the fixing base can be dismantled with the base and be connected.

Has the advantages that: the fixing base can be dismantled with the base and can adjust the distance between fixing base and the pulling force mechanism according to the length of disengaging hook to be suitable for the detection of polytype disengaging hook, enlarged the utility model discloses an application scope.

Further, the fixing base comprises a bottom plate, a plurality of connecting bolts are installed on the bottom plate, a plurality of connecting screw holes used for installing the connecting bolts are formed in the base, a vertical side plate is fixed on one side of the bottom plate, two fixing plates parallel to each other are horizontally fixed on the side plate, fixing holes are formed in the fixing plates, and the fixing plates and the oil cylinder rod are arranged oppositely.

Has the advantages that: the connecting shaft of the disengaging hook is arranged between the two fixing plates, so that the connecting hole of the connecting shaft of the disengaging hook is aligned with the fixing hole, and the connecting shaft is arranged in the hole after alignment, so that the disengaging hook can be fixed, and the disengaging hook is simple in structure and convenient to operate.

Drawings

Fig. 1 is a schematic structural view of a release hook shown in an embodiment of the present invention;

FIG. 2 is a schematic structural view of the present invention;

fig. 3 is an enlarged schematic view of a portion a in fig. 2.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the anchor hook comprises an anchor hook 1, a connecting shaft 2, a connecting hole 3, an oil cylinder 4, an oil cylinder rod 5, a fixing hole 6, a fixing plate 7, a reinforcing plate 8, a connecting screw hole 9, a bottom plate 10, a connecting bolt 11, a side plate 12, a base 13, a connecting plate 14, a pin shaft sensor 15, a sleeve 16, a positioning screw hole 17, a limiting disc 18 and a wiring hole 19.

Example (b):

as can be seen from fig. 2 and 3, the detection apparatus for detecting the disengaging hook device includes a base 13, a fixing seat and a tension mechanism, wherein the fixing seat is used for fixing the disengaging hook shown in fig. 1, and the fixing seat is detachably mounted on the base 13. Specifically, the fixing seat comprises a bottom plate 10, a plurality of connecting bolts 11 are connected to the periphery of the bottom plate 10 in a threaded mode, a plurality of connecting screw holes 9 used for installing the connecting bolts 11 are formed in a base 13, and the fixing seat can be installed through connection of the connecting bolts 11 and the connecting screw holes 9. The welding of bottom plate 10 left side has vertical curb plate 12, and the welding has three reinforcing plate 8 between 12 right sides of curb plate and the bottom plate 10, and the horizontal welding in 12 left sides of curb plate has two fixed plates 7 that are parallel to each other, has all opened fixed orifices 6 on two fixed plates 7.

The tensile mechanism includes the power supply, and the power supply is hydro-cylinder 4 in this embodiment, and hydro-cylinder 4 passes through the bolt to be installed on base 13, and it has the detection piece to peg graft perpendicularly on the hydro-cylinder pole 5 free end of hydro-cylinder 4, and the detection piece is round pin shaft sensor 15 in this embodiment, and the detection piece is used for being connected with the cable, and the detection piece is connected with and is used for giving the spacing subassembly of cable spacing.

The limiting assembly comprises limiting discs 18 connected to two ends of the pin shaft sensor 15, the area of each limiting disc 18 is larger than the diameter of the pin shaft sensor 15, specifically, sleeves 16 are welded on the two limiting discs 18, and the sleeves 16 can be sleeved on the pin shaft sensors 15; the connecting pieces are connected between the two limiting discs 18 through bolts, the connecting pieces are U-shaped connecting plates 14 in the embodiment, the number of the connecting plates 14 is two, the two connecting plates 14 are respectively positioned above and below the oil cylinder rod 5, the two limiting discs 18 are buckled by the two connecting plates 14 after the sleeve 16 is sleeved on the pin shaft sensor 15, and then the connecting plates 14 and the limiting discs 18 are fixed through the bolts, so that the limiting discs 18 can be installed on the pin shaft sensor 15.

A wiring hole 19 is formed in one of the limiting discs 18, and the diameter of the wiring hole 19 is smaller than that of the pin shaft sensor 15. The oil cylinder rod 5 is provided with a positioning assembly for positioning the pin shaft sensor 15, the positioning assembly comprises a positioning screw hole 17 formed in the end face of the free end of the oil cylinder rod 5 and a positioning bolt in the positioning screw hole 17 in threaded connection, and the positioning bolt is connected in the positioning screw hole 17 and then abutted against the pin shaft sensor 15.

The specific implementation process is as follows:

the release hook is placed between the fixed seat and the oil cylinder rod 5, the connecting shaft 2 on the release hook is placed between the two fixing plates 7, the connecting hole 3 in the connecting shaft 2 is aligned with the fixing hole 6 in the fixing plate 7, and then the connecting shaft 2 is connected in the hole, so that the release hook can be installed on the fixed seat.

The sleeves 16 are sleeved at two ends of the pin shaft sensor 15, an annular inhaul cable is adopted in the embodiment, after the installation is completed, the annular inhaul cable is folded in half, the middle of the annular inhaul cable is hooked on the anchor hook 1 of the disengaging hook, two ends of the inhaul cable are respectively sleeved on the two sleeves 16, the two limiting discs 18 are buckled by the connecting plate 14 after the inhaul cable is sleeved on the sleeves, the connecting plate 14 and the limiting discs 18 are fixed by bolts after the inhaul cable is buckled, and the limiting discs 18 can be fixed on the pin shaft sensor 15, so that the inhaul cable is fixed.

When the structural safety of the release hook is detected, the pressure of the oil cylinder 4 is adjusted, and the pulling force which is 1.5 times of the rated pulling force is applied to the release hook, so that the structural safety of the release hook is detected, and if the release hook can bear the pulling force, the structural safety of the release hook is determined. During detection, the pin shaft sensor 15 is electrically connected with a computer, the pin shaft sensor 15 transmits detected tension data to the computer, and the tension data are displayed after being processed by the computer so as to be conveniently recorded by workers.

After the structural safety detection is finished, the pressure of the oil cylinder 4 is adjusted, the pulling force is reduced to the rated pulling force of the release hook, and then the anchor hook 1 is released, so that the condition of the release hook during actual release is simulated, and whether the release hook can be stressed and released is detected.

The embodiment gives the cable spacing through spacing dish 18 and connecting plate 14, and the cable middle part separates with the release hook when releasing the release hook, but the cable both sides cover on sleeve 16, and it is spacing to receive connecting plate 14 from top to bottom by spacing dish 18 about the cable for the cable both ends all can't separate with round pin axle sensor 15, avoid the cable to pop out from this and cause personnel's injury.

The above description is only an example of the present invention, and the common general knowledge of the known specific structures and characteristics of the embodiments is not described herein. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several modifications and improvements can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (10)

1. A check out test set for detecting disengaging hook device which characterized in that: including fixing base and pulling force mechanism, the fixing base is used for fixed disengaging hook, and pulling force mechanism includes the power supply, is provided with the detection piece on the power supply, and the detection piece is used for being connected with the cable, and the detection piece is connected with and is used for giving the spacing subassembly of cable.

2. The detection apparatus for detecting a release hook device according to claim 1, characterized in that: the power source is an oil cylinder, the detection part is a pin shaft sensor, and the pin shaft sensor is inserted into the free end of an oil cylinder rod.

3. The detection apparatus for detecting a release hook device according to claim 2, characterized in that: the limiting assembly comprises limiting discs connected to two ends of the pin shaft sensor, and the area of each limiting disc is larger than the diameter of the pin shaft sensor.

4. The detection apparatus for detecting a release hook device according to claim 3, characterized in that: the limiting discs are fixed with sleeves which can be sleeved on the pin shaft sensors, and connecting pieces are detachably connected between the limiting discs.

5. The detection apparatus for detecting a release hook device according to claim 4, characterized in that: the connecting piece is the connecting plate of U type, and the spacing dish of round pin axle sensor both sides is detained between the connecting plate.

6. The detection apparatus for detecting a release hook device according to claim 3, characterized in that: and a wiring hole is formed in the limiting disc on one side of the pin shaft sensor, and the diameter of the wiring hole is smaller than that of the pin shaft sensor.

7. The detection apparatus for detecting a release hook device according to claim 6, characterized in that: and a positioning assembly for positioning the pin shaft sensor is arranged on the oil cylinder rod.

8. The detection apparatus for detecting a release hook device according to claim 7, characterized in that: the positioning assembly comprises a positioning screw hole formed in the end face of the free end of the oil cylinder rod and a positioning bolt in the positioning screw hole in threaded connection, and the positioning bolt is connected in the positioning screw hole and then abutted against the pin shaft sensor.

9. The detection apparatus for detecting a release hook device according to claim 2, characterized in that: still include the base, pulling force mechanism and fixing base are all installed on the base, and the fixing base can be dismantled with the base and be connected.

10. The detection apparatus for detecting a release hook device according to claim 9, characterized in that: the fixing base comprises a bottom plate, a plurality of connecting bolts are installed on the bottom plate, a plurality of connecting screw holes used for installing the connecting bolts are formed in the base, a vertical side plate is fixed on one side of the bottom plate, two fixing plates parallel to each other are horizontally fixed on the side plate, fixing holes are formed in the fixing plates, and the fixing plates and the oil cylinder rod are arranged oppositely.

Images