CN220810372U - Packaging structure of underwater detection equipment - Google Patents

Abstract

The utility model discloses a packaging structure of underwater detection equipment, which is characterized by comprising a box body, a box cover, an antistatic bag, a bottom plate, a cross-shaped supporting plate and a partition plate; the bottom surface and the side surface of the box body are honeycomb paperboards, and the component surfaces are bonded through paper corner protection strips to form the box body; the box cover is mounted on the box body in a limiting manner through a paper corner bead to form a closed space; the antistatic bag is positioned at the inner side of the box body and is used for protecting the waterproof cable and the probe to be packaged; the bottom plate, the cross-shaped supporting plate and the partition plate are positioned in the antistatic bag; the bottom plate is positioned at the bottom of the antistatic bag, and the center of the bottom plate is provided with a cross-shaped groove; the cross-shaped supporting plate is fixedly connected to the bottom plate through a cross-shaped groove and is used for fixing the coiled waterproof cable; the bottom of baffle is connected with the top of cross backup pad, the top center of baffle is equipped with a recess for hold and block the probe. The utility model has simple and safe operation.

Description

Packaging structure of underwater detection equipment

Technical Field

The utility model belongs to the field of equipment manufacturing, relates to a packaging design of underwater equipment, and particularly relates to a packaging structure of underwater detection equipment.

Background

The underwater detection device is widely applied to various fields such as ocean engineering, underwater archaeology, water wave environment monitoring, food engineering, nuclear industry, high-energy physical experiments and the like. The underwater detection equipment mainly comprises a waterproof probe and a waterproof cable, wherein the shape of the common waterproof probe is cylindrical, spherical, fish-shaped and rectangular, and the specific size and shape depend on the application field and the function. In general, for underwater detection equipment with larger probe size, the waterproof cable and the probe are connected in a plugging manner through a sealing joint. While such a sealed connector design ensures that the underwater detection device is easy to package and transport, it is often costly to manufacture, and its degree of reliability is related to the personnel and environment each time the connector operation is performed, once dust or scratches appear on the sealing surfaces during the connector process, the tightness of the connector becomes poor, which can lead to damage to the underwater detection device.

From the perspective of reliability, no matter whether a connector exists between the waterproof cable and the probe, the probe and the waterproof cable are packaged and transported simultaneously, the plugging operation on a construction site is avoided, and the device is a reliable powerful guarantee of underwater detection equipment. To achieve this, the following problems need to be solved:

(1) Waterproof cables are often thick and difficult to withstand with high torque. Therefore, in the packaging process, the joint of the probe and the waterproof cable is prevented from bearing larger stress, so that the joint is damaged;

(2) If the probe collides with the waterproof cable, the waterproof cable will leak or the probe will be damaged. Thus, the probe and the waterproof cable should each be placed in separate spaces, and there is no direct contact between the two.

(3) During transport, the packages often need to be stacked, which can cause damage to the probe and waterproof cable once the package is insufficiently strong or subjected to severe vibration. Therefore, the package needs to have a good vibration-proof effect while satisfying sufficient strength.

(4) In order to avoid pollution to the detection equipment in the transportation process, the package should have a clean protection effect.

(5) The materials selected for packaging have the characteristics of environmental protection, low cost, easy recovery and the like. In addition, the packaging operation should be as simple as possible, easy for personnel to operate, and reduce personnel cost in the packaging process.

Disclosure of utility model

The utility model relates to a packaging structure of underwater detection equipment, which aims to solve the problem of integral packaging of an underwater probe and an underwater cable. The packaging structure mainly comprises the following parts: the anti-static box comprises a box body, a box cover, a corner protector, a buckle, an anti-static sealing bag, a bottom plate, a cross-shaped supporting plate, a partition plate and the like.

The box is square, and 5 faces are honeycomb paperboards, and the honeycomb paperboards are spliced through paper corner bead bonding, and an oval through hole is formed in the middle of two side plates of the box and used for installing a buckle.

The box cover is formed by bonding 1 piece of honeycomb paper board and 4 pieces of paper corner protection strips, wherein the paper corner protection strips have the function of limiting the cover onto the box body to form a closed space;

The corner protectors are made of nylon, and 8 corner protectors are fixed on corners of the box body and the box cover through saddle nails, so that the box body is prevented from being damaged due to collision of the corners of the packaging box;

The buckles are arranged on two sides of the box body, so that personnel can conveniently transport the single box body.

The antistatic sealing bag is positioned on the inner side of the box body and used for protecting the waterproof cable and the probe, and can prevent unclean substances such as dust, greasy dirt and the like from penetrating into the box body and contacting with underwater detection equipment. The antistatic sealing bag is provided with the one-way air extraction valve, so that the situation that the box cover cannot be covered due to too much air in sealing is avoided. In addition, dry gas is introduced into the sealed bag, so that oxidation and moisture of underwater detection equipment can be avoided.

The bottom plate is made of honeycomb paper board, and is provided with a cross-shaped groove at the center and fixed on the cross-shaped supporting plate.

The cross-shaped supporting plate is corrugated board and can be clamped on the bottom plate for fixing coiled cables. The cable height after the rolling is H1, is less than the high H2 of cross backup pad, and this kind of way avoids the weight effect of probe on the cable, avoids waterproof cable to be pressed and leads to damaging.

The baffle material is honeycomb cardboard, and the center of cardboard is a recess for hold and block the probe. When avoiding the packing box slope, the probe striking box lateral wall leads to accurate probe to be damaged. Four corners of the baffle are concave structures, and the waterproof cable is connected with the side wall of the probe through the structures. Because the connection has only a small angle compared with the direction of the cable coil, the cable cannot bear extremely large torque, and the waterproof cable is prevented from being damaged.

The technical scheme of the utility model is as follows:

the packaging structure of the underwater detection equipment is characterized by comprising a box body 2, a box cover 3, an antistatic bag 4, a bottom plate 5, a cross-shaped supporting plate 6 and a partition plate 7;

The bottom surface and the side surface of the box body 2 are honeycomb paperboards, and all the component surfaces of the box body 2 are bonded through paper corner protection strips to form the box body 2;

The box cover 3 comprises a piece of honeycomb paperboard, and the box cover 3 is mounted on the box body 2 in a limiting manner through paper corner protection strips to form a closed space;

The antistatic bag 4 is positioned at the inner side of the box body 2 and is used for protecting a waterproof cable 9 and a probe 8 to be packaged; the bottom plate 5, the cross-shaped supporting plate 6 and the partition plate 7 are positioned in the antistatic bag 4;

The bottom plate 5 is positioned at the bottom of the antistatic bag 4, and a cross-shaped groove is formed in the center of the bottom plate 5;

The cross-shaped supporting plate 6 is fixedly connected to the bottom plate 5 through the cross-shaped groove and is used for fixing a coiled waterproof cable 9;

The bottom of the baffle 7 is connected with the top of the cross-shaped support plate 6, and a groove is arranged in the center of the top of the baffle 7 and used for accommodating and clamping the probe 8.

Further, the box body 2 is a square box body, wherein the bottom surface and the four side surfaces are honeycomb paperboards.

Further, two opposite sides of the case 2 are respectively provided with an oval through hole for installing the buckle 11.

Further, the case cover 3 is formed by bonding a piece of honeycomb paperboard and four pieces of paper corner protection strips.

Further, a corner protector 10 is arranged at each corner of the box body 2 and the box cover 3.

Further, the corner protector 10 is made of nylon.

Further, four corners of the partition 7 are concave structures, and one end of the waterproof cable 9 is connected to the probe 8 by passing through the concave structures.

Furthermore, the antistatic bag 4 is provided with a one-way air extraction valve, so that the case cover 3 cannot be connected with the case body 2 in a sealing way due to too much air during sealing.

Further, a drying gas is introduced into the antistatic bag 4.

Further, the height of the waterproof cable 9 after being wound is smaller than the height of the cross-shaped supporting plate 6, so that the weight of the probe 8 is prevented from acting on the waterproof cable 9.

The packing flow of the underwater detection equipment is as follows:

Firstly, after a waterproof cable 9 is coiled, a plurality of belts are used for binding, a probe 8 is placed on one side of the cable coil, and 1-2 meters of waterproof cable is reserved between the probe 8 and the cable coil;

Further, the spacer 7 is placed on the upper side of the cable drum, and then the probe 8 is carried onto the groove of the spacer 7. In this process, the cable should be led from the lower side to the upper side from one corner of the partition.

Further, the antistatic sealing bag 4 is placed in the case 2, and then the cross-shaped support plate 6 is caught in the cross-shaped groove of the bottom plate 5.

Further, the whole structure of the cross-shaped supporting plate 6 and the bottom plate 5 is put into the antistatic bag 4, and then, a person pulls the cable, and the probe and the cable are put into the packaging box.

Further, the opening of the antistatic sealing bag 4 is sealed by a sealing machine, and a small opening is left, preferably, in order to keep the detecting equipment dry and prevent the oxidation of the device, nitrogen is continuously introduced into the bag through the opening, and after the bag is filled, a dust collector is used, and redundant gas in the bag is pumped out through a one-way valve.

Further, the box cover 3 is covered, and the whole packing box is packed in a cross shape through a plastic steel belt.

Further, a plurality of packing cases are stacked on a tray, and the packing cases are wound with a preservative film.

Finally, the packing box and the tray are fixed through the plastic steel belt, so that the packing box and the tray are convenient to transport and transport in the future.

The multi-core composite armored cable package for the pure water environment has the beneficial effects that:

(1) The probe and the waterproof cable are packaged and transported simultaneously, so that the plugging operation in a construction site is avoided, and the connection reliability between the probe and the waterproof cable is improved;

(2) The packaging method avoids the connection part of the probe and the waterproof cable from bearing larger stress and from being damaged;

(3) The probe and the cable are independently packaged, so that collision damage in the transportation process is avoided; meanwhile, the packaging device has good strength, vibration prevention and clean protection functions;

(4) The packaging material has the characteristics of environmental protection, low manufacturing cost, easy recovery and the like. Meanwhile, the packaging operation is simple, the personnel operation is easy, and the personnel cost in the packaging process is reduced.

Drawings

Fig. 1 is a packaging structure diagram of an underwater detection apparatus.

Fig. 2 is a packaging structure boxing diagram of the underwater detection device.

Fig. 3 is an exploded view of a packaging structure of the underwater detection apparatus.

In the figure: the anti-static sealing device comprises a 1-plastic steel belt, a 2-box body, a 3-box cover, a 4-anti-static sealing bag, a 5-bottom plate, a 6-cross-shaped supporting plate, a 7-partition plate, an 8-probe, a 9-waterproof cable, a 10-corner protector and an 11-buckle.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Fig. 1 shows an embodiment of a packaging structure for an underwater detection device, the packaging structure mainly comprising the following parts: the anti-static sealing box comprises a box body 2, a box cover 3, a corner protector 10, a buckle 11, an anti-static sealing bag 4, a bottom plate 5, a cross-shaped supporting plate 6 and a partition plate 7.

The box body 2 is a square box body, five surfaces of the square box body are honeycomb paperboards, the honeycomb paperboards are spliced through paper corner bead strip bonding, and an oval through hole is formed in the middle of two side plates of the box body 2 and used for installing a buckle.

The box cover 3 is formed by bonding a piece of honeycomb paperboard and four paper corner protection strips, wherein the paper corner protection strips have the function of limiting the box cover 3 onto the box body 2 to form a closed space;

The corner protectors 10 are made of nylon, and eight corner protectors 10 are fixed on each corner of the box body 2 and the box cover 3 through saddle nails, so that the box body is prevented from being damaged due to the fact that corners of the packaging box are knocked;

The buckles 11 are arranged on two sides of the box body 2, so that personnel can conveniently transport the single box body.

The antistatic sealing bag 4 is positioned at the inner side of the box body 2 and used for protecting the waterproof cable 9 and the probe 8, and prevents unclean substances such as dust, greasy dirt and the like from penetrating into the box body and contacting with underwater detection equipment. The antistatic sealing bag 4 is provided with a one-way extraction valve, so that the situation that the box cover cannot be covered due to too much gas in sealing is avoided. In addition, dry gas is introduced into the sealed bag, so that oxidation and moisture of underwater detection equipment can be avoided.

The bottom plate 5 is made of honeycomb paper board, is provided with a cross-shaped groove at the center, and is fixed on the cross-shaped supporting plate 6.

The cross-shaped supporting plate 6 is corrugated board and can be clamped on the bottom plate 5 for fixing the coiled waterproof cable. The height of the waterproof cable after being wound is H1, which is smaller than the height H2 of the cross-shaped supporting plate, so that the weight of the probe is prevented from acting on the cable, and the waterproof cable is prevented from being damaged due to being pressed.

The baffle 7 is made of honeycomb paper board, and the center of the paper board is provided with a groove for accommodating and clamping the probe. When avoiding the packing box slope, the probe striking box lateral wall leads to accurate probe to be damaged. Four corners of the baffle are groove structures, and the waterproof cable is connected with the side wall of the probe through the groove structures. Because the connection has only a small angle compared with the direction of the cable coil, the cable cannot bear extremely large torque, and the waterproof cable is prevented from being damaged.

The packing flow of the underwater detection equipment is as follows:

firstly, after a waterproof cable 9 is coiled, a plurality of belts are used for binding, a probe 8 is placed on one side of the cable coil, and 1-2 meters of waterproof cable is reserved between the probe and the cable coil;

The spacer 7 is placed on the upper side of the cable drum and then the probe 8 is moved onto the recess of the spacer 7. In this process, the cable should be led from the lower side to the upper side from one corner of the partition.

The antistatic sealing bag 4 is placed in the case 2, and then the cross-shaped supporting plate 6 is caught in the cross-shaped groove of the bottom plate 5.

The integral structure of the cross-shaped supporting plate 6 and the bottom plate 5 is arranged in the antistatic sealing bag 4, then, a person pulls the cable, and the probe 8 and the waterproof cable 9 are placed in the packaging box.

The opening of the antistatic sealing bag 4 is sealed by a sealing machine, and a small opening is left, preferably, in order to keep the detection equipment dry and prevent the oxidation of the device, nitrogen is continuously introduced into the antistatic sealing bag 4 through the opening, and after the bag is filled, a dust collector is used, and redundant gas in the bag is pumped out through a one-way valve.

The box cover 3 is covered, and the whole packing box is packed in a 'well' -shape through a plastic steel belt.

Stacking a plurality of packing boxes on a tray, and winding the packing boxes by using preservative films.

Finally, the packing box and the tray are fixed through the plastic steel belt, so that the packing box and the tray are convenient to transport and transport in the future.

The foregoing is merely illustrative embodiments of the present utility model, and the present utility model is not limited thereto, and any changes or substitutions that may be easily contemplated by those skilled in the art within the scope of the present utility model should be included in the scope of the present utility model. Therefore, the protection scope of the present utility model should be subject to the protection scope of the claims.

Claims (10)

1. The packaging structure of the underwater detection equipment is characterized by comprising a box body (2), a box cover (3), an antistatic bag (4), a bottom plate (5), a cross-shaped supporting plate (6) and a partition plate (7);

The bottom surface and the side surface of the box body (2) are honeycomb paperboards, and all the component surfaces of the box body (2) are bonded through paper corner protection strips to form the box body (2);

The box cover (3) comprises a piece of honeycomb paperboard, and the box cover (3) is mounted on the box body (2) through paper corner bead strips in a limiting manner to form a closed space;

The antistatic bag (4) is positioned at the inner side of the box body (2) and is used for protecting a waterproof cable (9) to be packaged and the probe (8); the bottom plate (5), the cross-shaped supporting plate (6) and the partition plate (7) are positioned in the antistatic bag (4);

The bottom plate (5) is positioned at the bottom of the antistatic bag (4), and a cross-shaped groove is formed in the center of the bottom plate (5);

The cross-shaped supporting plate (6) is fixedly connected to the bottom plate (5) through the cross-shaped groove and is used for fixing a coiled waterproof cable (9);

The bottom of the partition plate (7) is connected with the top of the cross-shaped supporting plate (6), and a groove is formed in the center of the top of the partition plate (7) and used for accommodating and clamping the probe (8).

2. Packaging structure for underwater detection equipment as claimed in claim 1, characterized in that the tank (2) is a square tank, wherein the bottom surface and the four sides are each a honeycomb cardboard.

3. Packaging structure for underwater detection equipment according to claim 2, characterized in that the two opposite sides of the tank (2) are respectively provided with an oval through hole for mounting the clasp (11).

4. A packaging structure for underwater detection equipment as claimed in claim 2, characterized in that the tank cover (3) is formed by a piece of honeycomb cardboard and four paper corner beads.

5. Packaging structure for underwater detection equipment according to claim 2, characterized in that a corner protector (10) is provided on each corner of the tank (2) and the tank cover (3).

6. Packaging structure for underwater detection equipment as claimed in claim 5, characterized in that the corner protector (10) is of nylon material.

7. Packaging structure for underwater detection equipment according to claim 2, characterized in that the four corners of the partition (7) are concave structures, and one end of the waterproof cable (9) is connected with the probe (8) by passing through the concave structures.

8. The packaging structure of an underwater detection apparatus according to claim 1, wherein the antistatic bag (4) has a one-way air extraction valve for avoiding that too much gas causes the case cover (3) to be connected to the case body (2) in a sealing manner.

9. Packaging structure of an underwater detection device according to claim 1 or 8, characterized in that the antistatic bag (4) is filled with a dry gas.

10. Packaging structure of underwater detection equipment according to claim 1, characterized in that the height of the waterproof cable (9) after winding is smaller than the height of the cross-shaped support plate (6), avoiding the weight of the probe (8) acting on the waterproof cable (9).