CN112173034A - Cabin shed moulding bed - Google Patents

Abstract

The invention discloses a cabin shed jig frame which is of a frame structure integrally and comprises a left throwing module, a straight angle module and a right throwing module; the plane of the upper side surface of the straight angle module and the plane of the lower side surface of the straight angle module are parallel to each other; the left throwing module and the right throwing module are respectively connected with two opposite side edges of the straight angle module; the bottom surface of the left throwing module and the bottom surface of the right throwing module are flush with the bottom surface of the straight angle module; along the direction of keeping away from the straight angle module, the height of throwing a tendency module on the left side and the height of throwing a tendency module on the right side all reduce. Through being connected the left throwing trend module, straight angle module and the right throwing trend module including the design with cabin canopy bed-jig in order for cabin canopy bed-jig's wholeness is better, can avoid relative movement or torsion between each module effectively, thereby can improve the stability of the cabin canopy that is located above that. The cabin shed moulding bed can be repeatedly used for many times, so that the transfer cost of the cabin shed can be effectively reduced.

Description

Cabin shed moulding bed

Technical Field

The invention relates to the field of ship manufacturing, in particular to a cabin shed jig frame.

Background

For ships, a deck of the ship is usually provided with a cabin shed, the cabin shed is positioned above a cabin opening, and the cabin opening is surrounded by a shelter which is directly communicated to an open deck. The canopy is typically used for lighting and natural ventilation of the cabin. The cabin shed is carried on a deck, the middle area of the deck is generally a plane, and both sides of the deck often have certain throwing power. Correspondingly, the middle part of the lower opening of the cabin shed is a relatively flat angle area, and two sides of the lower opening are inclined throwing areas.

In general, when the cabin is transported, in order to prevent the lower opening of the cabin from being damaged and deformed, a channel steel can be welded at the lower opening of the cabin. The channel steel is utilized to support the cabin, so that the lower opening of the cabin is prevented from being impacted, and the deformation of the lower opening of the cabin is prevented. In the scheme of welding channel steel at the lower opening of the engine compartment, channel steel needs to be welded on each side face of each engine compartment, adjacent channel steel is relatively independent parts, and adjacent channel steel is easy to deviate or twist, so that the integrity is not high, and the instability of the engine compartment is easy to cause. Meanwhile, the channel steel cannot be reused, a large amount of human resources are needed for welding the channel steel, and the transportation cost of the engine compartment shed is too high.

Disclosure of Invention

The invention aims to overcome the defect that the stability of a cabin shed is easy to cause when a channel steel is used for supporting the cabin shed in the prior art, and provides a cabin shed jig frame.

The invention solves the technical problems through the following technical scheme:

a cabin shed jig frame is used for supporting a cabin shed and is characterized in that the cabin shed jig frame is of a frame structure integrally and comprises a left throwing module, a straight angle module and a right throwing module;

the plane of the upper side surface of the straight angle module and the plane of the lower side surface of the straight angle module are parallel to each other;

the left throwing module and the right throwing module are respectively connected with two opposite side edges of the straight angle module;

the bottom surface of the left throwing module and the bottom surface of the right throwing module are flush with the bottom surface of the straight angle module;

along the direction far away from the straight angle module, the height of the left throwing module and the height of the right throwing module are both reduced.

In this scheme, through with cabin canopy bed-jig design for including connecting in order that a left side throws a trend module, straight angle module and a right side and throw a trend module for cabin canopy bed-jig's wholeness is better, can avoid the relative movement between each module or twist reverse effectively, thereby can improve the stability of the cabin canopy that is located above that. The lower side surfaces of the left throwing potential module, the right throwing potential module and the straight angle module are parallel and level, so that the cabin shed jig frame can be better attached to the ground or a barge, and the stability of the cabin shed jig frame and a cabin shed on the cabin shed jig frame can be improved. The upper side surface of the straight angle module is designed to be higher than the upper side surfaces of the left throwing module and the right throwing module on the two sides, so that the upper side surface of the cabin shed jig frame can be better attached to a lower opening of the cabin shed, and the stability of the cabin shed can be further improved. The cabin shed moulding bed can be repeatedly used for many times, so that the transfer cost of the cabin shed can be effectively reduced.

Preferably, the cabin shed jig frame further comprises a plurality of supporting beam assemblies, the left throwing module, the straight angle module and the right throwing module all comprise the supporting beam assemblies, each supporting beam assembly comprises a top beam, a bottom beam and a plurality of stand columns, and the stand columns are arranged between the top beam and the bottom beam.

In the scheme, the left throwing potential module, the straight angle module and the right throwing potential module with different parameters can be manufactured conveniently, and the design form of the cabin shed jig frame can be simplified.

Preferably, the upright column comprises a plurality of first columns, the straight angle module comprises the first columns, the first columns are arranged between the top beam of the straight angle module and the bottom beam of the straight angle module, and the first columns are used for enabling the plane where the upper side surface of the top beam of the straight angle module is located and the plane where the lower side surface of the bottom beam of the straight angle module is located to be parallel to each other.

In this scheme, utilize the height of first post adjustment straight angle module for the highly invariable of straight angle module can further improve the stability of cabin canopy bed-jig.

Preferably, the upright column comprises a plurality of second columns, the left throwing module and the right throwing module comprise the second columns, and the second columns are arranged between top beams of the left throwing module and the right throwing module and bottom beams of the left throwing module and the right throwing module; the height of the second column decreases in a direction away from the flat angle module.

In this scheme, through utilizing the height that the gesture module was thrown to the left side of second column adjustment, the gesture module was thrown to the right side for the altitude variation of the gesture module is thrown to the left side, the right side is thrown and is controlled more easily, can further improve the stability of cabin canopy bed-jig.

Preferably, the upright column comprises an upper upright column, a lower upright column and a fastener, a waist-shaped hole along the vertical direction is formed in the side surface of the upper upright column, a round hole is formed in the side surface of the lower upright column, the round hole of the lower upright column and the waist-shaped hole of the upper upright column are correspondingly arranged, and the fastener penetrates through the round hole and the waist-shaped hole.

In this scheme, through designing stand for including stand, lower stand and fastener to can realize the adjustment of stand height, and then can realize the adjustment of the height of a left side throwing tendency module, straight angle module and a right side throwing tendency module, make cabin canopy bed-jig can adapt to the cabin canopy of different throwing tendencies, can improve the stability of cabin canopy, also can improve the accommodation of cabin canopy bed-jig.

Preferably, the cabin shed jig frame further comprises a reinforcing beam assembly, and two ends of the reinforcing beam assembly are respectively connected between two adjacent supporting beam assemblies;

and/or both ends of the reinforcing beam assembly are respectively connected between two opposite supporting beam assemblies.

In this scheme, through setting up the stiffening beam subassembly, can further improve cabin canopy bed-jig's wholeness and stability.

Preferably, the nacelle includes a nacelle wall, and the reinforcing beam assembly is adapted to support a lower opening of the nacelle wall.

In this scheme for the atress of cabin canopy can transmit to cabin canopy bed-jig better, avoids the local atress of cabin canopy unstable, can improve the stability of cabin canopy.

Preferably, the nacelle includes a peripheral wall, the support beam assembly being adapted to bear against a lower mouth of the peripheral wall.

In this scheme, through making the atress of cabin canopy can transmit to cabin canopy bed-jig better, avoid the local atress of cabin canopy unstable, can improve the stability of cabin canopy.

Preferably, the upper side surface of the cabin moulding bed is used for being connected with a lower opening of the cabin.

In this scheme for the atress of cabin canopy can transmit to cabin canopy bed-jig better, can improve the stability of cabin canopy.

Preferably, the material for forming the cabin shed bed-jig comprises one or more of channel steel, I-steel and angle steel.

In the scheme, the structural form and the manufacturing cost of the cabin shed jig frame can be effectively reduced.

On the basis of the common knowledge in the field, the above preferred conditions can be combined randomly to obtain the preferred embodiments of the invention.

The positive progress effects of the invention are as follows:

according to the invention, the cabin shed jig frame is designed to comprise the left throwing module, the right throwing module and the right throwing module which are connected in sequence, so that the integrity of the cabin shed jig frame is better, the relative movement or torsion among the modules can be effectively avoided, and the stability of the cabin shed on the cabin shed jig frame can be improved. The lower side surfaces of the left throwing potential module, the right throwing potential module and the straight angle module are parallel and level, so that the cabin shed jig frame can be better attached to the ground or a barge, and the stability of the cabin shed jig frame and a cabin shed on the cabin shed jig frame can be improved. The upper side surface of the straight angle module is designed to be higher than the upper side surfaces of the left throwing module and the right throwing module on the two sides, so that the upper side surface of the cabin shed jig frame can be better attached to a lower opening of the cabin shed, and the stability of the cabin shed can be further improved. The cabin shed moulding bed can be repeatedly used for many times, so that the transfer cost of the cabin shed can be effectively reduced.

Drawings

Fig. 1 is a schematic perspective view of a cabin moulding bed according to a preferred embodiment of the present invention.

Fig. 2 is a partially enlarged structural schematic view of the nacelle bed jig of fig. 1.

Fig. 3 is a schematic perspective view of another cabin moulding bed according to the preferred embodiment of the invention.

Fig. 4 is a schematic side view of the cabin moulding bed supporting the cabin in fig. 3.

Fig. 5 is a schematic top view of the canopy jig supporting the canopy of fig. 3.

Description of reference numerals:

cabin shed jig 100

Left throwing module 11

Straight angle module 12

Right throwing module 13

Brace beam assembly 20

Top beam 21

Bottom beam 22

Upright column 23

First column 231

Second post 232

Stiffening Beam Assembly 30

Cabin shed 40

Cabin wall 41

Peripheral wall 42

Detailed Description

The present invention will be more clearly and completely described below by way of examples in conjunction with the accompanying drawings, but the present invention is not limited thereto.

As shown in fig. 1 to 5, the present embodiment is a cabin shed jig frame 100 for supporting a cabin shed 40, the cabin shed jig frame 100 is a frame structure as a whole, and the cabin shed jig frame 100 includes a left throwing module 11, a straight angle module 12 and a right throwing module 13; the plane of the upper side of the straight angle module 12 and the plane of the lower side of the straight angle module 12 are parallel to each other; the left throwing module 11 and the right throwing module 13 are respectively connected with two opposite side edges of the straight angle module 12; the bottom surface of the left throwing module 11 and the bottom surface of the right throwing module 13 are flush with the bottom surface of the straight angle module 12; in the direction away from the straight angle module 12, the height of the left throwing power module 11 and the height of the right throwing power module 13 are both reduced. By designing the cabin shed jig frame 100 to include the left throwing module 11, the straight angle module 12 and the right throwing module 13 which are connected in sequence, the integrity of the cabin shed jig frame 100 is better, the relative movement or torsion among the left throwing module 11, the straight angle module 12 and the right throwing module 13 can be effectively avoided, and the stability of the cabin shed 40 positioned on the cabin shed jig frame can be improved. The lower sides of the left throwing module 11, the right throwing module 12 and the right throwing module 13 are flush, so that the cabin shed jig frame 100 can better fit the ground or a barge, and the stability of the cabin shed jig frame 100 and the cabin shed 40 on the cabin shed jig frame 100 can be improved. The upper side surface of the straight angle module 12 is designed to be higher than the upper side surfaces of the left throwing module 11 and the right throwing module 13 on the two sides, so that the upper side surface of the cabin moulding bed 100 can be better attached to the lower opening of the cabin 40, and the stability of the cabin 40 can be further improved. The cabin moulding bed 100 can also be reused for many times, so that the transportation cost of the cabin 40 can be effectively reduced.

As an embodiment, the left throwing module 11, the right throwing module 12 and the right throwing module 13 may be rectangular frame structures. The adjacent left throwing module 11, the right throwing module 12 and the right throwing module 13 can be welded or detachably connected, for example: bolted connections, snap connections, and the like.

As shown in fig. 1 to 3, the cabin moulding bed 100 further includes a plurality of supporting beam assemblies 20, the left throwing module 11, the straight angle module 12 and the right throwing module 13 all include the supporting beam assemblies 20, the supporting beam assemblies 20 include a top beam 21, a bottom beam 22 and a plurality of upright columns 23, the upright columns 23 are arranged between the top beam 21 and the bottom beam 22, so that the left throwing module 11, the straight angle module 12 and the right throwing module 13 with different parameters can be manufactured conveniently, and the design form of the cabin moulding bed 100 can be simplified. In order to adjust the heights of the left throwing module 11, the right throwing module 12 and the right throwing module 13, pads with different thicknesses can be laid on the lower side of the support beam assembly 20, so that the left throwing module 11, the right throwing module 12 and the right throwing module 13 have different or the same height.

As shown in fig. 3, the upright 23 includes a plurality of first columns 231, the flat angle module 12 includes the first columns 231, the first columns 231 are disposed between the top beam 21 of the flat angle module 12 and the bottom beam 22 of the flat angle module 12, and the first columns 231 are used for making a plane on which an upper side of the top beam 21 of the flat angle module 12 and a plane on which a lower side of the bottom beam 22 of the flat angle module 12 are positioned parallel to each other. The height of the flat angle module 12 is adjusted by the first column 231 so that the height of the flat angle module 12 is constant, and the stability of the nacelle jig 100 can be further improved.

As shown in fig. 3, the upright column 23 includes a plurality of second columns 232, the left throwing module 11 and the right throwing module 13 include second columns 232, and the second columns 232 are disposed between the top beams 21 of the left throwing module 11 and the right throwing module 13 and the bottom beams 22 of the left throwing module 11 and the right throwing module 13; the height of the second post 232 decreases in a direction away from the flat angle module 12. The heights of the left throwing module 11 and the right throwing module 13 are adjusted by the second columns 232, so that the height changes of the left throwing module 11 and the right throwing module 13 are easier to control, and the stability of the cabin shed jig frame 100 can be further improved.

In other embodiments, the upright 23 may further include an upper upright, a lower upright, and a fastening member, a waist-shaped hole is formed in a side surface of the upper upright along the vertical direction, a circular hole is formed in a side surface of the lower upright, the circular hole of the lower upright is arranged corresponding to the waist-shaped hole of the upper upright, and the fastening member passes through the circular hole and the waist-shaped hole. The upright column 23 is designed to comprise an upper upright column, a lower upright column and a fastening piece, so that the height of the upright column can be adjusted, the heights of the left throwing module 11, the straight angle module 12 and the right throwing module 13 can be adjusted, the cabin shed jig frame 100 can adapt to the cabin sheds 40 with different throwing postures, the stability of the cabin sheds 40 can be improved, and the adaptation range of the cabin shed jig frame 100 can be also improved. Of course, other ways of achieving adjustment of the height of the upright 23 are also possible. In order to further increase the applicability of the nacelle jig 100, the lengths of both the top beams 21 and the bottom beams 22 may be designed to be adjustable.

As shown in fig. 1, the cabin moulding bed 100 may further include a reinforcing beam assembly 30, and both ends of the reinforcing beam assembly 30 are respectively connected between the two opposing support beam assemblies 20. By providing the reinforcement beam assembly 30, the integrity and stability of the nacelle jig 100 can be further improved. In other embodiments, the two ends of the reinforced beam assembly 30 may be connected between two adjacent support beam assemblies 20.

As shown in fig. 4 and 5, the cabin cover 40 includes a cabin wall 41, and the reinforcing beam assembly 30 supports a lower opening of the cabin wall 41. The stress of the cabin 40 can be better transmitted to the cabin jig 100, so that the local stress of the cabin 40 is prevented from being unstable, and the stability of the cabin 40 can be improved. In fig. 4, it can be clearly seen that the middle portion of the lower opening of the cabin 40 is a plane, both sides of the lower opening have throwing power, and the cabin jig 100 and the lower opening of the cabin 40 are correspondingly arranged, so that the stability of the cabin 40 can be effectively improved. In this embodiment, the canopy 40 may be a canopy of a bulk carrier, a throwing angle between a deck of the bulk carrier and a horizontal line may be 2.3 °, and the canopy jig 100 of this embodiment may also be correspondingly configured.

In fig. 5, the cabin 40 includes a peripheral wall 42, and the support beam assembly 20 is adapted to support a lower opening of the peripheral wall 42. By enabling the stress of the cabin 40 to be better transmitted to the cabin jig 100, the local stress of the cabin 40 is prevented from being unstable, and the stability of the cabin 40 can be improved.

As an embodiment, the upper side of the cabin moulding bed 100 is used for connecting with the lower mouth of the cabin 40. The stress of the cabin 40 can be better transmitted to the cabin jig 100, and the stability of the cabin 40 can be improved. The cabin 40 may be welded to the cabin moulding bed 100, and in order to reduce man-hours, intermittent welding may be used.

As an embodiment, the material of the cabin moulding bed 100 includes one or more of channel steel, i-steel and angle steel, which can effectively reduce the structural form and manufacturing cost of the cabin moulding bed 100. The present embodiment employs a channel-fabricating machine shed jig 100.

While specific embodiments of the invention have been described above, it will be appreciated by those skilled in the art that this is by way of example only, and that the scope of the invention is defined by the appended claims. Various changes and modifications to these embodiments may be made by those skilled in the art without departing from the spirit and scope of the invention, and these changes and modifications are within the scope of the invention.

Claims (10)

1. A cabin shed jig frame is used for supporting a cabin shed and is characterized in that the cabin shed jig frame is of a frame structure integrally and comprises a left throwing module, a straight angle module and a right throwing module;

the plane of the upper side surface of the straight angle module and the plane of the lower side surface of the straight angle module are parallel to each other;

the left throwing module and the right throwing module are respectively connected with two opposite side edges of the straight angle module;

the bottom surface of the left throwing module and the bottom surface of the right throwing module are flush with the bottom surface of the straight angle module;

along the direction far away from the straight angle module, the height of the left throwing module and the height of the right throwing module are both reduced.

2. The cabin moulding bed of claim 1, wherein the cabin moulding bed further comprises a plurality of support beam assemblies, wherein the left throwing module, the right throwing module and the right throwing module each comprise the support beam assembly, the support beam assembly comprises a top beam, a bottom beam and a plurality of upright columns, and the upright columns are arranged between the top beam and the bottom beam.

3. The cabin moulding bed of claim 2, wherein the upright comprises a plurality of first posts, and the flat angle module comprises the first posts, the first posts being disposed between a top beam of the flat angle module and a bottom beam of the flat angle module, the first posts being adapted to make a plane in which an upper side of the top beam of the flat angle module and a plane in which a lower side of the bottom beam of the flat angle module are parallel to each other.

4. The cabin moulding bed of claim 2, wherein the upright comprises a plurality of second columns, the left throwing module and the right throwing module comprise the second columns, and the second columns are disposed between a top beam of the left throwing module and the right throwing module and a bottom beam of the left throwing module and the right throwing module; the height of the second column decreases in a direction away from the flat angle module.

5. The cabin moulding bed of claim 2, wherein the upright comprises an upper upright, a lower upright and a fastener, the side surface of the upper upright is provided with a waist-shaped hole along the vertical direction, the side surface of the lower upright is provided with a round hole, the round hole of the lower upright is arranged corresponding to the waist-shaped hole of the upper upright, and the fastener passes through the round hole and the waist-shaped hole.

6. The nacelle jig of claim 2, further comprising a reinforcing beam assembly, both ends of which are connected between two adjacent support beam assemblies, respectively;

and/or both ends of the reinforcing beam assembly are respectively connected between two opposite supporting beam assemblies.

7. A cabin moulding bed according to claim 6, characterised in that the cabin comprises a cabin wall, the stiffening beam assembly being adapted to bear against a lower mouth of the cabin wall.

8. The nacelle jig of claim 2, wherein the nacelle includes a perimeter wall, the support beam assembly being adapted to support a lower mouth of the perimeter wall.

9. The nacelle bed jig of claim 1, wherein an upper side of the nacelle bed jig is adapted to be connected to a lower mouth of the nacelle.

10. The nacelle bed jig of claim 1, wherein the material comprising the nacelle bed jig comprises one or more of channel steel, I-steel, and angle steel.

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