CN214958389U

CN214958389U - Simulation tool for ship cabinet

Info

Publication number: CN214958389U
Application number: CN202120852581.7U
Authority: CN
Inventors: 钟丽红; 赵明; 唐柳蓥菲; 李发优; 李宜培
Original assignee: CSSC Huangpu Wenchong Shipbuilding Co Ltd
Current assignee: CSSC Huangpu Wenchong Shipbuilding Co Ltd
Priority date: 2021-04-23
Filing date: 2021-04-23
Publication date: 2021-11-30
Anticipated expiration: 2031-04-23

Abstract

The utility model provides a simulation frock of boats and ships rack relates to simulation frock field. The simulation tool of the ship cabinet comprises a rack and an adjustable panel, wherein the rack comprises a bottom bracket and an upper bracket, the upper bracket is movably arranged on the bottom bracket, the moving direction of the upper bracket extends along the height direction of the rack, and a first fastening piece is connected between the bottom bracket and the upper bracket; the adjustable panel is movably mounted at the top of the upper support, the moving direction of the adjustable panel is located on the horizontal plane, a second fastener is connected between the adjustable panel and the upper support, and a socket tool is detachably mounted on the adjustable panel. Adjust the frame to the high state of actual rack, arrange the position according to the socket at actual rack top, determine the mounted position of socket frock, then utilize this socket frock to be convenient for carry out accurate wiring and fixed plug on the cable, determine wiring position and fixed mounting plug in advance on the cable of completion through this simulation frock, effectively shortened shipbuilding's construction cycle.

Description

Simulation tool for ship cabinet

Technical Field

The utility model relates to a simulation frock technical field especially relates to a simulation frock of boats and ships rack.

Background

In the construction process of a ship, after cables are pulled and laid and the insulation structure and pipeline construction are finished, cabinet equipment is arranged to enter a cabin for installation, the arrangement position and the wiring position of a cabinet are required to be determined during installation, and otherwise the cabinet cannot be accurately installed in place.

Usually, a socket is arranged at the top of the ship cabinet equipment, a wiring position on a cable is determined according to the placement position and the socket position of the cabinet equipment, and a plug is welded and fixed at the wiring position to ensure that the cabinet equipment can be accurately connected with electricity. However, in the actual construction process, because the cabinet equipment of the ship usually has the situation that the supply is not timely, if the cabinet is connected after the supply is finished, the construction progress of the whole project is affected, and the delivery time of the ship is prolonged.

In summary, when the supply of the cabinet equipment of the ship is delayed, the wiring position and the fixed installation plug cannot be determined in advance on the finished cable, so that the construction period of ship construction is prolonged.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, an object of the utility model is to provide a simulation frock of boats and ships rack to solve because the rack equipment supply of boats and ships is time-lag, can not confirm wiring position and fixed mounting plug in advance on the cable of completion, lead to the problem of the construction cycle extension of shipbuilding.

The utility model discloses a technical scheme of the simulation frock of boats and ships rack does:

the simulation tool of the ship cabinet comprises a rack and an adjustable panel, wherein the rack comprises a bottom bracket and an upper bracket, the upper bracket is movably mounted on the bottom bracket, the moving direction of the upper bracket extends along the height direction of the rack, and a first fastener is connected between the bottom bracket and the upper bracket;

the adjustable panel is movably mounted at the top of the upper support, the moving direction of the adjustable panel is located on the horizontal plane, a second fastening piece is further connected between the adjustable panel and the upper support, and a socket tool is detachably mounted on the adjustable panel.

Furthermore, the upper support and the bottom support are movably nested and mounted, and the upper support and the bottom support are in guiding fit along the height direction of the rack.

Furthermore, the bottom bracket comprises a bottom frame and at least three vertical supporting rods arranged in parallel, the vertical supporting rods are fixed on the upper portion of the bottom frame and are distributed at intervals in the circumferential direction, and the upper bracket is installed on the at least three vertical supporting rods in a guiding mode.

Furthermore, the outline shape of the bottom frame is square, four vertical support rods are arranged, and the vertical support rods are respectively fixed at four vertex positions of the bottom frame;

the upper bracket is a cuboid frame, the vertical edge of the cuboid frame is installed at the inner side position of the vertical supporting rod in a guiding mode, and the first fastening piece is installed between the vertical edge of the cuboid frame and the vertical supporting rod.

Further, the length of the bottom frame is 720mm, the width of the bottom frame is 580mm, and the height of the vertical support rod is 1000 mm; the length dimension of cuboid frame is 700mm, the width dimension of cuboid frame is 560mm, the height dimension of cuboid frame is 1000 mm.

Furthermore, the vertical supporting rod is made of angle steel and comprises two vertical plate sections which are vertically distributed, and one vertical plate section of the vertical supporting rod is provided with a vertically extending height-adjusting long hole;

first bolt holes are formed in the vertical edges of the cuboid frame, and first wing-shaped bolts penetrate through the height-adjusting long holes and the first bolt holes.

Further, the adjustable panel is movably stacked on the upper side of the upper bracket.

Furthermore, the profile shape of the adjustable panel is square, a first long hole and a second long hole are formed in the edge of the adjustable panel, the first long hole extends along the length direction of the adjustable panel, and the second long hole extends along the width direction of the adjustable panel;

the upside of upper bracket is equipped with the second bolt hole, the second fastener is second wing bolt, second wing bolt wears the dress in first slot hole and second bolt hole, perhaps, second wing bolt wears the dress in second slot hole and second bolt hole.

Furthermore, a plurality of through holes distributed at intervals are formed in the adjustable panel, a third bolt hole is formed in the socket tool, and a third wing-shaped bolt penetrating through the through holes is in threaded connection with the third bolt hole.

Further, the socket tool is in the shape of a cylinder, and the diameter of the socket tool is 17.5mm, 22.5mm or 37.5 mm.

Has the advantages that: the simulation tool for the ship cabinet adopts the structural design of a bottom bracket, an upper bracket and an adjustable panel, the bottom bracket and the upper bracket are movably assembled, the upper bracket can adjust the height up and down along the height direction of the rack, and the upper bracket and the bottom bracket are locked through a first fastener after the height is adjusted in place, so that the whole rack is kept in the height state, and the height size of the actual cabinet is accurately simulated; the adjustable panel is movably mounted at the top of the upper support and can be movably adjusted on the horizontal plane, the adjustable panel which is adjusted in place is fixed through the second fastening piece, and the situation that the position of a top plate on the cabinet can be flexibly simulated by moving the rack is avoided.

The socket tool is detachably installed on the adjustable panel, the installation position of the socket tool is determined according to the socket arrangement position at the top of the actual cabinet, and then accurate wiring and plug fixing are facilitated on the cable by using the socket tool. Even if the supply of cabinet equipment of the ship is delayed, the wiring position and the fixed mounting plug can be determined in advance on the finished cable through the simulation tool, and the construction period of ship construction is effectively shortened.

Drawings

Fig. 1 is a schematic perspective view of a simulation tool for a ship cabinet according to an embodiment of the simulation tool for a ship cabinet of the present invention;

fig. 2 is a schematic front view of a simulation tool of a ship cabinet according to an embodiment of the simulation tool of the ship cabinet of the present invention;

FIG. 3 is a schematic top view of the upper and lower brackets of FIG. 1 when assembled;

fig. 4 is a schematic top view of the adjustable panel of fig. 1.

In the figure: 1-bottom support, 10-bottom support, 11-vertical support rod, 12-height-adjusting long hole, 13-first wing bolt, 2-upper support, 23-second wing bolt, 3-adjustable panel, 30-through hole, 31-first long hole, 32-second long hole and 4-socket tool.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

The utility model discloses a specific embodiment 1 of the simulation frock of boats and ships rack, as shown in fig. 1 to 4, the simulation frock of boats and ships rack includes frame and adjustable panel 3, and the frame includes bottom bracket 1 and upper bracket 2, and upper bracket 2 movable mounting is on bottom bracket 1, and the activity direction of upper bracket 2 extends along the direction of height of frame, and still is connected with first fastener between bottom bracket 1 and upper bracket 2; adjustable panel 3 movable mounting is at the top of upper bracket 2, and adjustable panel 3's activity direction is in on the horizontal plane, and still is connected with the second fastener between adjustable panel 3 and upper bracket 2, and removable socket frock 4 of installing on adjustable panel 3.

The simulation tool of the ship cabinet adopts the structural design of a bottom bracket 1, an upper bracket 2 and an adjustable panel 3, the bottom bracket 1 and the upper bracket 2 are movably assembled, the upper bracket 2 can adjust the height up and down along the height direction of the rack, and the upper bracket 2 and the bottom bracket 1 are locked through a first fastener after the height is adjusted in place, so that the whole rack is kept in the height state, and the height size of the actual cabinet is accurately simulated; the adjustable panel 3 is movably installed at the top of the upper support 2, the adjustable panel 3 can be movably adjusted on the horizontal plane, the adjustable panel 3 which is adjusted in place is fixed through the second fastening piece, and the situation that the position of a top plate on the cabinet can be flexibly simulated by moving the rack is avoided.

The socket tool 4 is detachably mounted on the adjustable panel 3, the mounting position of the socket tool 4 is determined according to the socket arrangement position at the top of the actual cabinet, and then accurate wiring and plug fixing are conveniently carried out on the cable by using the socket tool 4. Even if the supply of cabinet equipment of the ship is delayed, the wiring position and the fixed mounting plug can be determined in advance on the finished cable through the simulation tool, and the construction period of ship construction is effectively shortened.

In the embodiment, the height direction of the rack is defined as the vertical direction, the upper bracket 2 is movably nested with the bottom bracket 1, and the upper bracket 2 is in guiding fit with the bottom bracket 1 along the height direction of the rack. Wherein, the bottom bracket 1 includes bottom frame 10 and at least three parallel arrangement's vertical support pole 11, and vertical support pole 11 is fixed on the upper portion of

bottom frame

10, and 11 circumference interval distributions of at least three vertical support pole, upper bracket 2 direction are installed on at least three vertical support pole 11. Specifically, the outline shape of the bottom frame 10 is square, four vertical support rods 11 are arranged, and the vertical support rods 11 are respectively fixed at four vertex positions of the bottom frame 10; the upper bracket 2 is a cuboid frame, the vertical edge of the cuboid frame is guided and installed at the inner side position of the vertical supporting rod 11, and the second fastening piece is installed between the vertical edge of the cuboid frame and the vertical supporting rod 11.

The four vertical supporting rods 11 of the bottom support 1 are matched with the vertical edges of the upper support 2 in a guiding mode, so that the upper support 2 can be accurately adjusted in an up-and-down moving mode, the upper support 2 is prevented from being inclined when adjusted, the adjustable panel 3 is prevented from inclining, and the wiring position and the fixed installation plug are accurately determined. Wherein, the length of the bottom frame 10 is 720mm, the width of the bottom frame 10 is 580mm, and the height of the vertical support rod 11 is 1000 mm; the length of the rectangular parallelepiped frame is 700mm, the width of the rectangular parallelepiped frame is 560mm, and the height of the rectangular parallelepiped frame is 1000 mm.

The vertical supporting rod 11 is made of angle steel and comprises two vertical plate sections which are vertically distributed, and one vertical plate section of the vertical supporting rod is provided with a vertically extending height-adjusting long hole 12; first bolt hole has been seted up on cuboid frame's vertical edge, and first fastener is for wearing the first wing bolt 13 of dress in heightening slot hole 12 and first bolt hole, and first wing bolt 13 goes up the screw thread and is equipped with the nut. The height of the upper support 2 can be adjusted in a vertical movable mode by loosening the first wing bolt 13, and the upper support 2 and the bottom support 1 can be reliably fixed by screwing the first wing bolt 13 after the adjustment is in place.

In the embodiment, the adjustable panel 3 is movably stacked on the upper side of the upper bracket 2, the outline of the adjustable panel 3 is square, the edge of the adjustable panel 3 is provided with a first long hole 31 and a second long hole 32, the first long hole 31 extends along the length direction of the adjustable panel 3, and the second long hole 32 extends along the width direction of the adjustable panel 3; the upside of upper bracket 2 is equipped with the second bolt hole, and the second fastener is second wing bolt 13, and second wing bolt 13 wears to adorn in first slot hole 31 and second bolt hole, and perhaps, second wing bolt 13 wears to adorn in second slot hole 32 and second bolt hole, and second wing bolt 13 goes up the screw thread and is equipped with the nut. The first long hole 31 and the second long hole 32 are designed on the adjustable panel 3, so that the left and right positions of the adjustable panel 3 can be adjusted along the extending direction of the first long hole 31, and the front and back positions of the adjustable panel 3 can be adjusted along the extending direction of the second long hole 32, so that the whole rack does not need to be moved after the rack is placed in place, and the top plate position of the actual rack can be accurately simulated by only adjusting the adjustable panel 3.

In addition, a plurality of through holes 30 distributed at intervals are formed in the adjustable panel 3, a third bolt hole is formed in the socket tool 4, and a third wing-shaped bolt penetrating through the through holes 30 is connected to the third bolt hole in a threaded mode. In addition, the socket tool 4 is cylindrical, the diameter of the socket tool is any one of 17.5mm, 22.5mm and 37.5mm, and the socket tool 4 with the corresponding size is selected according to the specific type of the socket on the actual cabinet, so that the installation requirements of different cabinets and plugs can be flexibly met.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and replacements can be made without departing from the technical principle of the present invention, and these modifications and replacements should also be regarded as the protection scope of the present invention.

Claims

1. A simulation tool of a ship cabinet is characterized by comprising a rack and an adjustable panel, wherein the rack comprises a bottom bracket and an upper bracket, the upper bracket is movably mounted on the bottom bracket, the moving direction of the upper bracket extends along the height direction of the rack, and a first fastening piece is connected between the bottom bracket and the upper bracket;

2. The simulation tool for the ship cabinet according to claim 1, wherein the upper support and the bottom support are movably nested, and the upper support and the bottom support are in guiding fit along the height direction of the rack.

3. The simulation tool for the ship cabinet as claimed in claim 2, wherein the bottom bracket comprises a bottom frame and at least three vertical supporting rods arranged in parallel, the vertical supporting rods are fixed on the upper portion of the bottom frame, the at least three vertical supporting rods are circumferentially distributed at intervals, and the upper bracket is guided and mounted on the at least three vertical supporting rods.

4. The simulation tool for the ship cabinet as claimed in claim 3, wherein the outline of the bottom frame is square, four vertical support rods are provided, and the vertical support rods are respectively fixed at four vertex positions of the bottom frame;

5. The simulation tool for the ship cabinet as claimed in claim 4, wherein the length dimension of the bottom frame is 720mm, the width dimension of the bottom frame is 580mm, and the height dimension of the vertical support rod is 1000 mm; the length dimension of cuboid frame is 700mm, the width dimension of cuboid frame is 560mm, the height dimension of cuboid frame is 1000 mm.

6. The simulation tool for the ship cabinet as claimed in claim 4 or 5, wherein the vertical supporting rod is made of angle steel and comprises two vertical plate sections which are vertically distributed, and one vertical plate section of the vertical supporting rod is provided with a vertically extending height-adjusting long hole;

7. The simulation tool for a ship cabinet according to claim 1, wherein the adjustable panel is movably stacked on the upper side of the upper bracket.

8. The simulation tool for the ship cabinet as claimed in claim 7, wherein the adjustable panel has a square outline, and the edge of the adjustable panel is provided with a first long hole and a second long hole, the first long hole extends along the length direction of the adjustable panel, and the second long hole extends along the width direction of the adjustable panel;

9. The simulation tool for the ship cabinet according to claim 7, wherein a plurality of through holes are formed in the adjustable panel, the through holes are distributed at intervals, a third bolt hole is formed in the socket tool, and a third wing-shaped bolt penetrating through the through holes is connected to the third bolt hole in a threaded mode.

10. The simulation tool for the ship cabinet as claimed in claim 1, wherein the socket tool is in the shape of a cylinder with a diameter of 17.5mm, 22.5mm or 37.5 mm.