CN106184669B

CN106184669B - Combined type aircraft carrier

Info

Publication number: CN106184669B
Application number: CN201610555986.8A
Authority: CN
Inventors: 王海龙
Original assignee: Individual
Current assignee: Rizhao Xinrui Investment Promotion Development Co ltd
Priority date: 2014-04-30
Filing date: 2014-04-30
Publication date: 2018-07-03
Anticipated expiration: 2034-04-30
Also published as: CN106005329B; CN106043637A; CN106114786B; CN105947158B; CN106081027A; CN106081028A; CN106043637B; CN106184670B; CN106184669A; CN106184670A; CN106184666A; CN106184666B; CN106043638A; CN106184667B; CN106184668A; CN106114786A; CN106167081A; CN105966580B; CN106043639A; CN106114787B

Abstract

The invention discloses a kind of combined type aircraft carriers, and including the first subhull unit and the second subhull unit, the side of the first subhull unit is equipped with the first female connector；The respective side of the second subhull unit is equipped with and matched first male connector of first female connector；First female connector has the first inner chamber for being suitable for receiving first male connector, the inner wall of the first inner chamber is equipped with first pressure sensing device, the first pressure sensing device coordinates with first male connector being inserted into, for detecting the first pressure value on the vertical direction that first male connector applies the first inner chamber, subhull unit is additionally provided with the plumbing equipment with pressure sensor device compounding practice simultaneously, two subhull units can be preferably kept in a relatively fixed position by the present invention, it avoids two subhull units and connecting component is caused to be broken because horizontal position is different.

Description

Combined type aircraft carrier

Technical field

The present invention relates to a kind of Ship Structures, and in particular to a kind of combined type aircraft carrier.

Background technology

Aircraft carrier is a kind of large-scale water surface naval vessels using carrier-borne aircraft as main operational weapon, is aircraft carrier group Core, other ships in fleet provide its protection and supply, and aircraft carrier then provides air umbrella and long-range strike ability.Hair So far, aircraft carrier has been one of the indispensable weapon of Modern Navy and the most important naval vessels of sea warfare for exhibition.Current aviation Mother ship carrier is all integrally-built huge monster, because target is big, to realize hidden action, and surprise attack is nearly impossible, Equally also because target is big, it is easy to it is under attack, in addition, can also encounter various technologic difficulties in building course.

A kind of building block type aircraft carrier is disclosed in the Chinese patent literature of Publication No. CN101259876.The building blocks Formula aircraft carrier is made of a control vessel and more unit warship interconnections.Connection between control vessel and more unit warships and It is separately what is realized by being installed on the Zhan Tianyou of warship body sidewall.The Zhan Tian places of helping are corresponded on warship body sidewall and process circular cone shape Boss or pit, be fixed with buffer rubber gasket in boss or pit surface, when the side wall of two warship bodies is connected, a side Boss on wall is just inserted into the pit on another side wall, and is mutually coincide, the Zhan Tianyou in boss and pit Just it is a set of, is connected wherein a Zhan Tian is helped with being fixed on the actuator in warship body on side wall.Pass through this connection mode The lengthening of aircraft carrier longitudinal direction runway can be realized, so as to be conducive to the takeoff and landing of carrier-borne aircraft.

The aircraft carrier of above-mentioned building block system, only the boss on two unit warships and pit component are respectively away from the water surface It is highly identical, and during water surface calmness, it is likely to realize the docking by predetermined way of unit.However, the aircraft carrier one after docking Tote weight declines on a denier wherein unit warship, which can then float, if another unit warship does not mitigate equally More totes then will appear floating warship and be coordinated by upward boss and pit, levers up non-rising warship upwards, so very It is likely to result in phenomenon of rupture occur at boss and pit cooperation；Similarly, if the weight of wherein one warship tote increases, and The weight of another warship tote is constant or declines, and also will appear this phenomenon.In order to avoid there is phenomenon of rupture, connect without passing through Fitting carries out being relatively fixed connection, once wherein a unit warship floats, another maintains draft constant, then can not be fine Realize that two unit warships are in relatively fixed position, and then can not realize well continuous for the takeoff and landing of carrier-borne aircraft in ground Longitudinal direction lengthen runway.

Invention content

For this purpose, the technical problems to be solved by the invention are that providing one kind can preferably realize that two unit warships keep phase To fixed position, and the combined type aircraft carrier that two unit warship connecting components can be avoided to be broken well.

Another technical problem to be solved by this invention is to provide a kind of combined type quickly connected convenient for unit warship Aircraft carrier.

In order to solve the above technical problems, the present invention provides a kind of combined type aircraft carrier, including the first subhull unit and second Subhull unit,

The side of the first subhull unit is equipped with the first female connector；

The respective side of the second subhull unit is equipped with the matched with first female connector first public affairs even Fitting；

First female connector has the first inner chamber for being suitable for receiving first male connector, the first inner chamber Inner wall is equipped with first pressure sensing device, and the first pressure sensing device coordinates with first male connector being inserted into, For detecting the first pressure value on the vertical direction that first male connector applies the first inner chamber；

The first subhull unit includes：

First Lower Hold, first Lower Hold have the first water inlet connect with water phase；

First plumbing equipment, first plumbing equipment include being set on the first plumbing inside first Lower Hold Device and the first control of water supply and drainage dress being connect respectively with first water feeding and draining device and the first pressure sensing device It puts, the first control of water supply and drainage device is according to the pressure signal for the first pressure value received, control described the One water feeding and draining device introduces the water into and discharges first Lower Hold by first water inlet, so as to adjust the described first sub- ship The draft of body unit, and then two the first subhull units and the second subhull unit are maintained at preset opposite position It puts.

Said combination formula aircraft carrier, wherein, the side of the second subhull unit is equipped with the second female connector；Described The respective side of one subhull unit is equipped with and matched second male connector of second female connector；Described second is female Connector has the second inner chamber for being suitable for receiving second male connector, and the inner wall of the second inner chamber is equipped with second pressure Sensing device, the second pressure sensing device coordinates with second male connector being inserted into, public for detecting described second Second pressure value on the vertical direction that connector applies the second inner chamber；The second subhull unit includes：Second Lower Hold, second Lower Hold have the second water inlet connect with water phase；Second plumbing equipment, the second plumbing equipment packet Include the second water feeding and draining device inside second Lower Hold and respectively with second water feeding and draining device and described second Second control of water supply and drainage device of pressure sensor device connection, the second control of water supply and drainage device are directed to institute according to what is received The pressure signal of second pressure value is stated, second water feeding and draining device is controlled to introduce the water into and discharge by second water inlet Second Lower Hold, so as to adjust the draft of the second subhull unit, and then by the first subhull unit and second Subhull unit is maintained at preset relative position.

Said combination formula aircraft carrier, wherein, the first pressure sensing device includes the upper inner wall set on the first inner chamber Be used to detect on the first of the first upward pressure value pressure sensor device on lower inner wall and first be pressed downward force value for detecting First time pressure sensor device；The first control of water supply and drainage device is believed according to the pressure of pressure sensor device on described first Number control first water feeding and draining device that water is discharged to first Lower Hold of the first subhull unit, and according to described The pressure signal of first time pressure sensor device controls first water feeding and draining device to introduce the water into the first subhull list First Lower Hold of member, until on described first detected by pressure sensor device or first time pressure sensor device Pressure value reaches preset range.

Said combination formula aircraft carrier, wherein, the second pressure sensing device includes the upper inner wall set on the second inner chamber Be used to detect on the second of the second upward pressure value pressure sensor device on lower inner wall and second be pressed downward force value for detecting Second time pressure sensor device；The second control of water supply and drainage device is believed according to the pressure of pressure sensor device on described second Number control second water feeding and draining device that water is discharged to second Lower Hold of the second subhull unit, and according to described The pressure signal of second time pressure sensor device controls second water feeding and draining device to introduce the water into the second subhull list Second Lower Hold of member, until on described second detected by pressure sensor device or second time pressure sensor device Pressure value reaches preset range.

Said combination formula aircraft carrier, wherein, pressure sensor device includes on described first：Buffer unit on first, one end branch It supports on the inner wall of the first inner chamber；Snubber contact component on first is connected with the other end of buffer unit on described first It connects, coordinates with buffer unit on described first, realize the inner wall to the first inner chamber to snubber contact component on described first The buffering of movement；Pressure signal generation device on first is connect with snubber contact component on described first, will be delayed on described first The stroke that the inner wall for rushing contact component to the first inner chamber moves is converted into pressure signal, and exports this in a manner of electric signal Pressure signal；First time pressure sensor device includes：First time buffer unit, one end are supported in the interior of the first inner chamber On wall；First time snubber contact component is connected with the other end of first time buffer unit, with first time buffer part Part coordinates, and realizes the buffering moved to the inner wall of first time snubber contact component to the first inner chamber；First time pressure Signal generation device is connect with first time snubber contact component, by first time snubber contact component to described first The stroke of the inner wall movement of inner cavity is converted into pressure signal, and the pressure signal is exported in a manner of electric signal.

Said combination formula aircraft carrier, wherein, pressure sensor device includes on described second：Buffer unit on second, one end branch It supports on the inner wall of the second inner chamber；Snubber contact component on second is connected with the other end of buffer unit on described second It connects, coordinates with buffer unit on described second, realize the inner wall to the second inner chamber to snubber contact component on described second The buffering of movement；Pressure signal generation device on second is connect with snubber contact component on described second, will be delayed on described second The stroke that the inner wall for rushing contact component to the second inner chamber moves is converted into pressure signal, and exports this in a manner of electric signal Pressure signal；Second time pressure sensor device includes：Second time buffer unit, one end are supported in the interior of the second inner chamber On wall；Second time snubber contact component is connected with the other end of second time buffer unit, with second time buffer part Part coordinates, and realizes the buffering moved to the inner wall of second time snubber contact component to the second inner chamber；Second time pressure Signal generation device is connect with second time snubber contact component, by second time snubber contact component to described second The stroke of the inner wall movement of inner cavity is converted into pressure signal, and the pressure signal is exported in a manner of electric signal.

Said combination formula aircraft carrier, wherein, it is installed with the first pulling equipment on the first subhull unit, described Equipped with recyclable and release the first drag rope, the second subhull unit is equipped with to be suitable for and described the one pulling equipment One drag rope carries out the first rope fixture of detachable connection.

Said combination formula aircraft carrier, wherein, be formed with first through hole on first male connector, on the female connector into Shape has the second through-hole, is respectively adapted to pass through for first drag rope；Described in being mounted on when described first drag rope one end On pulling equipment, the other end is each passed through the first through hole and second through-hole is connect with first rope fixture When, first pulling equipment recycles the drag rope by the first through hole, so as to pull another ship Body unit is moved along the drag rope direction of recession, and then first male connector is made to be connect with first female connector It closes, realizes the docking of two hull units.

Said combination formula aircraft carrier, wherein, first male connector has tapered protrusion structure or spherical surface hill structure；Institute State the first female connector with conical indentation structure corresponding with the tapered protrusion structure or with the spherical surface hill structure phase Corresponding spherical depression structure；And the first through hole is located at the central part of the tapered protrusion structure or spherical surface hill structure Position, second through-hole are located at the centre of the conical indentation structure or the spherical depression structure.

The above technical solution of the present invention has the following advantages over the prior art：

1. the combined type aircraft carrier of the present invention, including the first subhull unit and the second subhull unit, the first sub- ship The side of body unit is equipped with the first female connector；The respective side of the second subhull unit is equipped with and the described first mother Matched first male connector of connector；It, can by using the male connector and the connection mode of female connector to match each other It is solid and reliable to be easily fixed together two sub- hull units, and simple in structure；Meanwhile first mother is even Fitting has the first inner chamber for being suitable for receiving first male connector, and the inner wall of the first inner chamber is passed equipped with first pressure Induction device, the first pressure sensing device coordinate with first male connector being inserted into, for detecting first public affairs even First pressure value on the vertical direction that fitting applies the first inner chamber；The first subhull unit includes：First bottom Storehouse, first Lower Hold have the first water inlet connect with water phase；First plumbing equipment, first plumbing equipment include The first water feeding and draining device inside first Lower Hold and respectively with first water feeding and draining device and first pressure The control of water supply and drainage device of Force sensor connection, the control of water supply and drainage device are directed to the first pressure according to what is received The pressure signal of value controls first water feeding and draining device to introduce the water into and discharge first bottom by first water inlet Two subhull units so as to adjust the draft of the first subhull unit, and then are maintained at preset by storehouse Relative position；The subhull unit of the combined type aircraft carrier of the present invention uses the design of pressure sensor device so that be connected two ships During the difference of body horizontal position, pressure sensor sends pressure signal to the control of water supply and drainage device, control of water supply and drainage device root Draining or the water-supplying operation of the water feeding and draining device are adjusted according to the pressure signal, similarly, such regulative mode is also applied for described Second subhull unit or other subhull units being connected, so as to adjust wherein relevant one or more hulls Draft, when avoiding the hull carrier-borne aircraft quantity in group hull unit there are larger gap, cause sub- ship Body unit draft is inconsistent, and male connecting elements and female connecting elements is caused to be not on a horizontal plane, and then easily lead The phenomenon that causing connector fracture, ensure that the fastness of subhull unit connection, and simple in structure, easy to adjust.

2. the combined type aircraft carrier of the present invention, the first pressure sensing device includes the upper inner wall set on the first inner chamber Be used to detect on the first of the first upward pressure value pressure sensor device on lower inner wall and first be pressed downward force value for detecting First time pressure sensor device；The first control of water supply and drainage device is believed according to the pressure of pressure sensor device on described first Number control first water feeding and draining device that water is discharged to first Lower Hold of the first subhull unit, and according to described The pressure signal of first time pressure sensor device controls first water feeding and draining device to introduce the water into the first subhull list First Lower Hold of member, until on described first detected by pressure sensor device or first time pressure sensor device Pressure value reaches preset range；Equally, the second pressure sensing device include set on the second inner chamber upper inner wall and It is used to detect pressure sensor device on the second of the second upward pressure value on lower inner wall and is pressed downward force value for detecting second Second time pressure sensor device；The second control of water supply and drainage device is according to the pressure signal of pressure sensor device on described second To control second water feeding and draining device that water is discharged to second Lower Hold of the second subhull unit, and according to described The pressure signal of two times pressure sensor devices controls second water feeding and draining device to introduce the water into the second subhull unit Second Lower Hold, until pressure sensor device or the pressure detected by second time pressure sensor device on described second Force value reaches preset range；It can be more by the setting pressure sensor of upper pressure sensor and lower pressure sensor The sensitive variation for detecting hull draft is consequently facilitating the draining feedwater of hull is adjusted.

3. pressure sensor device includes on described first：Buffer unit on first, one end are supported in the first inner chamber On inner wall；Snubber contact component on first is connected with the other end of buffer unit on described first, with being buffered on described first Component coordinates, and realizes the buffering moved to the inner wall of snubber contact component to the first inner chamber on described first；It is pressed on first Force signal generation device is connect with snubber contact component on described first, by snubber contact component on described first to described The stroke of the inner wall movement of one inner cavity is converted into pressure signal, and the pressure signal is exported in a manner of electric signal；Described first Lower pressure sensor device includes：First time buffer unit, one end are supported on the inner wall of the first inner chamber；First time buffering connects Contact portion part is connected with the other end of first time buffer unit, coordinates with first time buffer unit, realizes to described The buffering that the inner wall of first time snubber contact component to the first inner chamber moves；First time pressure signal generation device, with institute State first time snubber contact component connection, the row that the inner wall of first time snubber contact component to the first inner chamber is moved Journey is converted into pressure signal, and the pressure signal is exported in a manner of electric signal；Similarly, on described second pressure sensor device and Second time pressure sensor device is also the setting side using buffer unit, snubber contact component and pressure signal generation device The stroke that snubber contact component moves is converted into pressure signal, and the pressure signal is exported in a manner of electric signal by formula；This hair The setting of buffer unit and snubber contact component in bright to occur to deposit during relative motion between male connector and female connector Buffering, will not jolt because of hull or other reasons cause violent collision occurs between connector, avoid connector by Impact force and fracture, the reliability for the connection being further ensured that.

4. the combined type aircraft carrier of the present invention is installed with the first pulling equipment on the first subhull unit, described First pulling equipment equipped with it is recyclable and release the first drag rope, the second subhull unit be equipped be suitable for it is described First drag rope carries out the first rope fixture of detachable connection, and it is logical that first is formed on first male connector Hole is formed with the second through-hole on first female connector, is respectively adapted to pass through for first drag rope；When described first Drag rope one end is mounted on first pulling equipment, and the other end is each passed through the first through hole and second through-hole When being connect with first rope fixture, first pulling equipment by the first through hole to the drag rope into Row recycling, so as to which another second hull unit be pulled to be moved along the drag rope direction of recession, and then make described first Male connector is engaged with first female connector, realizes the docking of two hull units；For designing above, even at hull In the environment of more jolting, two hulls is made to be moved along the direction that drag rope recycles, that is, male connecting elements and female connection structure Part is mutually drawn close along drag rope, also conveniently can smoothly complete engagement.

5. the combined type aircraft carrier of the present invention, first male connector has tapered protrusion structure or spherical surface hill structure； First female connector have conical indentation structure corresponding with the tapered protrusion structure or with the spherical surface hill structure Corresponding spherical depression structure；And the first through hole is located at the central part of the tapered protrusion structure or spherical surface hill structure Position, second through-hole are located at the centre of the conical indentation structure or the spherical depression structure；Above taper is convex Rise structure or spherical surface hill structure without be aligned completely conical indentation structure corresponding with the tapered protrusion or with the spherical surface The corresponding spherical depression structure of bulge-structure, it is only necessary to which the head of bulge-structure is entered in sunk structure, you can is passed through The matched conical surface or spherical surface, which take advantage of a situation to slip into, forms engagement in sunk structure；Even if in being in larger in hull and jolting, It can also realize docking.

Description of the drawings

In order to make the content of the present invention more clearly understood, it below according to specific embodiments of the present invention and combines Attached drawing, the present invention is described in further detail, wherein

Fig. 1 is the subhull cellular construction schematic diagram of the present invention；

Fig. 2 is the subhull unit connection diagram of the present invention；

Fig. 3 is subhull unit connection signal Fig. 1 of embodiment；

Fig. 4 is subhull unit connection signal Fig. 2 of embodiment；

Fig. 5 is subhull unit connection signal Fig. 3 of embodiment；

Fig. 6 is male connector and female connector structural representation Fig. 1；

Fig. 7 is male connector and female connector structural representation Fig. 2；

Reference numeral is expressed as in figure：A- the first subhull units, the first pulling equipments of 1A-, the first drag ropes of 11A-, The second male connectors of 21A-, the first female connectors of 22A-, 23A- first inner chambers, 24A- first pressure sensing devices, 24A1- first Upper pressure sensor device, first time pressure sensor device of 24A2-, the second through-holes of 25A-, 3- pulleys, the first Lower Holds of 4A-, 5A- One water inlet, the first plumbing equipments of 6A-, B- the second subhull units, the first rope fixtures of 1B-, 21B- first are public even Fitting, the second female connectors of 22B-, 25B- first through hole, the second Lower Holds of 4B-, the second water inlets of 5B-, the second plumbing of 6B- are set It is standby, 211- tapered protrusion structures, 212- spherical surface hill structures, 221- conical indentation structures, 222- spherical depression structures.

Specific embodiment

A kind of combined type aircraft carrier of the present invention is specifically described with reference to specific embodiment：

As shown in Figures 1 and 2, a kind of combined type aircraft carrier, including the first subhull unit A and the second subhull unit B, institute The side for stating the first subhull unit A is equipped with the first female connector 22A；In the respective side of the second subhull unit B Equipped with the matched first male connector 21B of the first female connector 22A, the first female connector 22A have is suitable for The inner wall for receiving the first inner chamber 23A, the first inner chamber 23A of the first male connector 21B is sensed equipped with first pressure Device 24A, the first pressure sensing device 24A coordinate with the first male connector 21B being inserted into, for detecting described the The first pressure value on vertical direction that one male connector 21B applies the first inner chamber 24A；The first subhull unit A includes：First Lower Hold 4A, the first Lower Hold 4A has the first water inlet 5A connect with water phase；First plumbing equipment 6A, institute It states the first plumbing equipment 6A and includes being set on the first water feeding and draining device inside the first Lower Hold 4A and respectively with described the The first control of water supply and drainage device that one water feeding and draining device is connected with the first pressure sensing device 24A, first plumbing Control device controls first water feeding and draining device to pass through institute according to the pressure signal for the first pressure value received It states the first water inlet 5A and introduces the water into and discharge the first Lower Hold 4A, so as to adjust the drinking water of the first subhull unit A Depth, and then the first subhull unit and the second subhull unit are maintained at preset relative position.

The side of the second subhull unit B is equipped with the second female connector 22B；The first subhull unit A's Respective side is equipped with and the matched second male connector 21A of the second female connector 22B；Equally, second mother connects Fitting 22B has the second inner chamber for being suitable for receiving the second male connector 21A, and the inner wall of the second inner chamber is equipped with second Pressure sensor device, the second pressure sensing device coordinates with the second male connector 21A being inserted into, described for detecting The second pressure value on vertical direction that second male connector 21A applies the second inner chamber；The second subhull unit B Including：Second Lower Hold 4B, the second Lower Hold 4B has the second water inlet 5B connect with water phase；Second plumbing equipment 6B, institute It states the second plumbing equipment 6B and includes being set on the second water feeding and draining device inside the second Lower Hold 4B and respectively with described the The second control of water supply and drainage device that two water feeding and draining devices are connected with the second pressure sensing device, second control of water supply and drainage Device controls second water feeding and draining device by described the according to the pressure signal for the second pressure value received Two water inlet 5B introduce the water into and discharge the second Lower Hold 4B, so as to adjust the draft of the second subhull unit B, And then the first subhull unit and the second subhull unit are maintained at preset relative position.

When hull carrier-borne aircraft quantity in group hull unit is there are larger gap, hull unit can be caused to absorb water Depth is inconsistent, male connecting elements and female connecting elements is caused to be not on a horizontal plane, for a long time in this way, being easy to cause connection The fracture of part, influence subhull unit connection fastness, and the present invention hull, pass through the setting of pressure sensor device When connected two sub- hull unit horizontal position differences, pressure sensor sends pressure signal to control of water supply and drainage device, gives Drain control unit adjusts draining or the water-supplying operation of water feeding and draining device according to the pressure signal, by adjusting one of them or two The draft of a hull makes two connecting elements be on a horizontal plane, avoids connector because of horizontal position difference And the phenomenon that leading to damage；Simultaneously, it should be noted that the combined type aircraft carrier of the present embodiment is made of several subhull units, Foregoing first subhull unit and described two sub- hull units of the second subhull unit are not limited to, it is adjacent It is linked together between subhull unit by several male connectors to match each other and female connector, it can be simultaneously between subhull Row's connection, front and rear can also connect, simple and strong in structure and easy to connect.

Also, as shown in figure 5, female connector, the public connection of opposite side setting can be separately provided in subhull unit in side Part, such as the first subhull unit A sides are provided with the first female connector 22A, and with the second subhull list The first male connector 21B matchings of first B sides adjacents are connected, so as to which subhull unit side by side be combined, structure Simply；However, in order to enable the more convenient docking of subhull unit navigated by water along different directions, as shown in Figure 3-4, Ke Yitong When the side of the subhull unit setting male connector female connector is set again, so that hull difference towards when still Can rapid abutting joint, without the operations such as turn around.

In the present embodiment, the first pressure sensing device 24A includes being respectively arranged on the upper interior of the first inner chamber 23A On wall and lower inner wall for detect the first upward pressure value first on pressure sensor device 24A1 and for detect first downwards First time pressure sensor device 24A2 of pressure value；The first control of water supply and drainage device is filled according to pressure sensing on described first The pressure signal of 24A1 is put to control first water feeding and draining device that water is discharged to described the first of the first subhull unit A Lower Hold 4A, and first water feeding and draining device is controlled by water according to the pressure signal of first time pressure sensor device 24A2 The first Lower Hold 4A of the first subhull unit A is introduced, until pressure sensor device 24A1 or described on described first Pressure value detected by first time pressure sensor device 24A2 reaches preset range；The second pressure sensing device includes It is used to detect pressure sensor device on the second of the second upward pressure value on the upper inner wall and lower inner wall of the second inner chamber With second time pressure sensor device that force value is pressed downward for detection second；The second control of water supply and drainage device is according to described The pressure signal of pressure sensor device controls second water feeding and draining device water is discharged the second subhull unit B on two The second Lower Hold 4B, and second plumbing is controlled to fill according to the pressure signal of second time pressure sensor device The the second Lower Hold 4B for introducing the water into the second subhull unit B is put, until pressure sensor device or institute on described second It states the pressure value detected by second time pressure sensor device and reaches preset range.

Meanwhile pressure sensor device 24A1 includes on described first：Buffer unit on first, one end are supported in described first On the inner wall of inner cavity；Snubber contact component on first is connected with the other end of buffer unit on described first, with described first The buffering moved to the inner wall of snubber contact component to the first inner chamber on described first is realized in the cooperation of upper buffer unit；The Pressure signal generation device on one is connect with snubber contact component on described first, by snubber contact component on described first to The stroke of the inner wall movement of the first inner chamber is converted into pressure signal, and the pressure signal is exported in a manner of electric signal；Institute First time pressure sensor device 24A2 is stated to include：First time buffer unit, one end are supported on the inner wall of the first inner chamber；The Snubber contact component once is connected with the other end of first time buffer unit, coordinates with first time buffer unit, Realize the buffering moved to the inner wall of first time snubber contact component to the first inner chamber；First time pressure signal generates Device is connect with first time snubber contact component, by first time snubber contact component into the first inner chamber The stroke of wall movement is converted into pressure signal, and the pressure signal is exported in a manner of electric signal.

Equally, pressure sensor device includes on described second：Buffer unit on second, one end are supported in the second inner chamber Inner wall on；Snubber contact component on second is connected with the other end of buffer unit on described second, with delaying on described second Component cooperation is rushed, realizes the buffering moved to the inner wall of snubber contact component to the second inner chamber on described second；On second Pressure signal generation device is connect with snubber contact component on described second, by snubber contact component on described second to described The stroke of the inner wall movement of second inner chamber is converted into pressure signal, and the pressure signal is exported in a manner of electric signal；Described Two times pressure sensor device includes：Second time buffer unit, one end are supported on the inner wall of the second inner chamber；Second time buffering Contact component is connected with the other end of second time buffer unit, coordinates with second time buffer unit, realizes to institute State the buffering that the inner wall of second time snubber contact component to the second inner chamber moves；Second time pressure signal generation device, with Second time snubber contact component connection, the inner wall of second time snubber contact component to the second inner chamber is moved Stroke is converted into pressure signal, and the pressure signal is exported in a manner of electric signal.

Cause opposite fortune occurs between male connector and female connector using the setting of buffer unit and snubber contact component There is buffering when dynamic, will not jolt because of hull or other reasons cause violent collision occurs between connector, avoid connecting Part is fractureed by impact force, the reliability for the connection being further ensured that.

The first pulling equipment 1A is installed on the first subhull unit A, the first pulling equipment 1A is furnished with Recyclable and release the first drag rope 11A, the second subhull unit B, which is equipped with, to be suitable for and first drag rope 11A carries out the first rope fixture 1B of detachable connection；Specifically, is formed on the first male connector 21B The second through-hole 25A is formed on one through-hole 25B, the first female connector 22A, is respectively adapted to for first drag rope 11A is passed through；When described first drag rope 11A one end is mounted on the pulling equipment 1A, the other end is each passed through described the The two through-hole 25A and first through hole 25B and when being connect with the first rope fixture 1B, the first pulling equipment 1A The drag rope 11A is recycled by the first through hole 23B, so as to pull the second hull unit B along described Drag rope 11A direction of recession moves, and then the first male connector 21B is made to be engaged with the first female connector 22A, real The docking of existing two hull units.

In the present embodiment, the first male connector 21B has tapered protrusion structure 211 or spherical surface hill structure 212； The first female connector 22A have with the 211 corresponding conical indentation structure 221 of tapered protrusion structure or with the spherical surface 212 corresponding spherical depression structure 222 of bulge-structure；And the first through hole 23B be located at the tapered protrusion structure 211 or The centre of spherical surface hill structure 212, the second through-hole 23A is located at the conical indentation structure 221 or the spherical surface is recessed Fall into structure 222 centre, more than tapered protrusion structure or spherical surface hill structure without completely be aligned it is convex with the taper Rise corresponding conical indentation structure or with the corresponding spherical depression structure of the spherical surface hill structure, it is only necessary to bulge-structure Head is entered in sunk structure, you can taking advantage of a situation to slip by the matched conical surface or spherical surface forms engagement in sunk structure； Even if in being in larger in hull and jolting, docking can also be realized, however male connector and female connector of the invention Structure be not limited thereto, connection can be needed as needed to adjust connector shape and size, as long as so that public connection Part and female connector just meet the requirement of the present invention convenient for engagement and sound construction.

Obviously, the above embodiments are merely examples for clarifying the description, and is not intended to limit the embodiments.It is right For those of ordinary skill in the art, can also make on the basis of the above description it is other it is various forms of variation or It changes.There is no necessity and possibility to exhaust all the enbodiments.And the obvious variation thus extended out or Among changing still in the protection domain of the invention.

Claims

1. a kind of combined type aircraft carrier, including the first subhull unit (A) and the second subhull unit (B), it is characterised in that：

The side of the first subhull unit (A) is equipped with the first female connector (22A)；

The respective side of the second subhull unit (B) is equipped with and first female connector (22A) matched first Male connector (21B)；

First female connector (22A) has the first inner chamber (23A) for being suitable for receiving first male connector (21B), institute State first inner chamber (23A) inner wall be equipped with first pressure sensing device (24A), the first pressure sensing device (24A) with First male connector (21B) cooperation being inserted into, for detecting first male connector (21B) to the first inner chamber The first pressure value on vertical direction that (23A) applies；

The first subhull unit (A) includes：

First Lower Hold (4A), first Lower Hold (4A) have the first water inlet (5A) connect with water phase；

First plumbing equipment (6A), first plumbing equipment (6A) it is internal including being set on first Lower Hold (4A) the One water feeding and draining device and connect respectively with first water feeding and draining device and the first pressure sensing device (24A) One control of water supply and drainage device, the first control of water supply and drainage device are believed according to the pressure for the first pressure value received Number, first water feeding and draining device is controlled to introduce the water into and discharge first Lower Hold by first water inlet (5A) (4A), so as to adjust the draft of the first subhull unit (A), and then by the first subhull unit (A) and institute It states the second subhull unit (B) and is maintained at preset relative position；

The first pressure sensing device (24A) is used for including being set on the upper inner wall and lower inner wall of the first inner chamber (23A) It detects pressure sensor device (24A1) on the first of the first upward pressure value and is pressed downward under the first of force value for detecting first Pressure sensor device (24A2)；The first control of water supply and drainage device is according to the pressure of pressure sensor device (24A1) on described first Force signal controls first water feeding and draining device water is discharged to first Lower Hold of the first subhull unit (A) (4A), and first water feeding and draining device is controlled by water according to the pressure signal of first time pressure sensor device (24A2) First Lower Hold (4A) of the first subhull unit (A) is introduced, until pressure sensor device (24A1) on described first Or the pressure value detected by first time pressure sensor device (24A2) reaches preset range；

The first pulling equipment (1A) is installed on the first subhull unit (A), first pulling equipment (1A) is matched There is recyclable and release the first drag rope (11A), the second subhull unit (B), which is equipped with, to be suitable for leading with described first Messenger rope (11A) carries out the first rope fixture (1B) of detachable connection.