CA2995614A1 - Positioning emitter device on a panel, corresponding uses and fabrication processes - Google Patents

Abstract

Device for rapidly positioning an active emission head such as an ultrasound emitting head. Easy process of installation on any surface. Use of the device in particular to combat the proliferation of any undesirable organism organic or mineral likely to be fixed on a surface such as a ship hull or such as a heat exchanger. Method of manufacturing the positioning device by assembling the constituent elements of the device and according to known assembly techniques such as screwing, gluing, interlocking, riveting, bores, sealing ...,

Description

APPLICATION FOR PATENT DEPOSIT
FOR A POSITIONING DEVICE
ULTRASOUND TRANSMITTER ON INTERNAL WALLS
SHIP CASE TEETHIS CILQ / E0Q, Inventors Pierre Olivier JOST - Renaud KERBRAT
The invention relates to a device for rapidly positioning a ultrasonic transmitter inside double hulls of ships to prevent or reduce the growth of algae and other organisms on the hull of most ships, boats, s other barges and floating equipment The use of ultrasound emitters to reduce proliferation algae, molluscs, crustaceans and other organisms developed in recent years and similar devices to the invention exist. However, these transmitters are usually in the form of protective housings containing said ultrasound transmitter and according to internal combinations specific to each manufacturer and relevant to traditional production often close to DIY. These housings>) Most of them equip pleasure craft with hulls of fiberglass or other composite materials involving a method of attachment by various bonding means. It the result is that the mode of positioning and application of these ultrasound emitters are subject to installation procedures 20 empirically incompatible with any attempts to systematization of rigorous installation procedures.
These transmitters can not reasonably equip ships metal constructions of larger sizes and including large ships.
The device, characterizing the invention, makes it possible to overcome these problems and disadvantages and brings benefits remarkable in terms of simplification of positioning and installation of these transmitters on the walls hulls of most ships, boats and other 30 floating materials. The device according to the invention consists of two separate modules facilitating the positioning of the transmitter, or transducer, and its maintenance and replacement. The device also allows the use of various models of heads ultrasound generators or transducers, ranging from 25 kHz to 100 35 kHz according to user requirements.
Advantageously, the device, characterizing the invention, present as a bell-shaped body preferably cylindrical and receiving several plastic elements and mechanical internally. Said bell has, at its end 40 upper, a boss with a bore at its center and able to receive a sealing means allowing the use of a cable of coaxial type.
The bell receives, internally, a polymer tension block having, by construction, at least two recesses but 45 preferably four, allowing the passage of the wires of connection to the transducer. This voltage block is hollow on its upper part in order to receive any means of + connection of the transducer wires to the coaxial cable. The face lower of the voltage block is supported on the upper side 50 of a shim with variable thickness and allowing the assembly of different types of transducers of different dimensions.
The shim also serves as a spacer to prevent wires connecting the transducer to get in touch with this one and cause a destructive short circuit in case of Degradation of the insulation of said son. The shim is therefore, for this purpose, provided with at least two grooves but preferably four able to receive, constrain and remove the son of the body of the transducer. In the configuration characterizing the device,

2 the upper part of the transducer is in contact with the 60 lower face of the shim.
These different components are therefore contained in the body called bell and together constitute the removable module.
This module is positioned and set by the classic way screw or any other system. The second module, called 65 positioning outsole is composed of a flexible surface but plane hexagonal shape and whose dimensions are preferably from 150 to 200 mm. The form plateau hexagonal position allows to position, if necessary, several transducers in a minimum of space. This hexagonal shape 70 is one of the advantageous features of the device.
A cylindrical boss is positioned at its center and receives a main bore through and a groove in its lower part.
This sole receives the coupling screws of the first module or any other preferred means corresponding to that of the module 75 bell. The sole receives, in his groove in his face lower, a seal, or ring, also having as function of centering the lower part of the transducer. This seal is also adaptable to different transducer diameters likely to be used according to the requirements 80 techniques.
The sole receives, on its underside, a self-adhesive film of double-sided type or other adhesive ensuring positioning and the perfect attachment of said sole on the inner surface and prepared from the hull of any ship or other boat.
85 The quality of the adhesive, glue or any binder, commonly available in the industrial environment, allows the solidarity of the sole on all the materials used in shipbuilding.

3 Whereas the second module constituted by the sole and its 90 components is perfectly fixed according to the means described, the first module is positioned on it. A seal is placed between these two modules perfectly subject to the fixing means such as screws, at least the number of 3 but preferably 6 in number.
95 According to some applications the transducer can be directly in contact on the inner surface of the shell but also receive on its underside, a conductive gel to optimize its efficiency.
100 Principle The location of the transducer placement in the hull of the ship being equipped, the technician applies the first module on the previously cleaned area according to the manufacturer's recommendations for adhesive, glue and / or 105 .. cement. In order to perfect the quality of the application of this module, the technician will be able to use a specific tool, this one only not part of the invention as such. At this point in the transducer positioning procedure, the face bottom of the soleplate is in contact, via its no adhesive or glue, with the inner side of the ship's hull or another skiff to equip. This step completed and after having respected the polymerization times recommended by the manufacturer of these adhesives and glues, the technician comes to subjugate the first module on the one in place. The operation consisting of 115 make sure that the gasket is correctly positioned and proceed to screw the first module on the second.
The speaker may, as specified above, coat the face

4 lower transducer of a conductive gel. During the screwing the first bell module on the second, the 120 transducer, coming into contact with the surface of the wall hull of the ship, crushes the tension block on a depth of 2 to 3mm. This mechanical stress is essential to guarantee the best functioning of the transducer. This constraint can represent a force of 3 125 to 5 daN.
Description The device characterizing the invention consists of the elements following:
130 The main body, also called bell (1) is composed of a hollow body whose upper end supports a boss (15) in which a bore (16) is formed and forming a lip (17) by difference in diameter with the bore (18) itself obtained by construction inside and in the upper part (19) of the 135 bell (1). The bell (1) is characterized by three bores concentric (20) and (22) and (24) materializing a surface support (21) and another bearing surface (23). A collar (27) ends the lower part of the bell (1) by defining a bearing surface of the fixing device and in particular the 140 threads (25) of the screws (4). This collar (27) also materializes a bearing surface (26) at the lower end of the bell (1).
The bell (1) is the first element of what is named first module she receives through her bore (16), formed in the boss (15), a sealing means 145 of the cable gland type (5) whose neck (17) of the boss (15) of the bell (1) is inserted into the groove (12) of said cable duct

(5). The grommet (5) receives the coaxial cable (6) and ensures sealing. The coaxial cable (6) perfectly guided by the cable (5) is connected to any connector (7) positioned at 150 inside and in the upper part of the bell (1), materialized by the bore 20) of the bell (1). The polymer tension block (8) is inserted inside the bell (1) and perfectly secured to the wall of the bore (22) of the bell (1) via the cylindrical surface (29) and the upper surface (31) of said 155 block (8). This same voltage block (8) is based on the face inside (21) of the bell (1) and after the wires (10) and (11) of the transducer (T) were passed respectively into two of the slots (32) and (33) of the tension block (8) to be subject to means of the connector (7). The voltage block (8) is of form 160 frustoconical, a hollow volume (30) is provided in its part upper to receive said connecting means (7). The hold spacing (9) is also positioned according to the same path that the tension block (8), this wedge (9) is guided by the wall of the bore 22 of the bell (1) but also by a 165 bore (39) formed at its center. This perfect bore the guiding this wedge in the case of the use of a transducer (T) specific and whose screw assembly would protrude into its upper end. The spacer (9) is also provided at least two precise grooves (38) favoring the spacing 170 of the son (10) and (11). The spacer (9) is supported by its upper face (37) on the lower face (35) of the block of voltage (8). The transducer (T) then takes place inside the bore (22) of the bell '> (1) and solidifies by gluing the surface of its upper end (S) against the surface 175 lower (37 ') of the shim (9). The first module is then assembled.

6 The part called sole (2) is the main element of the second module, it receives few components in comparison with the first module. The sole (2) carries on its upper part 180 (46) and at its center, a cylindrical construction materializing a large circular surface (42), itself surmounted by a another cylindrical construction (41), receiving at its center a bore (40). A groove (44) is made on the underside of this same sole (2). Taps (48) are prepared for 185 receive the screws (4) for fixing the first module. A seal sealing and positioning (14) made of polymer, is inserted in the throat (44). This seal also serves as a means of centering transducer (7) whose diameter may vary. The second module is completed by affixing an adhesive film or 190 glue layer (A) against the face (45) of the sole (2). Once positioned, the second module is preferably secured to the first module, by screwing or any other known system.
195 Operation The device characterizing the invention (FIG 1-2), composed of a main cylindrical body or bell (1) having, in part upper, a boss (15) adapted to receive a means seal (5) (Fig. 1-2-3-12) and receiving a coaxial cable (6).
zoo This coaxial cable (6) is connected to a connector (7) receiving itself even the wires (10) and (11) connected to the transducer (T). A block of voltage (8) is positioned inside the bell (1) (Fig.3-6-

7-8-12). A spacer (9) is positioned below of the voltage block (8) and serves to promote the spacing 205 of the son (10) and (11) (Fig.3-9-12). The transducer is placed at inside the bore (22) of the bell (1) (Fig 3-12).

All the elements specified above, make up the first module.
A sole (2) supports, in its lower part (45) a film 210 adhesive, binder or other adhesive film (A) and receives a seal sealing (14). (Fig. 3-12) This set constitutes the second module, it is necessarily glued on the inner face (F) of the hull (ON) of any ship or boat (Fig.13).
Figure 1 shows the complete device in perspective.
Figure 2 shows the complete device in perspective and view from below.
Figure 3 shows the complete device in section.
Figure 4 shows the bell in perspective.
220 Figure 5 shows the bell from a perspective of below Figure 6 shows the voltage block in perspective and in chopped off.
Figure 7 shows the voltage block in another 225 perspective and in section.
Figure 8 shows the voltage block in perspective simple.
Figure 9 shows the spacing spacer in perspective.
Figure 10 shows the sole in perspective and in section 230 seen from above.
Figure 11 shows the sole in perspective and in section view from below.
Figure 12 shows the complete device exploded.
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_____________________________________________________________________________ _ Figure 13 shows the complete device positioned on 235 the inner face of the hull of any ship or other boat.

Claims (23)

Claims. 1- Device according to the invention, characterized by a hollow body bell-shaped. 2- Device according to the invention and claim (1), characterized in that its upper end has facilities suitable for receiving a guide means of the coaxial cable. 3- Device characterizing the invention, and according to the claim (2), characterized in that the means of guiding also ensures the tightness of the internal volume of the bell. 4- Device characterized in that the bell receives in internal a shoulder allowing the support of the block of voltage. 5- Device according to claim (1) characterized by the fact that the bell receives at its lower end, a edge suitable for receiving any means of fastening and preferably screws. 6- Device characterizing the invention and according to claim (1), in that the bell has fins arranged radially or not, ensuring the dissipation of heat caused by the operation of the transducer. 7- Device according to the invention and according to claim (1) characterized in that the bell is preferably made of synthetic material but other materials are also usable. 8- Device, characterized in that a voltage block, of a hollow frustoconical shape is produced, preferably in flexible synthetic material (polymer etc ...). 9- Device characterizing the invention and according to the claim (8) in that the voltage block is provided at least two recesses but preferably four, allowing the passage of the connection wires of the transducer. 10- Device according to the invention and claim (4) in this that the voltage block is positioned inside the bell and relies on the shoulder provided for this purpose. 11- Device characterizing the invention, in that the hold spacing, of variable thickness, is hollowed out in its center and has, on its periphery, at least two notches but preferably four able to spread the connection wires of the transducer so that these do not do not come in contact with the body of the transducer. 12- Device according to claim (11) characterized in that that the spacer is positioned between the lower of the voltage block and the upper surface of the transducer. 13- Device according to the invention, characterized in that the body principal or bell receives internally, a transducer, of varying power and size. 14- Device according to the invention, characterized by a sole composed of a hexagonal shaped tray. 15- Device according to the invention, characterized in that the sole receives, in its upper part, a suitable boss to support any means of solidarity and preferably screws. 16- Device according to the invention, and according to claim (15) characterized in that is formed on the boss of the sole a cylindrical collar allowing guiding perfect of the complete assembly. 17- Device according to the invention, characterized in that the bottom surface is intended to receive an adhesive film or a film of an adhesive or other binder. -18- Device according to the invention, characterized, according to the claim (17), in that the underside of the sole and its adhesive, glue or other binder is directly applied to the inner wall of the hull of a ship or other. 19- Device according to the invention, characterized in that the bottom surface of the sole has a housing adapted to receive a centering ring adapted to the diameter of the transducer. 20- Device according to the invention and according to claim (19), characterized in that a seal made of Synthetic also ensures the perfect centering of the transducer in said sole. 21- Device according to the invention, characterized in that the bell is directly attached to the sole by through any known fastening device but preferably screws. 22- Device according to the invention, characterized according to all claims in that the bell and the sole receive internally all the elements necessary for the operation of the device. 23- Summary