CN209607595U - Energy-storage travelling wave tube and electrical energy storage device - Google Patents

Abstract

The utility model provides a kind of energy-storage travelling wave tube and electrical energy storage device, is related to energy storage device technical field.The energy-storage travelling wave tube includes energy storing members and sensing device；Sensing device is mounted in energy storing members, and sensing device protrudes into the inside of energy storing members, and sensing device is used to detect the internal pressure and Nei Wen of energy storing members；The electrical energy storage device includes the energy-storage travelling wave tube of multiple serial or parallel connections, to alleviate in the prior art for the more low technical problem of detection accuracy of battery or capacitor internal pressure and interior temperature.

Description

Energy-storage travelling wave tube and electrical energy storage device

Technical field

The utility model relates to energy storage device technical field more particularly to a kind of energy-storage travelling wave tubes and electrical energy storage device.

Background technique

In the today's society for focusing on environmental protection and green energy resource, new energy, electronic carrier loader etc. are widely used, and this The application of a little energy is required to the energy-storage system to match therewith.Wherein, most common energy-storage system be by multiple batteries or Super capacitor is composed by series-parallel mode, in order to guarantee using safe, generally by BMS (Battery Management System, battery management system) or EMS (Energy Management System, Energy Management System) prison Each battery or supercapacitive cell are surveyed, to acquire the various data of battery or super capacitor at work, and then is realized to electricity The state-of-charge in pond and the estimation of health status, and relative alarm information is provided, to ensure that battery or super capacitor can pacify Entirely use operation in range.

The temperature sampling of the prior art is all the temperature that battery or super capacitor surface are acquired by temperature sensor, in turn Operating temperature as detection battery or capacitor.When the internal temperature of battery or super capacitor increases suddenly, when needing certain Between can just conduct to battery surface, and the bigger passing time of volume is more long.Even if the fast speed of sampling, but it is actually detected To temperature and internal temperature compare or have a difference, can not true reaction cell or super capacitor inside Temperature.In addition, the rising of internal temperature of battery can be along with the rising of internal pressure, if it is possible to the pressure of detection inside battery in time Power, with obtain data and and alarm, and then cut off the power, can ensure safety in utilization.But existing battery or electricity It not can be realized the device of this function in appearance, so there are still many inconvenient and security risks in actual use.

In consideration of it, being able to solve the above problem there is an urgent need to a kind of energy-storage travelling wave tube and electrical energy storage device.

The information disclosed in the background technology section is intended only to deepen the reason to the general background technology of the utility model Solution, and it is known to those skilled in the art existing to be not construed as recognizing or imply that the information is constituted in any form Technology.

Utility model content

The first of the utility model is designed to provide a kind of energy-storage travelling wave tube, to alleviate in the prior art for battery or electricity Hold the more low technical problem of detection accuracy of internal pressure and interior temperature.

To achieve the goals above, the utility model uses following technical scheme:

A kind of energy-storage travelling wave tube provided by the utility model, including energy storing members and sensing device；

The sensing device is mounted in the energy storing members, and the sensing device protrudes into the inside of the energy storing members, institute Sensing device is stated for detecting the internal pressure and Nei Wen of the energy storing members.

In any of the above-described technical solution, further, the energy storing members are provided with mounting hole；

The sensing device has external screw thread, and the hole wall of the mounting hole is provided with interior spiral shell compatible with the external screw thread Line, the sensing device are threadedly coupled with the hole wall of the mounting hole.

In any of the above-described technical solution, further, the energy storing members include the first shell and upper cover；

First shell surrounds the first cavity with the first opening, and the upper cover closure is fixed on first opening Place；The mounting hole is set to the upper cover, and the mounting hole is connected to first cavity and external environment.

In any of the above-described technical solution, further, the energy storing members further include the first tab and with described first The first affixed pole group of tab, and first tab and first pole group are respectively provided in the first cavity.

In any of the above-described technical solution, further, the upper cover is provided with the cathode output end being intervally arranged and bears Pole output end；

First tab includes the first anode ear and the first negative electrode lug being oppositely arranged, first anode ear with it is described Cathode output end is affixed, and first negative electrode lug and the cathode output end are affixed.

In any of the above-described technical solution, further, the energy storing members include second housing, top cover and central axis；

The second housing surrounds the second cavity with the second opening, and the top cover blocks setting in second opening Place, the central axis are located in second cavity, and are socketed with the top cover；Axis of the mounting hole along the central axis The central axis is run through in direction, and the central axis has the micropore of multiple the connection mounting holes and second cavity.

In any of the above-described technical solution, further, the quantity of second opening is two, and two described second are opened The short transverse of second cavity described in opening's edge is intervally arranged；

The top cover includes positive top cover and cathode top cover, and the positive top cover and the cathode top cover block respectively Two first openings.

In any of the above-described technical solution, further, the energy storing members further include the second pole group, the second anode ear and Two negative electrode lugs；

Second pole group is wound around on the central axis, and second anode ear and second negative electrode lug are located at Two end faces of second pole group, the anode top cover compress second anode ear, and the cathode top cover compresses described the Two negative electrode lugs.

In any of the above-described technical solution, further, the energy storing members further include with the fastener for compressing table top；

The sensing device is connect with the threaded one end of the mounting hole, the other end of the fastener and the mounting hole It is threadedly coupled, and the compression table top is abutted with the end face of the top cover.

In any of the above-described technical solution, further, the energy storing members further include sealing ring；

The sealing ring is arranged at the compression table top is abutted with the top cover；

The sealing ring is additionally arranged at the abutting of the sensing device and the top cover.

In any of the above-described technical solution, further, the anode top cover and the cathode top cover are respectively arranged with and add Fluid apertures.

In any of the above-described technical solution, further, the energy storing members further include safety valve；

The safety valve setting is in the upper cover, or, the safety valve is arranged in the top cover.

The second of the utility model is designed to provide a kind of electrical energy storage device, to alleviate in the prior art for battery Or the more low technical problem of detection accuracy of capacitor internal pressure and interior temperature.

The utility model also provides a kind of electrical energy storage device, including multiple above-mentioned energy-storage travelling wave tubes；

Multiple energy-storage travelling wave tube serial or parallel connection settings.

The utility model has the following beneficial effects:

A kind of energy-storage travelling wave tube provided by the utility model, including energy storing members and sensing device, sensing device are mounted on energy storage On part, and sensing device stretches to the inside of energy storing members, so that the test side of sensing device is located at the inside of energy storing members, and then right Internal pressure and Nei Wen inside energy storing members are detected.

Sensing device can be directly mounted on the inside of energy storing members by the energy-storage travelling wave tube, i.e. sensing device can be contacted directly To the internal pressure and Nei Wen of energy storing members, in order to which sensing device directly detects the internal pressure and Nei Wen of energy storing members, no intermediate transfer process, And then the difference for reducing real data inside detection data and energy storing members increases testing number even up to without the presence of difference The accuracy and accuracy of value carry out operation judges convenient for operator, improve work safety in utilization.

A kind of electrical energy storage device provided by the utility model, including multiple above-mentioned energy-storage travelling wave tubes, and multiple energy storage are first The setting of part serial or parallel connection.

It should be noted that the structure of energy-storage travelling wave tube and the beneficial effect of generation have been elaborated above-mentioned, so This is repeated no more.

Detailed description of the invention

It, below will be right in order to illustrate more clearly of specific embodiment of the present invention or technical solution in the prior art Specific embodiment or attached drawing needed to be used in the description of the prior art are briefly described, it should be apparent that, it is described below In attached drawing be that some embodiments of the utility model are not paying creativeness for those of ordinary skill in the art Under the premise of labour, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is the schematic diagram for the energy-storage travelling wave tube that the utility model embodiment one provides；

Fig. 2 is the sectional view for the energy-storage travelling wave tube that the utility model embodiment one provides；

Fig. 3 is the schematic diagram for the energy-storage travelling wave tube that the utility model embodiment two provides；

Fig. 4 is the sectional view for the energy-storage travelling wave tube that the utility model embodiment two provides.

Icon: 10- sensing device；20- mounting hole；The first shell of 30-；40- upper cover；The first pole 50- group；60- anode is defeated Outlet；70- cathode output end；The first anode ear of 80-；The first negative electrode lug of 90-；100- second housing；110- anode top cover；120- Cathode top cover；130- central axis；The second pole 140- group；The second anode ear of 150-；The second negative electrode lug of 160-；170- fastener； 180- sealing ring；190- liquid filling hole；200- safety valve；1301- micropore.

Specific embodiment

The technical solution of the utility model is clearly and completely described below in conjunction with attached drawing, it is clear that described Embodiment is the utility model a part of the embodiment, instead of all the embodiments.Based on the embodiments of the present invention, originally Field those of ordinary skill every other embodiment obtained without making creative work belongs to practical Novel protected range.

In the description of the present invention, it should be noted that term " first ", " second " are used for description purposes only, and It cannot be understood as indicating or implying relative importance.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " is pacified Dress ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally Connection；It can be mechanical connection, be also possible to be electrically connected；Can be directly connected, can also indirectly connected through an intermediary, It can be the connection inside two elements.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition The concrete meaning of language in the present invention.

Embodiment one

As depicted in figs. 1 and 2, energy-storage travelling wave tube provided in this embodiment includes energy storing members and sensing device 10；Sensing device 10 are mounted in energy storing members, and sensing device 10 protrudes into the inside of energy storing members, and sensing device 10 is used to detect the internal pressure of energy storing members With interior temperature.

Specifically, sensing device 10 can extend into the inside of energy storing members, so that the test side of sensing device 10 is located at storage Can part inside, and then to inside energy storing members internal pressure and Nei Wen detect.

Sensing device 10 can be directly mounted on the inside of energy storing members by the energy-storage travelling wave tube, i.e. sensing device 10 can be direct The internal pressure and Nei Wen of energy storing members are contacted, in order to which sensing device 10 directly detects the internal pressure and Nei Wen of energy storing members, no intermediate transfer Process, and then the difference of real data inside detection data and energy storing members is reduced, even up to without the presence of difference, increase detection The accuracy and accuracy of numerical value carry out operation judges convenient for operator, improve work safety in utilization.

Wherein, sensing device 10 uses piezoelectric transducer, can detect the internal pressure and Nei Wen inside energy storing members simultaneously.

Preferably, energy storing members are provided with mounting hole 20；Sensing device 10 has external screw thread, and the hole wall of mounting hole 20 is provided with Internal screw thread compatible with external screw thread, sensing device 10 are threadedly coupled with the hole wall of mounting hole 20.

Specifically, energy storing members have the mounting hole 20 for installing sensing device 10, the hole wall of mounting hole 20 is provided with interior Screw thread, the outside of sensing device 10 is provided with external screw thread, and internal screw thread is adapted with external screw thread, so realize sensing device 10 with Threaded connection between the hole wall of mounting hole 20 realizes sensing device 10 and passes the connection between energy element.Meanwhile it being threadedly coupled It is not only convenient for installing, is also convenient for dismantling, operate more convenient.

In the optional scheme of the present embodiment, as depicted in figs. 1 and 2, energy storing members include the first shell 30 and upper cover 40；The One shell 30 surrounds the first cavity with the first opening, and the closure of upper cover 40 is fixed on the first opening；Mounting hole 20 is set to Upper cover 40, and mounting hole 20 is connected to the first cavity and external environment.

Specifically, the first shell 30 surrounds quadrangular, the inner hollow of quadrangular forms the first cavity, and the top of quadrangular Face forms the first opening, and the first opening is connected to the first cavity.Upper cover 40 is blocked in the first opening, it is ensured that the first cavity has Good leakproofness.Mounting hole 20 is arranged through upper cover 40, and then is connected to the first cavity and external environment by mounting hole 20, no Only it is convenient for the installation of sensing device 10, while is also convenient for the inside that sensing device 10 protrudes into place's energy storing members by mounting hole 20, into The detection of row internal pressure and Nei Wen.

Please continue to refer to Fig. 2, in actual use, energy storing members further include the first tab and affixed with the first tab One pole group 50, and the first tab and the first pole group 50 are respectively provided in the first cavity.

With continued reference to FIG. 2, in some embodiments, upper cover 40 is provided with the cathode output end 60 and cathode being intervally arranged Output end 70；First tab includes the first anode ear 80 and the first negative electrode lug 90 being oppositely arranged, the first anode ear 80 and anode Output end 60 is affixed, and the first negative electrode lug 90 and cathode output end 70 are affixed.

Specifically, the first anode ear 80 and the first negative electrode lug 90 are located at the two sides in the first housing width direction, and press from both sides It is tight to be arranged between the first pole group 50 and the first shell 30.Cathode output end 60 passes through the bending of upper cover 40 and the first anode ear 80 Portion is affixed, and cathode output end 70 passes through upper end and the bending part of the first negative electrode lug 90 is affixed, and then realizes positive and cathode defeated Out.

Wherein, cathode output end 60 and cathode output end 70 are separately provided for the matching hole of wiring cooperation.

With continued reference to FIG. 2, in some embodiments, energy storing members further include safety valve 200；Safety valve 200 is arranged upper Lid 40.

Specifically, upper cover 40 is provided with the perforative venthole of thickness direction along upper cover 40, safety valve 200 is arranged in upper cover On 40, and it is located at venthole.Safety valve 200 includes the valve body affixed with upper cover 40 and is located at the intracorporal rubber spool of valve, rubber Glue spool is by valve body location and installation at venthole.When the air pressure in energy storing members is larger, gas can be discharged from venthole The rubber spool being located at venthole is pushed, so that forming airflow clearance between rubber spool and venthole, and then measures gas row Out.Meanwhile the closure of rubber spool can also prevent outside air from entering inside energy storing members at venthole, to ensure that leakproofness is good It is good.

Embodiment two

As shown in Figure 3 and Figure 4, the present embodiment also provides a kind of energy-storage travelling wave tube, different from the energy-storage travelling wave tube in embodiment one Place is that energy storing members as described below include second housing 100, top cover and central axis 130；Second housing 100 is surrounded with Two opening the second cavitys, top cover block be arranged in the second opening, central axis 130 is located in the second cavity, and with top cover set It connects；Mounting hole 20 runs through central axis 130 along the axis direction of central axis 130, and central axis 130 has multiple connection mounting holes 20 With the micropore 1301 of the second cavity.

Specifically, second housing 100 surrounds cylindrical body, the inner hollow of cylindrical body forms columned second cavity, In The top and bottom of cylindrical body are respectively set to opening, and to form the second opening, and the second opening is connected to the second cavity.Top cover Setting is blocked in the second opening, to ensure that the second cavity has good leakproofness.Central axis 130 is located in the second cavity It at the heart, and is coaxially disposed with columned second cavity, the both ends of central axis 130 are arranged with the top at corresponding end respectively Lid.Meanwhile central axis 130 has the central shaft hole extended along the second housing depth direction, central shaft hole forms mounting hole 20, with Convenient for the threaded connection of sensing device 10.Prolong in addition, multiple radial directions along central axis 130 are also distributed on central axis 130 The micropore 1301 stretched, micropore 1301 are connected to mounting hole 20, and then the second cavity is connected to central shaft hole, in order to sense dress Set the internal pressure and Nei Wen of 10 detection energy storing members, the i.e. internal pressure and Nei Wen of the second cavity.

Wherein, 130 hole of central axis has thread segment and smooth section, and thread segment is located at the two sides of smooth section, and thread segment is used It is threadedly coupled in sensing device 10.

With continued reference to FIG. 4, preferred, the quantity of the second opening is two, height of two second openings along the second cavity Degree direction is intervally arranged；Top cover includes positive top cover 110 and cathode top cover 120, and positive top cover 110 and cathode top cover 120 divide It Feng Du not be in two the first openings.

Positive top cover 110 is set specifically, blocking in the second opening for being located at top, in the second opening for being located at bottom Place blocks setting cathode top cover 120, and positive top cover 110 and cathode top cover 120 can be connected respectively the positive and negative anodes of energy storing members, The output of positive and negative anodes is carried out in turn, while ensuring the leakproofness inside energy storing members, i.e. the leakproofness of the second cavity.

Wherein, the outside of positive top cover 110 is additionally provided with the first mounting ring circumferentially around positive top cover 110, cathode top The outside of lid 120 is also equipped with the second mounting ring circumferentially around cathode top cover 120, and the first mounting ring and second mounting ring point Not with 100 tight fit of second housing, and then increase positive top cover 110 and 100 junction of second housing and cathode top cover 120 with The tightness of 100 junction of second housing.

In the optional scheme of the present embodiment, as shown in figure 4, energy storing members further include the second tab and the second pole group 140；The Two pole groups 140 are wound around on central axis 130, and the second tab is installed in the end face of the second pole group 140, and top cover is pressed on the second pole On ear.

Wherein, the second tab includes the second anode ear 150 and the second negative electrode lug 160 being oppositely arranged, and the second anode ear 150 and second negative electrode lug 160 be separately positioned on the second pole group 140 along the both ends of first direction, positive top cover 110 is compressing second just Tab 150, cathode top cover 120 compress the second negative electrode lug 160.

Specifically, the second pole group 140 is wound around on central axis 130, in fixed second anode in the upper surface of the second pole group 140 Ear 150, in fixed second negative electrode lug 160 in the lower end surface of the second pole group 140, and the second anode ear 150 and the second negative electrode lug 160 are For annular, in order to the installation of central axis 130.Positive top cover 110 is pressed on the second anode ear 150, and cathode top cover 120 compresses On the second negative electrode lug 160.

Please continue to refer to Fig. 4, in actual use, positive top cover 110 and cathode top cover 120 are respectively arranged with liquid filling hole 190。

Specifically, being provided on positive top cover 110 along the reversed perforative liquid filling hole 190 of positive 110 thickness of top cover, negative The perforative liquid filling hole 190 of thickness direction along cathode top cover 120 is provided on pole top cover 120, it can be to storage by liquid filling hole 190 Electrolyte can be added in part.

In the optional scheme of the present embodiment, as shown in figure 4, energy storing members further include with the fastener 170 for compressing table top； Sensing device 10 is connect with the threaded one end of mounting hole 20, and fastener 170 is threadedly coupled with the other end of mounting hole 20, and is compressed Table top is abutted with the end face of top cover.

It specifically, the side opposite to sensing device 10 is arranged in fastener 170, and is also that screw thread connects with mounting hole 20 It connects, and then is compressed positive top cover 110, cathode top cover 120 by the opposite effect of fastener 170 and sensing device 10.

Wherein, when one end that mounting hole 20 is located at cathode top cover 120 is arranged in sensing device 10, sensing device 10 has platform Shoulder, and the lower end surface compression fit of circular bead surface and cathode top cover 120；The setting of fastener 170 is located at positive top cover in mounting hole 20 110 one end, and the upper surface compression fit for compressing table top and positive top cover 110 of fastener 170, and then the positive top cover of realization 110 are fixedly connected with cathode top cover 120.

Wherein, fastener 170 uses bolt, the upper surface compression fit of the lower end surface of the nut of bolt and positive top cover.

Please continue to refer to Fig. 4, it is preferred that energy storing members further include sealing ring 180；Sealing ring 180 setting compress table top with At the abutting of top cover；Sealing ring 180 is additionally arranged at the abutting of sensing device 10 and top cover.

Specifically, the setting of sealing ring 180, not only increases the leakproofness of fastener 170 Yu 20 junction of mounting hole, with And the leakproofness of sensing device 10 and 20 junction of mounting hole, and then increase exhausted between positive top cover 110 and cathode top cover 120 Edge reduces the probability of the positive and negative anodes short circuit connection of energy storing members.Meanwhile fastener 170 is also reduced in by sealing ring 180 The abrasion of 130 junction of mandrel and the abrasion of sensing device 10 and 130 junction of central axis.

Please continue to refer to Fig. 4, in actual use, energy storing members further include safety valve 200；Safety valve 200 is arranged in top cover On.

Specifically, being respectively arranged with safety valve 200, the knot of safety valve 200 on positive top cover 110 and cathode top cover 120 Structure is identical as the structure of embodiment one, and working principle is also identical, so details are not described herein again.

Embodiment three

The present embodiment additionally provides a kind of electrical energy storage device, and including multiple above-mentioned energy-storage travelling wave tubes, and multiple energy storage are first The setting of part serial or parallel connection.

Specifically, multiple energy-storage travelling wave tubes can be sequentially connected in series, and then form the electrical energy storage device of large capacity, convenient for electricity There can be the equipment of big demand to use.Moreover, each energy-storage travelling wave tube all has sensing device 10, and then convenient for detecting each energy storage The internal pressure and Nei Wen of element.

You need to add is that being not limited in a kind of " multiple energy-storage travelling wave tubes are arranged in series " this set-up mode, it is also possible to " multiple energy-storage travelling wave tubes are arranged in parallel " this setup, as long as multiple energy-storage travelling wave tubes can be connected to the electricity to form large capacity It can storage device.

It should be noted that energy-storage travelling wave tube structure and generation beneficial effect above-described embodiment one and embodiment two Through elaborating, so details are not described herein again.

Finally, it should be noted that the above various embodiments is only to illustrate the technical solution of the utility model, rather than it is limited System；Although the present invention has been described in detail with reference to the aforementioned embodiments, those skilled in the art should Understand: it is still possible to modify the technical solutions described in the foregoing embodiments, or to some or all of Technical characteristic is equivalently replaced；And these are modified or replaceed, it does not separate the essence of the corresponding technical solution, and this is practical new The range of each embodiment technical solution of type.

Claims (10)

1. a kind of energy-storage travelling wave tube, which is characterized in that including energy storing members and sensing device (10)；

The sensing device (10) is mounted in the energy storing members, and the sensing device (10) protrudes into the interior of the energy storing members Portion, the sensing device (10) are used to detect the internal pressure and Nei Wen of the energy storing members.

2. energy-storage travelling wave tube according to claim 1, which is characterized in that the energy storing members are provided with mounting hole (20)；

The sensing device (10) has external screw thread, and the hole wall of the mounting hole (20) is provided with compatible with the external screw thread Internal screw thread, the sensing device (10) are threadedly coupled with the hole wall of the mounting hole (20).

3. energy-storage travelling wave tube according to claim 2, which is characterized in that the energy storing members include the first shell (30) and upper cover (40)；

First shell (30) surrounds the first cavity with the first opening, and the upper cover (40) blocks and is fixed on described first Opening；The mounting hole (20) is set to the upper cover (40), and the mounting hole (20) is connected to first cavity and outer Portion's environment.

4. energy-storage travelling wave tube according to claim 3, which is characterized in that the energy storing members further include the first tab and with institute The first affixed pole group (50) of the first tab is stated, and first tab and first pole group (50) are arranged at described first In cavity.

5. energy-storage travelling wave tube according to claim 4, which is characterized in that the upper cover (40) is provided with the anode being intervally arranged Output end (60) and cathode output end (70)；

First tab includes the first anode ear (80) and the first negative electrode lug (90) being oppositely arranged, first anode ear (80) affixed with the cathode output end (60), first negative electrode lug (90) and the cathode output end (70) are affixed.

6. energy-storage travelling wave tube according to claim 3, which is characterized in that the energy storing members include second housing (100), top cover With central axis (130)；

The second housing (100) surrounds the second cavity with the second opening, and the top cover blocks setting and opens described second At mouthful, the central axis (130) is located in second cavity, and is socketed with the top cover；The mounting hole (20) is along described The axis direction of central axis (130) runs through the central axis (130), and the central axis (130) has multiple connection peaces Fill the micropore (1301) of hole (20) and second cavity.

7. energy-storage travelling wave tube according to claim 6, which is characterized in that the quantity of second opening is two, two institutes The short transverse that the second opening is stated along second cavity is intervally arranged；

The top cover includes positive top cover (110) and cathode top cover (120), and the positive top cover (110) and the cathode top Lid (120) is blocked respectively in two first openings.

8. energy-storage travelling wave tube according to claim 7, which is characterized in that the energy storing members further include the second pole group (140), Two anode ears (150) and the second negative electrode lug (160)；

Second pole group (140) is wound around on the central axis (130), second anode ear (150) and described second negative Tab (160) is located at two end faces of second pole group (140), and the anode top cover (110) is compressing described second just Tab (150), the cathode top cover (120) compress second negative electrode lug (160).

9. energy-storage travelling wave tube according to claim 6, which is characterized in that the energy storing members further include with the tight of compression table top Firmware (170)；

The sensing device (10) connect with the threaded one end of the mounting hole (20), the fastener (170) and the installation The other end in hole (20) is threadedly coupled, and the compression table top is abutted with the end face of the top cover.

10. a kind of electrical energy storage device, which is characterized in that including multiple described in any item energy-storage travelling wave tubes of claim 1-9；

Multiple energy-storage travelling wave tube serial or parallel connection settings.