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US3368789A - Electromagnetic valve - Google Patents

Electromagnetic valve
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Publication number
US3368789A
US3368789AUS423618AUS42361864AUS3368789AUS 3368789 AUS3368789 AUS 3368789AUS 423618 AUS423618 AUS 423618AUS 42361864 AUS42361864 AUS 42361864AUS 3368789 AUS3368789 AUS 3368789A
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pole
armature
shaped
magnet
valve
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US423618A
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Martin Helmut
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Concordia Maschinen und Elektrizitats GmbH
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Concordia Maschinen und Elektrizitats GmbH
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Description

FIG. 2
INVENTOR HELMUT MARTIN My 4 $4M:
ATTORNEYK Feb. 13, 1968 H. MARTIN ELECTROMAGNETIC VALVE Filed Nov. 5, 1964 FIGI Patented Feb. 13, 1968 3,368,789 ELECTROMAGNETIC VALVE Helmut Martin, Stuttgart, Germany, assignor to Concordia Maschinenand Elektrizitats-G.m.b.H., Stuttgart, Germany Filed Nov. 3, 1964, Ser. No. 423,618
Claims priority, application Germany, Nov. 9, 1963,
9 Claims. (Cl. 251-141) The present invention relates to an electromagnetically operated valve which is provided with a fixed pot-shaped magnetic element, the central and outer wall parts of which form magnetic poles, and with a movable armature of an inverted T-shaped cross section, the central arm of which projects into the pot-shaped element.
It is an object of the present invention to provide a magnetic valve of the above-mentioned type which may be produced very easily and at a low cost and is very reliable in operation. Another object of the invention is to provide such a magnetic valve which may be employed especially as a gas valve and is equally reliable for controlling a flow of gas under a low pressure and under relatively high pressures.
These objects are attained according to the invention by providing at least two air gaps within the magnetic circuit and by providing the two magnetic pole surfaces of the armature underneath the pole surfaces of the fixed element of the magnet, as seen in the actuation of the valve, so that when the armature is pulled up, the distance between both air gaps is reduced and the magnetic force attracting the armature is therefore considerably increased.
The present invention further provides that the opposite pole surfaces of the magnet are made of a conical shape. This has the advantage that, when the armature is pulled up, the width of the air gaps is reduced and the armature will thereby also be accurately centered Within the fixed element of the magnet.
The central arm of the T-shaped armature may also be made of a short length and the'central magnetic pole of the fixed magnetic element may be downwardly extended. In an extreme case it is also possible to provide the armature merely in the form of a flat disk and to make the fixed magnet of a double U-shaped cross section. In such a case, it is, however, necessary to provide additional centering means for insuring that the movement of the armature will occur centrally to the fixed element of the magnet.
Another feature of the invention which is contained in a very preferred embodiment thereof consists in providing the core of the fixed magnetic element with a central conical recess into which the central arm of the arm of the armature projects which forms a frustum. The rim of the fixed magnetic element may project inwardly and form a magnetic shunt ring, and the conical pole surface which is provided on this rim or ring may be made of a considerably greater width than the associated opposite pole surface which is provided on the armature disk from which the frustum projects.
The outer wall of the fixed pot-shaped element of the magnet may be formed by the magnet housing. Such a magnet may be very easily assembled by placing the inwardly projecting rim of the fixed element of the magnet directly upon the valve body, by holding the different parts of the fixed element together by means of a compressed elastic ring, and by then securing the magnet housing to the valve body, for example, by screws.
If the electromagnetic valve according to the invention should be noncorrosive at the outside, the outer wall of the fixed pot-shaped element of the magnet may be provided in the form of a tubular casing, the lower end of which is inserted into a cylindrical recess in the upper end of the valve body so as to be accurately centered, while the upper part of this casing is enclosed by a housing of noncorrosive material. The housing may also be provided with an inner flange or projection for holding the different parts of the fixed element of the magnet together.
The various features and advantages of the present invention will become more clearly apparent from the following detailed description thereof which is to be read with reference to the accompanying'drawing in which:
FIGURE 1 shows one half of a valve according to the invention which is provided within a housing which is not fully noncorrosive; while FIGURE 2 shows one half of a valve according to the invention which is mounted within a housing which consists of a noncorrosive and nonmagnetic material.
The electromagnetic valve according to the invention as illustrated in FIGURE 1 comprises a valve body 1 which is preferably made of aluminum and has avalve inlet 2 and avalve outlet 3 which, when the valve is open, communicate with each other through the opening of thevalve seat 4. Thisvalve seat 4 is surrounded by aninlet chamber 5 which may, for example, be cut into the valve body 1 from the upper side. The valve body 1 carries the lowermagnetic shunt ring 6, the lower conical surface of which engages upon the corresponding upper conical surface of the valve body and is thus properly centered relative thereto. An outerannular groove 7 around the upper conical surface of the valve body contains asealing ring 8. The fixed element of the magnet consists of the lowermagnetic shunt ring 6, the magnet housing 9, the uppermagnetic shunt ring 10, and the magnet core 11 and has a pot-shaped form with an inwardly projecting rim. This fixed element of the magnet is energized by anannular coil 13 which rests on abrass ring 12 and may, if properly insulated, be mounted directly on the magnet core 11.
Theupper shunt ring 10 carries aninsulating disk 14 which is separated from the upper wall or cover of the magnet housing by aring 15 of elastic material. When the magnet housing 9 is screwed together with the valve body 1 by means ofseveral screws 16 which are peripherally spaced from each other, theelastic ring 15 will be compressed, whereby the fixed parts of the magnet will be firmly held together and the magnet housing will be tightly closed toward the outside. Theinsulating disk 14 supports acoil terminal 17 from which the electric connecting cable leads to the outside through an airtight cable inlet, not shown. In order to prevent any humming of the valve which could easily occur if it is operated with alternating current, the valve according to the invention is preferably operated with direct current.
Thearmature 18 of the magnet has substantially an inverted T-shape and serves as the support of the valve ring 19 which consists of a well-sealing elastic material.Armature 18 consists of thecentral bar 20 of the inverted T which has the shape of a frustum, of anarmature disk 21 which forms the cross bar of the inverted T and has a conical outer edge, and of abolt 22 with afiat head 23 which secures the valve ring 19 to the armature. The pole surface on theshunt ring 6 has a considerably greater width than the opposite pole surface on thearmature disk 21. Thebolt head 23 may also be provided with at least oneslidable guide number 24 for maintaining the armature in the proper position in the event that the pull of the magnet is too eccentric.
The magnet core 11 is provided with a conical recess of a shape in accordance with that of thefrustum 20, and the bottom of this conical recess has a cylindricalblind hole 25 into which one end of abrass bushing 26 is pressed. The outer part ofbushing 26 serves as a guide for thearmature 18, and at the inside this bushing contains areturn spring 27 which acts at one end upon the bottom of a blind hole in the frustum 2t) and at the other end upon the magnet core 11 so that, when the magnet is not energized, thearmature 18 together with its valve ring 19 will be pressed firmly upon thevalve seat 4 and the latter will thus always be closed tightly.
The magnetic circuit which is formed by thefixed magnet parts 11, 10, 9, and 6 and thearmature parts 21 and 20 is interrupted by air gaps between theparts 20 and 11 and theparts 6 and 21. The particular design and construction of the parts of the magnetic circuit as provided in accordance with the invention is intended for the purpose of reducing the width of the two air gaps when the armature is pulled up and of thus considerably increasing the power of the magnetic valve. The new magnetic valve will therefore operate properly even though the flow of the fluid to be controlled has a relatively high pressure.
The electromagnetic valve according to the modification of the invention as illustrated in FIGURE 2 differs from the valve according to FIGURE 1 primarily by the fact that in place of a magnet housing 9, as shown in FIGURE 1, it is provided with a magnetictubular casing 28 which is enclosed by ahousing 29 of a noncorrosive material, for example, aluminum. Although the magnet housing 9 according to FIGURE 1 could also be made of noncorrosive magnetic steel, such a structure would be much more expensive than that as illustrated in FIG-URE 2.
The lowermagnetic shunt ring 60 according to FIG- URE 2 is mounted together with the lower end of theinner casing 28 in acylindrical recess 30 in the upper end of the valve body 1a. This has the advantage that these parts are properly centered in a very simple manner relative to the magnet core and the armature.Housing 29 is closed at its upper end by acover 31 which may likewise consist of aluminum. The different parts of this structure are held together in the proper relation to each other by an inner flange 32 on thehousing 29 and are secured to each other by means of screws, not shown.
The fixed parts 11, 1t}, 28, and 6a of the magnet according to FIGURE 2 may also be integrally connected to each other and be made in the form of a single pressed piece of magnetizable material, and the coil which is separately made may then he slipped over the magnet core 11.
Although my invention has been illustrated and described with reference to the preferred embodiment thereof, I wish to have it understood that it is in no way limited to the details of such embodiment but is capable of numerous modifications within the scope of the appended claims.
Having thus fully disclosed my invention, what I claim is:
1. An electromagnetic valve comprising a fixed substantially pot-shaped magnetizable element, a field coil for energizing said element, and a movable armature of a substantially T-shaped cross section having a diskshaped member and a central member projecting from said disk-shaped member and movable into the open side of said pot-shaped element when said fixed element is energized, the outer surfaces of said central and diskshaped members together forming pole surfaces of one magnetic pole, and the central part and the rim of said fixed element together forming pole surfaces of the other magnetic pole, each of said pole surfaces being conicallyshaped and disposed in an opposed, substantially parallel relationship with a pole surface of the opposite pole, said comically-shaped opposed pole surfaces defining therebetween at least two air gaps, whereby the size of said air gaps will be reduced when said fixed element is energized and said armature is attracted thereby.
2. An electromagnetic valve as defined in claim 1, wherein one of said air gaps is offset with respect to the other of said air gaps at right angles to the direction of movement of said armature.
3. An electromagnetic valve as defined in claim 1, in which the central member of said armature has a short length, said central part of said fixed element projecting downwardly and forming a magnetic pole.
4. An electromagnetic valve as defined in claim 1, in which said fixed magnetizable element has a central mag net core projecting from its bottom, said magnet core having a conical recess, said central member of said armature having a frustum shape and normally projecting centrally into said conical recess but spaced from the surface thereof by one of said air gaps.
5. An electromagnetic valve as defined in claim 1, in which the rim of said fixed pot-shaped element projects inwardly and forms a magnetic shunt ring, the inner annular surface of said shunt ring and the outer peripheral surface of said disk-shaped member being coaxial and having a substantially corresponding conical shape and forming two of said pole surfaces spaced from each other by one of said air gaps, the pole surface of said shunt ring having a considerably greater width than the pole surface of said disk-shaped member.
6. An electromagnetic valve as defined in claim 1, in which the outer peripheral wall of said fixed element forms a part of the magnet housing.
7. An electromagnetic valve as defined inclaim 5, fur ther comprising a valve body having an inlet and an outlet, a valve seat within said valve body intermediate said inlet and outlet, a valve ring mounted on said disk-shaped member for opening and closing said valve seat, said shunt ring engaging upon said valve body, the outer peripheral wall of said fixed element forming a part of the magnet housing, a compressed resilient ring within said housing for holding the different parts of said fixed element together, and means for securing said magnet housing to said valve body.
8. An electromagnetic valve as defined inclaim 5, further comprising a valve body having an inlet and an outlet, a valve seat within said valve body intermediate said inlet and outlet, a valve ring mounted on said diskshaped member for opening and closing said valve seat, said shunt ring engaging upon said valve body, said valve body having a cylindrical recess in its upper side, the outer peripheral wall of said pot-shaped element forming a tubular member having one end mounted in said recess, and a housing of a noncorrosive material surrounding the remainder of said tubular member, and means for securing said housing to said valve body.
9. An electromagnetic valve as defined inclaim 8, further comprising a fiangelike projection on the inner Wall of said housing for holding the different parts of said fixed element together.
References Cited UNITED STATES PATENTS 1,767,725 6/1930 Watert et al 251-129 X 2,121,657 6/1938 Fisher 251-129 X 2,543,455 2/1951 Goepfrich 251-129 X 2,735,047 2/1956 Garner et al 251-129 X 2,838,068 6/1958 Ray 251-141 X 3,168,242 2/1965 Diener 251-129 X M. CARY NELSON, Primary Examiner.
R. C. MILLER, Assistant Examiner.

Claims (1)

1. AN ELECTROMAGNETIC VALVE COMPRISING A FIXED SUBSTANTIALLY POT-SHAPED MAGNETIZABLE ELEMENT, A FIELD COIL FOR ENERGIZING SAID ELEMENT, AND A MOVABLE ARMATURE OF A SUBSTANTIALLY T-SHAPED CROSS SECTION HAVING A DISKSHAPED MEMBER AND A CENTRAL MEMBER PROJECTING FROM SAID DISK-SHAPED MEMBER AND MOVABLE INTO THE OPEN SIDE OF SAID POT-SHAPED ELEMENT WHEN SAID FIXED ELEMENT IS ENERGIZED, THE OUTER SURFACES OF SAID CENTRAL AND DISKSHAPED MEMBERS TOGETHER FORMING POLE SURFACES OF ONE MAGNETIC POLE, AND THE CENTRAL PART AND THE RIM OF SAID FIXED ELEMENT TOGETHER FORMING POLE SURFACES OF THE OTHER MAGNETIC POLE, EACH OF SAID POLE SURFACES BEING CONICALLYSHAPED AND DISPOSED IN AN OPPOSED, SUBSTANTIALLY PARALLEL RELATIONSHIP WITH A POLE SURFACE OF THE OPPOSITE POLE, SAID CONICALLY-SHAPED OPPOSED POLE SURFACES DEFINING THEREBETWEEN AT LEAST TWO AIR GAPS, WHEREBY THE SIZE OF SAID AIR GAS WILL BE REDUCED WHEN SAID FIXED ELEMENT IS ENERGIZED AND SAID ARMATURE IS ATTRACTED THEREBY.
US423618A1963-11-091964-11-03Electromagnetic valveExpired - LifetimeUS3368789A (en)

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DEC00313591963-11-09

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Cited By (33)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US3424429A (en)*1965-10-231969-01-28Sterer Eng & Mfg CoSolenoid operated valve
US3506085A (en)*1967-08-281970-04-14Mobil Oil CorpPneumatic acoustic source employing electromagnetic controlled valve
US3982554A (en)*1974-04-251976-09-28Tekyo Keiki Company LimitedElectromagnetic flapper valve
US4238110A (en)*1979-07-231980-12-09Colt Industries Operating Corp.Electromagnetic fuel metering valve assembly
EP0024909A1 (en)*1979-08-231981-03-11Ledex, Inc.Improvements in solenoids
US4647008A (en)*1984-08-211987-03-03Toyota Jidosha Kabushiki KaishaSolenoid valve for hydraulic control
US4946103A (en)*1987-12-021990-08-07Ganser-HydromagElectronically controlled fuel injector
US5064166A (en)*1990-09-201991-11-12Ford Motor CompanySolenoid valve with high flow capacity and low energy consumption
US20060027269A1 (en)*2004-08-062006-02-09Neff Robert HRapid response solenoid for electromagnetic operated valve
US20060181144A1 (en)*2005-02-162006-08-17Bendix Commercial Vehicle Systems, LlcSolenoid armature with integrated spherical soft seal
US20090200502A1 (en)*2008-02-082009-08-13Schaeffler KgElectromagnetic actuator for a hydraulic directional control valve
US20100219361A1 (en)*2006-05-162010-09-02Mondragon Componentes, S. CoopRotary gas tap with an integral electromagnetic valve
WO2016073966A1 (en)*2014-11-072016-05-12Dawn Equipment CompanyAgricultural system
US20160356393A1 (en)*2015-06-052016-12-08Xiamen Koge Micro Tech Co., Ltd.Solenoid valve and solenoid valve device
US9615497B2 (en)2014-02-212017-04-11Dawn Equipment CompanyModular autonomous farm vehicle
US9668398B2 (en)2014-02-052017-06-06Dawn Equipment CompanyAgricultural system for field preparation
US9788472B2 (en)2010-09-152017-10-17Dawn Equipment CompanyRow unit for agricultural implement
US9848522B2 (en)2014-11-072017-12-26Dawn Equipment CompanyAgricultural system
US9861022B2 (en)2013-02-012018-01-09Dawn Equipment CompanyAgricultural apparatus with hybrid single-disk, double-disk coulter arrangement
US10251324B2 (en)2011-07-012019-04-09Charles H. MartinAgricultural field preparation device
US10444774B2 (en)2014-11-072019-10-15Dawn Equipment CompanyAgricultural system
US10477760B2 (en)2015-12-282019-11-19Underground Agriculture, LLCAgricultural organic device for weed control
US10506755B2 (en)2010-09-152019-12-17Dawn Equipment CompanyAgricultural systems
US10548260B2 (en)2017-05-042020-02-04Dawn Equipment CompanySystem for automatically setting the set point of a planter automatic down pressure control system with a seed furrow sidewall compaction measurement device
US10582653B2 (en)2014-11-072020-03-10Dawn Equipment CompanyAgricultural planting system with automatic depth control
US10645865B2 (en)2017-05-042020-05-12Dawn Equipment CompanyAgricultural row unit with automatic control system for furrow closing device
US10721855B2 (en)2014-02-052020-07-28Dawn Equipment CompanyAgricultural system for field preparation
US10980174B2 (en)2015-12-282021-04-20Underground Agriculture, LLCAgricultural mowing device
US11006563B2 (en)2017-05-042021-05-18Dawn Equipment CompanySeed firming device for improving seed to soil contact in a planter furrow with feature designed to prevent the buildup of soil on the outer surfaces by discharging pressurized fluid
US11083134B2 (en)2015-12-282021-08-10Underground Agriculture, LLCAgricultural inter-row mowing device
US11197411B2 (en)2014-11-072021-12-14Dawn Equipment CompanyAgricultural planting system with automatic depth control
US12171152B2 (en)2010-09-152024-12-24Deere & CompanySystem and method for adaptively controlling depth of ground-engaging planting row unit using forward sensor that measures residue ahead of row unit
US12389816B2 (en)2013-02-042025-08-19Deere & CompanyAgricultural systems

Families Citing this family (5)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
DD114660A1 (en)*1974-04-081975-08-12
DE2933545A1 (en)*1979-08-181981-03-26Festo Kg, 73734 EsslingenSelectively operated solenoid valve - has chamber with magnetic head as seal and two magnetic cores with restoring spring achieving closed or open position when de-energised
DE3070590D1 (en)*1980-11-061985-06-05Jacobs Mfg CoImproved solenoid
DE3505169C2 (en)*1985-02-151995-04-06Mannesmann Ag Actuating magnet
JP2015152156A (en)*2014-02-192015-08-24株式会社テージーケーsolenoid valve

Citations (6)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US1767725A (en)*1928-02-231930-06-24Magnetic Organ Action CompanyElectromagnet
US2121657A (en)*1936-02-011938-06-21James B FisherElectromagnetic control means
US2543455A (en)*1946-01-031951-02-27Skinner Chuck CompanyValve
US2735047A (en)*1956-02-14Antivibration solenoid structure
US2838068A (en)*1951-02-101958-06-10Gen Controls CoElectromagnetic valve
US3168242A (en)*1962-11-051965-02-02Eldima A GElectromagnetically operated temperature regulating system

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US2735047A (en)*1956-02-14Antivibration solenoid structure
US1767725A (en)*1928-02-231930-06-24Magnetic Organ Action CompanyElectromagnet
US2121657A (en)*1936-02-011938-06-21James B FisherElectromagnetic control means
US2543455A (en)*1946-01-031951-02-27Skinner Chuck CompanyValve
US2838068A (en)*1951-02-101958-06-10Gen Controls CoElectromagnetic valve
US3168242A (en)*1962-11-051965-02-02Eldima A GElectromagnetically operated temperature regulating system

Cited By (51)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US3424429A (en)*1965-10-231969-01-28Sterer Eng & Mfg CoSolenoid operated valve
US3506085A (en)*1967-08-281970-04-14Mobil Oil CorpPneumatic acoustic source employing electromagnetic controlled valve
US3982554A (en)*1974-04-251976-09-28Tekyo Keiki Company LimitedElectromagnetic flapper valve
US4238110A (en)*1979-07-231980-12-09Colt Industries Operating Corp.Electromagnetic fuel metering valve assembly
EP0024909A1 (en)*1979-08-231981-03-11Ledex, Inc.Improvements in solenoids
US4647008A (en)*1984-08-211987-03-03Toyota Jidosha Kabushiki KaishaSolenoid valve for hydraulic control
US4946103A (en)*1987-12-021990-08-07Ganser-HydromagElectronically controlled fuel injector
US5064166A (en)*1990-09-201991-11-12Ford Motor CompanySolenoid valve with high flow capacity and low energy consumption
US20060027269A1 (en)*2004-08-062006-02-09Neff Robert HRapid response solenoid for electromagnetic operated valve
US20060181144A1 (en)*2005-02-162006-08-17Bendix Commercial Vehicle Systems, LlcSolenoid armature with integrated spherical soft seal
US7367636B2 (en)*2005-02-162008-05-06Bendix Commercial Vehicle Systems, LlcSolenoid armature with integrated spherical soft seal
US8550428B2 (en)*2006-05-162013-10-08Mondragon Componentes, S. CoopRotary gas tap with an integral electromagnetic valve
US20100219361A1 (en)*2006-05-162010-09-02Mondragon Componentes, S. CoopRotary gas tap with an integral electromagnetic valve
US8136790B2 (en)*2008-02-082012-03-20Schaeffler Technologies Gmbh & Co. KgElectromagnetic actuator for a hydraulic directional control valve
US20090200502A1 (en)*2008-02-082009-08-13Schaeffler KgElectromagnetic actuator for a hydraulic directional control valve
US9788472B2 (en)2010-09-152017-10-17Dawn Equipment CompanyRow unit for agricultural implement
US11122726B2 (en)2010-09-152021-09-21Dawn Equipment CompanyAgricultural systems
US12150399B2 (en)2010-09-152024-11-26Deere & CompanyRow unit for agricultural implement
US10506755B2 (en)2010-09-152019-12-17Dawn Equipment CompanyAgricultural systems
US11470754B2 (en)2010-09-152022-10-18Dawn Equipment CompanyAgricultural systems
US10477752B2 (en)2010-09-152019-11-19Dawn Equipment CompanyRow unit for agricultural implement
US12171152B2 (en)2010-09-152024-12-24Deere & CompanySystem and method for adaptively controlling depth of ground-engaging planting row unit using forward sensor that measures residue ahead of row unit
US10238024B2 (en)2010-09-152019-03-26Dawn Equipment CompanyRow unit for agricultural implement
US10806064B2 (en)2011-07-012020-10-20Charles H. MartinAgricultural field preparation device
US11375653B2 (en)2011-07-012022-07-05Charles H. MartinAgricultural field preparation device
US10251324B2 (en)2011-07-012019-04-09Charles H. MartinAgricultural field preparation device
US12058944B2 (en)2011-07-012024-08-13Charles H. MartinAgricultural field preparation device
US9861022B2 (en)2013-02-012018-01-09Dawn Equipment CompanyAgricultural apparatus with hybrid single-disk, double-disk coulter arrangement
US12389816B2 (en)2013-02-042025-08-19Deere & CompanyAgricultural systems
US10721855B2 (en)2014-02-052020-07-28Dawn Equipment CompanyAgricultural system for field preparation
US9668398B2 (en)2014-02-052017-06-06Dawn Equipment CompanyAgricultural system for field preparation
US10433472B2 (en)2014-02-052019-10-08Dawn Equipment CompanyAgricultural system for field preparation
US10485153B2 (en)2014-02-212019-11-26Dawn Equipment CompanyModular autonomous farm vehicle
US9615497B2 (en)2014-02-212017-04-11Dawn Equipment CompanyModular autonomous farm vehicle
US10444774B2 (en)2014-11-072019-10-15Dawn Equipment CompanyAgricultural system
WO2016073966A1 (en)*2014-11-072016-05-12Dawn Equipment CompanyAgricultural system
US10582653B2 (en)2014-11-072020-03-10Dawn Equipment CompanyAgricultural planting system with automatic depth control
US10251333B2 (en)2014-11-072019-04-09Dawn Equipment CompanyAgricultural system
US9848522B2 (en)2014-11-072017-12-26Dawn Equipment CompanyAgricultural system
US9723778B2 (en)2014-11-072017-08-08Dawn Equipment CompanyAgricultural system
US11197411B2 (en)2014-11-072021-12-14Dawn Equipment CompanyAgricultural planting system with automatic depth control
US20160356393A1 (en)*2015-06-052016-12-08Xiamen Koge Micro Tech Co., Ltd.Solenoid valve and solenoid valve device
US10100945B2 (en)*2015-06-052018-10-16Xiamen Koge Micro Tech Co., Ltd.Solenoid valve and solenoid valve device
US11083134B2 (en)2015-12-282021-08-10Underground Agriculture, LLCAgricultural inter-row mowing device
US10477760B2 (en)2015-12-282019-11-19Underground Agriculture, LLCAgricultural organic device for weed control
US10980174B2 (en)2015-12-282021-04-20Underground Agriculture, LLCAgricultural mowing device
US11006563B2 (en)2017-05-042021-05-18Dawn Equipment CompanySeed firming device for improving seed to soil contact in a planter furrow with feature designed to prevent the buildup of soil on the outer surfaces by discharging pressurized fluid
US12089518B2 (en)2017-05-042024-09-17Dawn Equipment Company, Inc.Seed firming device for improving seed to soil contact in a planter furrow with feature designed to prevent the buildup of soil on the outer surfaces by discharging pressurized fluid
US10645865B2 (en)2017-05-042020-05-12Dawn Equipment CompanyAgricultural row unit with automatic control system for furrow closing device
US12290020B2 (en)2017-05-042025-05-06Deere & CompanySystem for automatically setting the set point of a planter automatic down pressure control system with a seed furrow sidewall compaction measurement device
US10548260B2 (en)2017-05-042020-02-04Dawn Equipment CompanySystem for automatically setting the set point of a planter automatic down pressure control system with a seed furrow sidewall compaction measurement device

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Publication numberPublication date
DE1464526A1 (en)1969-04-24
CH418073A (en)1966-07-31
NL6412414A (en)1965-05-10

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