DE2053095B2 - LINEAR MOTOR IN COMB OR DOUBLE COMB DESIGN - Google Patents

Description

of the three winding strands _{by -J 3 of} the pole pitch because the smaller number of poles that are common in rotating field motors are offset. do not easily perform with linear motors

An advantage of the invention is that the normal version can be assumed sheet metal stacks forming a double comb with a but because one is often with loosely hanging out common pole-changing switch for switching the connected 5 connection lines, the number of which is the relevant one Traveling field speed and direction reduce the susceptibility to interference in an advantageous manner are connected. is kept as small as possible.

Another advantage is that the winding The distribution of the three strand connections on Vs.

lungs with appropriately selected pole pitch for the pole pair division of the larger traveling field velocities

Achievement of a known braking effect at xo speed during the transition from the rotating field motor to the

a suitable DC voltage can be applied. According to the invention, linear motor is basically possible

Appropriately, it is borrowed from series switchgear. .; .-

of the strand halves the single-triangle or single-die from the Dahlander circuit with rotating field star circuit, in parallel connection the double motors from familiar types of supply (single star Star connection or double-delta connection - 15 and single-delta when fed from the strand reversed, start and end at half the traveling field speed

An essential feature of the invention is speed, or double star and double triangle

to see that the desired traveling field direction feed from the center of the strand to the parallel

alternatively by interchanging two stranded strand ends at full traveling field speed

conclusions at the same time with one to set the speed) can be advantageous on the linear motor

Traveling field speed serving pole-changing switches are transmitted according to the invention on

is adjustable. different traveling field velocities with one

The invention will switch to single winding in more detail with reference to the drawing,

explained. In Fig. 1 and 2 are known versions of

It shows 25 linear motors (single and double comb) with

F i g. 1 in sections with a single comb with an associated or common secondary part

associated secondary part according to the state of the two-layer windings. The coil width,

The technology that is determined by the grooving step is free

F i g. 2 in sections a double comb with permanent. In Fig. 3, on the other hand, is a sheet metal stand

the common for both excitation windings Se- 30 with excitation winding grooves and indicated two-

State-of-the-art abutment. Layer winding shown according to the invention.

F i g. 3 shows a comb according to the invention. Here, the range from approximately V ₂ to ² / s is that for

F i g. 4 an additional exemplary embodiment after a higher traveling field speed belonging to the polder Invention in a circuit for the power division significant, smaller tolerances after over the middle of the strand and high traveling field velocities - including above and below. For example are ability, in this version twelve grooves were chosen.

F i g. 5 shows another embodiment according to the invention for greater traveling field speed in a circuit for the supply of the hearing pole division comprises six slot divisions. The beginning to the end of each strand and selection from the possible grooving steps according to the low traveling field speed. 40 invention provides ¹ I ₂ - 6 = ^3-2 / ₃ * 6 = 4Nutteilungen.

In Fig. 1 and 2 in the stator to be within this range, the Nutschritt after primary part 1, la, 1, 2. Erregerwicklungsnuten 2α, provided b the winding factor in known manner 2b embedded. The excitation coils 3 can be selected in several. In the exemplary embodiment indicated by grooves, namely as upper and lower F i g. 4, a winding step of 3, formed coils. The primary part with its excitation winding 45 from the difference in the numerical ratio 1: 4, is seen from the secondary part 6 through an air.

gap 4 separated. The iron secondary part is shown in FIG. 4 is a circuit diagram with electrical components. The upper edge is provided with a metal coating 5, for example connections for the high traveling field speed made of Cu. The invention shows the illustrated. Compared to the known from the Dahlander-Weg for the transmission of the Dahlander circuit 50 circuit in rotary field motors here, larger rotary field motor to the linear motor, even with larger numbers of slots, the invention must use smaller slot numbers, such as these, in the case of short, small groove combs used in small combs counting. The switchover has an advantageous effect on different traveling field velocities, which are otherwise only applicable for small and micro motors. In the exemplary embodiment there are twelve grooves, small electrical or magnetic losses 55 in FIG. 4, the winding part U ₁ X _{1 is to be} understood as one as well as when starting or braking the linear half of the first strand (phase). The motors off. From the known diversity of the winding portion U ₂ X ₂ represents the second half of the first two-layer windings in such engines in comb strand. Both halves are executed by connecting those to be fixed to a Nutschritt of X ₁ and U ₂ in the center of the strand together V ₂ to _^2/3 of the pole pitch of the larger Wanderfeld- 60 is connected. The ends U ₁ , (X ₁ + U ₂ ), X ₂ are suggested for the speed in an expedient manner. Terminals led out.

All coils of a half strand are fixed to each other. The second strand is divided accordingly: connected to one another in series; also the two The winding part V _x Y ₁ relates to the first half strands. It is also the beginning of the strand half, V ₂ Y ₂ on the second half of the strand. Y ₁ or the end and the middle of each strand of 65 and V ₂ each are guided in the center of the strand by clamps that are firmly connected to one another. From those at the Dahlander Associations. The ends V ₁ , (Y ₁ + V ₂ ) and Y ₂ are connected to the usual Klem- circuit in rotary field motors. In the third strand you have the numbers (6 and 9), the invention selects the smallest (6) strand halves W ₁ Z ₁ and W ₂ Z ₂ . With each other

tied in the middle of the strand are Z ₁ and W ₂ . The traveling field, for example at the high traveling ends W ₁ , (Z ₁ + W _z ) and Z _2, are in turn guided out of the eld speed when fed from the center of the strand. from to the beginning of the strand or to the end of the strand from the left In order to achieve a high traveling field speed, move to the right. In the opposite case, i.e. when passing through, the connections 5 in the middle of the strand are fed from the beginning of the strand to the end of the strand (χ jp lj \ (Y + γ \ _{un (} j (Z + U) end), the traveling field moves with slow Ge -., _rT *, '"",. ^{α 2} speed from right to left,
each fed by U, V and W '. With optional crossing or non-crossing The strand beginning and the strand end are parallel _two a ^^ _{the strand} * _{can be switched by means of a Po} , ^E , _{i.e. 10 umsc} j, _a i _terSj which is not shown separately, the stingy XV 1 Y desired traveling field direction additionally changed W λ. 7 ι 7, as is known in rotating field motors ¹ + ^{2 as} ' The invention has the particular advantage. The terminals X, Y and Z are connected in a double star system that can be switched to different hiking circuits. 15 field velocities with simple switching elements. 5 shows the circuit diagram for which low and a single winding is possible. This is for the traveling field speed. Each line is flowed through in relevant linear motors in comb design before series connection from the beginning of the line to the end of the line, especially with long duty cycles or with current. with many attempts. The beginning of the strand U ₁ , V ₁ , W ₁ is connected to the network, ao to the usable ratio in the case of smaller liners, as are the ends of the strands X ₂ , Y ₂ , Z ₂ . The strand center motors are important for calculating the same, some are not fed. The ends U ₁ , V ₁ , W ₁ , X ₂ , Y _2, cumbersome and expensive construction for: are preferably connected in a triangle. To avoid linear motors, as they are for the user After your proposal of the invention moves manure for numerous drives into consideration

1 sheet of drawings

Claims (2)

1 2 so that this arrangement for the production of a patent claims: large thrust in the axial direction is favorable. With the double comb, the secondary part consists of one 1. Linear motor in comb or double comb - electrically conductive, magnetic but non-conductive construction with a pole-changing exciter winding 5 material, mostly copper The excitation coils are known as single- or double-layered grooves in two isolated windings, with single and double combs, equal-sized partial coils in upper and lower coils, with the two-layer windings, each individual is dismantled in this way, that each wound turn has the same groove step, all individual win upper and lower coils fertilize in the manner of a two-layer io of the same groove step form a coil,
winding in two in a certain constant The disadvantage of this known device is spaced grooves, and it can be seen in the fact that a simple solution to the change of coils belonging to a phase strand of the traveling field speed without bezu each two firmly connected groups special precautions is not given is.
15 On the other hand, the German patent specifies that the excitation winding 470021 an arrangement is known in which a three-phase design and with clamps at the constant change of the winding pitch along the individual ends of the groups to form the traveling field direction a proportional change Polurr.3switchability in a ratio of 1: 2 to the traveling field speed is achieved. This is provided in the manner of a Dahlander circuit. The suggestion is only useful for a few cases of application and that two additional Oberbars belong together. and undersides of a coil with a groove step. Furthermore, the USA. patent from V ₂ to * / s of the 3 355 914 belonging to the smaller number of poles are wound for the purpose of achieving a pole number pole pitch, the beginnings and ratio of 2: 8 or 2: 6 in two-phase motors ends of the three winding _{strands around V 3 of} the pole 25 known for washing machine drives, each strand division of the smaller number of poles are offset. divide the winding in half, whose 2. Linear motor according to claim 1 and 2, characterized in that coils are firmly connected one behind the other, each half characterized in that the desired traveling field to then change the switching direction by means of a switch direction optionally by interchanging two of one strand half against the other half um-strand connections to stop at the same time as one. The two halves of the strand are through This switch is used separately for setting the traveling field speed. They are also in on-pole changeover switches is adjustable. more agile way the coils per group, partly too Number of wires per groove and strand, unevenly subdivided. The grooves are alternately filled with wires from one strand and with both strands. It is also the winding factor for the high number of poles wound small-pitch coils, based on the The invention relates to a linear motor with a large pole pitch, bad. The work with the Vorin comb or double comb design, with a pole winding of the coils, with their insertion and switching switchable excitation winding, whose turns 4 ° is considerable according to this proposal,
In each excitation winding groove in height in two furthermore, equal-sized partial coils in upper 1 271 152, isolated from one another, have been proposed in upper 1 271 152, for the purpose of and sub-coils are dismantled in such a way that braking is performed on each of the coiled upper and lower coils driven by linear motors According to the type of vehicles, the excitation winding of the motors can be switched over by means of a two-layer winding in two grooves arranged in a certain 45 pole-changing switch at lower traveling field speed constant distance and, as in the case of Drehist and their current motors belonging to a phase string, to be braked as a generator. For the coils, the winding of the linear motor is made up of two firmly connected groups and for the coils are connected in series. The excitation coils and the pole-changing switches were not given any instructions as the primary part moved in the axial direction, so these problems remained open,
Because of the traveling field, which induces a secondary part, the object of the invention is to induce a secondary part which is cost-saving in the direction of the traveling field and has a particular force set up as a rotor on the most specialized switching and winding arrangements for coils. If the linear motor of the linear motor is capable of creating two-layer windings and two different WAN (primary part) as well as a secondary part with just one laminated core with exciter winding part 55, the field velocities with relatively small ones are called the laminated core because of its comb-like number of slots Dahlander circuit to be built as a "comb" and the entire exciter part as a drive, ie with a single winding for two "single combs". The conclusion of the traveling magnetic field velocities get along.
The flow in the secondary part takes place through the secondary part, which is designed as a sheet metal 60. This is achieved according to the invention in that the secondary part is designed as a package or iron rail. The excitation winding is three-phase and if two opposing laminated cores reduce the terminals at the individual ends of the groups to a single secondary part in between, forming a pole-changing capability, the excitation part is designated as a double comb 1: 2 in the manner of a Dahlander circuit. In this type of the linear motor has 65 and further that in each case two belong together the upper and the magnetic flux Although two air gaps to exceed subpages of a coil with a Nutschritt of curling, but the magnetic circuit is formed by the ¹ J ₂ to _^2/3 of the Smaller number of poles belonging to the pole sum of the flows through both »combs« formed, division wound, with the beginnings and ends