Lubricant injector

What is claimed is: 1. A lubricant injector comprising: at least one lubricant inlet, at least one lubricant outlet, a control piston, and a metering piston, wherein the control piston is configured to conduct lubricant from the lubricant inlet to the metering piston and the metering piston is configured to pump the lubricant provided by the control piston to the at least one lubricant outlet, wherein the metering piston includes a first metering chamber and a second metering chamber that are each connected to the at least one lubricant outlet so that both from the first metering chamber and from the second metering chamber lubricant is conductible to the at least one lubricant outlet, wherein the lubricant injector further includes a first lubricant channel and a second lubricant channel, wherein the first lubricant channel is configured to connect the second metering chamber to the lubricant inlet or to the lubricant outlet, and the second lubricant channel is configured to connect the first metering chamber to the lubricant inlet or to the lubricant outlet, wherein the control piston includes a first control space and a second control space, wherein in a first switching state of the control piston the lubricant inlet is connected via the first control space to the first lubricant channel and the second metering chamber, and in a second switching state the lubricant inlet is connected via the second control space to the second lubricant channel and the first metering chamber, and wherein a return spring located in the lubricant outlet biases the control piston toward the first switching state. 2. The lubricant injector according to claim 1 , wherein the first control space is configured as a ring space a first annular space in a side wall of the control piston and the second control space is configured as a ring space a second annular space in the side wall of the control piston, the second annular space being separate from the first annular space. 3. The lubricant injector according to claim 1 , wherein the first lubricant channel is connected to the at least one lubricant outlet via a first lubricant-outlet channel, and the second lubricant channel is connected to the at least one lubricant outlet via a second lubricant-outlet channel. 4. The lubricant injector according to claim 1 , wherein in the first switching state of the control piston the first metering chamber of the metering piston is connected to the at least one lubricant outlet via the second lubricant channel and the second control space and in the second switching state the second metering chamber of the metering piston is connected to the at least one lubricant outlet via the first lubricant channel and the first control space. 5. The lubricant injector according to claim 1 , wherein at least one further lubricant outlet is provided at the first and/or second lubricant outlet channel. 6. The lubricant injector according to claim 1 , wherein a screw thread, a snap connection, and/or a plug connection, is provided on the at least one lubricant outlet with which the at least one lubricant outlet is connectable to a valve assembly, a closure element or a connecting element for connecting a lubricant line. 7. The lubricant injector according to claim 1 , wherein the control piston includes a control-piston workspace that is impingeable when pressurized with lubricant in order to shift shifts the control piston into the second switching state against a preload of a preload element a biasing force of the return spring. 8. The lubricant injector according to claim 7 , wherein the control-piston workspace is connected to a lubricant switchover pressure channel, which is configured to conduct lubricant into the control-piston workspace if a more than a certain lubricant pressure abuts on is present in the lubricant inlet and/or in the first control space of the control piston. 9. The lubricant injector according to claim 8 , wherein the lubricant switchover pressure channel is fluidly connected to the lubricant inlet and/or the first control space of the control piston. 10. The lubricant injector according to claim 1 , wherein at least one metering chamber, is connectable using includes an adjusting screw via which a stroke of the metering piston and/or of the control piston is adjustable. 11. A lubricant injector block with at least two lubricant injectors according to claim 1 connected in series. 12. The lubricant injector block according to claim 11 , including a lubricant central channel on the lubricant injector block via which the at least two lubricant inlets of the at least two lubricant injectors are supplyable with lubricant. 13. The lubricant injector block according to claim 12 , including a central lubricant inlet and a central lubricant outlet on the lubricant injector block that are connected to each other via the lubricant central channel, wherein the central lubricant outlet is closable with a closure element or connectable to a further lubricant injector or a further lubricant injector block. 14. The lubricant injector according to claim 1 , wherein the control piston does not axially overlap the return spring. 15. The lubricant injector according to claim 1 , wherein the lubricant outlet includes a spring-receiving chamber in which the return spring is located, and wherein both from the first metering chamber to the at least one lubricant outlet and from the second metering chamber to the at least one lubricant outlet lubricant passes through the spring-receiving chamber. 16. The lubricant injector according to claim 1 , wherein the lubricant outlet includes a spring-receiving chamber in which the return spring is located, wherein a body is slidably mounted in the spring-receiving chamber, and wherein the spring biases the body against an end of the control piston. 17. A lubricant injector comprising: at least one lubricant inlet, at least one lubricant outlet, a control piston, and a metering piston, wherein the control piston is configured to conduct lubricant from the lubricant inlet to the metering piston, and the metering piston is configured to pump the lubricant provided by the control piston to the at least one lubricant outlet, wherein the metering piston includes a first metering chamber and a second metering chamber that are each connected to the at least one lubricant outlet so that both from the first metering chamber and from the second metering chamber lubricant is conductible to the at least one lubricant outlet, wherein the lubricant injector further includes a first lubricant channel and a second lubricant channel, wherein the first lubricant channel is configured to connect the second metering chamber to the lubricant inlet or to the lubricant outlet, and the second lubricant channel is configured to connect the first metering chamber to the lubricant inlet or to the lubricant outlet, wherein the control piston includes a first control space and a second control space, wherein in a first switching state of the control piston the lubricant inlet is connected via the first control space, but not via the second control space, to the first lubricant channel and the second metering chamber, and in a second switching state the lubricant inlet is connected via the second control space, but not via the first control space, to the second lubricant channel and the first metering chamber, wherein the control piston includes a control-piston workspace that when pressurized with lubricant shifts the control piston toward the second switching state, and wherein t