Method and device for spraying dairy animals

The invention claimed is: 1. A spray device attachable to a spray robot, the spray device for spraying an udder region of a dairy animal, the spray device comprising: a body element ( 4 ) having a first end ( 24 ) and an opposite, second end ( 28 ); an engagement element ( 30 ) located at the first end ( 24 ) of the body element ( 4 ), the engagement element operable to detachably mount the body element ( 4 ) on a robot arm of the spray robot; a spray nozzle ( 6 ) located at the second end of the body element ( 4 ), the spray nozzle ( 6 ) having a spray opening ( 8 ); a fluid channel ( 10 ) extending between i) an input port ( 12 ) with a first connector ( 14 ) located at the first end of the body element, and ii) the spray nozzle ( 6 ) at the second end of the body element, wherein with the engagement element mounting the body element on the robot arm, the fluid channel is in fluid communication with spray solution provided from the spray robot and in operation the fluid channel sprays the spray solution received from the spray robot through the spray nozzle; a heating element ( 16 ) located at a first region of the fluid channel, in operation the heating element heating the spray solution passing through the first region of the fluid channel; a first temperature sensor ( 20 A) that senses a temperature (T1) of the spray solution being sprayed from the spray nozzle, the temperature sensor ( 20 A) being located downstream of the heating element ( 16 ) and upstream of the spray nozzle; and a control unit ( 22 ) connected to the first temperature sensor ( 20 A), the control unit controlling the heating element to heat the spray solution to a desired operating temperature, wherein a tube ( 32 ) defines the fluid channel ( 10 ), the tube ( 32 ) comprising the input port ( 12 ) and being connected to the spray nozzle ( 6 ), the body element ( 4 ) is a tubular element having a cavity ( 31 ) that at least partly accommodates the tube ( 32 ) with the input port ( 12 ), and wherein the control unit ( 22 ) and the heating element ( 16 ) are each accommodated in the cavity ( 31 ). 2. The spray device of claim 1 , further comprising: a user interface ( 25 ) connected to the control unit ( 22 ), wherein the desired operating temperature is adjustable by a user via the user interface. 3. The spray device of claim 1 , wherein, the engagement element is a flange ( 30 ) detachably mountable on the spray robot, and the heating element surrounds the first region of the fluid channel and is positioned at a distance of less than 50 cm from the spray opening along the fluid channel. 4. The spray device of claim 1 , wherein, the engagement element is a bayonet clutch ( 30 ) detachably mountable on the spray robot, and the heating element surrounds the first region of the fluid channel and is positioned at a distance of less than 50 cm from the spray opening along the fluid channel. 5. The spray device of claim 1 , wherein the heating element is positioned at a distance of less than 10 cm from the spray opening along the fluid channel. 6. The spray device of claim 1 , further comprising insulation material in the cavity ( 31 ) between the body element ( 4 ) and the tube ( 32 ). 7. The spray device of claim 1 , wherein the first temperature sensor ( 20 A) senses an ambient temperature (T1), and the heating element surrounds the first region of the fluid channel and is positioned at a distance of less than 50 cm from the spray opening along the fluid channel, the control unit ( 22 ) and the heating element ( 16 ) are each accommodated in the cavity ( 31 ), and insulation material is provided in the cavity ( 31 ) between the body element ( 4 ) and the tube ( 32 ). 8. The spray device according to claim 1 , wherein the spray device is removably attachable to a robot arm of a spray robot, wherein the engagement element mounts the body element on the robot arm of the spray robot, the fluid channel being in fluid communication with the spray solution provided from the spray robot, and in operation the fluid channel sprays the spray solution received from the spray robot through the spray nozzle, and the heating element heats the spray solution passing through the heating region of the fluid channel. 9. The spray device of claim 8 , wherein the heating element surrounds the first region of the fluid channel and is positioned at a distance of less than 50 cm from the spray opening along the fluid channel. 10. A spray device attachable to a spray robot, the spray device for spraying an udder region of a dairy animal, the spray device comprising: a body element ( 4 ) having a first end ( 24 ) and an opposite, second end ( 28 ); an engagement element ( 30 ) located at the first end ( 24 ) of the body element ( 4 ), the engagement element operable to detachably mount the body element ( 4 ) on a robot arm of the spray robot; a spray nozzle ( 6 ) located at the second end of the body element ( 4 ), the spray nozzle ( 6 ) having a spray opening ( 8 ); a fluid channel ( 10 ) extending between i) an input port ( 12 ) with a first connector ( 14 ) located at the first end of the body element, and ii) the spray nozzle ( 6 ) at the second end of the body element, wherein with the engagement element mounting the body element on the robot arm, the fluid channel is in fluid communication with spray solution provided from the spray robot and in operation the fluid channel sprays the spray solution received from the spray robot through the spray nozzle; a heating element ( 16 ) located at a first region of the fluid channel, in operation the heating element heating the spray solution passing through the first region of the fluid channel; a first temperature sensor ( 20 A) that senses a temperature (T1) of the spray solution being sprayed from the spray nozzle, the temperature sensor ( 20 A) being located downstream of the heating element ( 16 ) and upstream of the spray nozzle; and a control unit ( 22 ) connected to the first temperature sensor ( 20 A), the control unit controlling the heating element to heat the spray solution to a desired operating temperature, a second temperature sensor located downstream of the input port ( 12 ) and upstream of the first heating element ( 16 ) and that senses a temperature (T2) of the spray solution in the fluid channel prior to the heating element ( 16 ), the second temperature sensor being connected to the control unit ( 22 ), wherein the control unit ( 22 ) uses both the first and second temperatures to control the heating element to heat the spray solution to the desired operating temperature, wherein a tube ( 32 ) defines the fluid channel ( 10 ), the tube ( 32 ) comprising the input port ( 12 ) and being connected to the spray nozzle ( 6 ), and the body element ( 4 ) is a tubular element having a cavity ( 31 ) that at least partly accommodates the tube ( 32 ) with the input port ( 12 ).