Liquid ejecting apparatus, embroidery system, and method for controlling liquid ejecting apparatus

What is claimed is: 1. A liquid ejecting apparatus comprising: a plurality of ejection heads, each ejection head of the plurality of ejection heads including a nozzle array in which a plurality of nozzles are arranged in an array, and being configured to execute a coloring operation by ejecting a droplet onto an ejection target medium that is conveyed in the liquid ejecting apparatus; an ejection receiver configured to receive the droplet ejected by an ejection head of the plurality of ejection heads, the ejection receiver having a width greater than a width of the conveyed ejection target medium; a processor; and a memory storing program instructions, wherein for each ejection head, a nozzle array arrangement direction in which the plurality of nozzles are arranged in the array, runs parallel with a conveying direction in which the ejection target medium is conveyed, and the program instructions cause the processor to: control a first ejection head from among the plurality of ejection heads to move at a predetermined timing to a position facing the ejection target medium; and eject the droplet toward the ejection target medium, and determine whether execution of an idle ejection operation is possible by calculating a time during which all of the plurality of nozzles in the nozzle array, in each of the plurality of ejection heads, do not perform ejection of the respective droplets based on coloring data; and comparing the time during which all of the plurality of nozzles do not perform ejection of the respective droplets with a time required to perform the idle ejection operation, which includes ejection of the respective droplets to the ejection receiver, and control a second ejection head from among the plurality of ejection heads, other than the first ejection head, that is executing the coloring operation to withdraw from the position facing the ejection target medium simultaneously with the moving of the first ejection head, and control the nozzle array in the second ejection head to perform the idle ejection operation, without stopping the ejection target medium, upon determining that the time during which all of the plurality of nozzles do not perform ejection is longer than or equal to the time required to perform the idle ejection operation. 2. The liquid ejecting apparatus according to claim 1 , further comprising: a conveying mechanism configured to convey the ejection target medium in a direction parallel with the nozzle array arrangement direction. 3. The liquid ejecting apparatus according to claim 2 , further comprising: a head mover configured to move each of the plurality of ejection heads in an orthogonal direction that is orthogonal to the conveying direction of the ejection target medium, wherein the idle ejection operation includes withdrawing the nozzle array of the corresponding ejection head that is executing the coloring operation from the position facing the ejection target medium, ejecting, to the ejection receiver, an idle droplet from the nozzle array of the corresponding ejection head that has been withdrawn, and returning the nozzle array of the corresponding ejection head to the position facing the ejection target medium, and wherein the threshold time is set to be a time required for performing the withdrawal of the nozzle array, the ejecting of the idle droplet, and the returning of the nozzle array. 4. The liquid ejecting apparatus according to claim 2 , further comprising: a first electrode provided on a nozzle surface, on which the nozzle array is formed, of each ejection head of the plurality of ejection heads, the first electrode extending in the nozzle array arrangement direction and being disposed adjacent to the nozzle array in a direction orthogonal to the nozzle array arrangement direction; and a second electrode provided on a surface facing at least a part of the nozzle surface of each of the plurality of ejection heads with the ejection target medium situated between the first electrode and the second electrode, the second electrode being configured to form an electric field between the first electrode and the second electrode, and wherein the idle ejection operation includes generating the electric field between the first electrode and the second electrode, deflecting an idle droplet ejected from the nozzle array of the corresponding ejection head while the idle droplet is flying so that the idle droplet lands on the ejection receiver, in a state in which the electric field is generated, and stopping the generating of the electric field, and wherein the threshold time is set to be a time required for performing the generation of the electric field, the deflection of the idle droplet, and the stopping of the generation of the electric Geld. 5. The liquid ejecting apparatus according to claim 1 , wherein during a period in which one ejection head among the plurality of ejection heads is continuously performing an ejection operation of ejecting the droplet to the ejection target medium to color the ejection target medium, another ejection head among the plurality of ejection heads performs an idle ejection operation including ejection of the droplet to the ejection receiver. 6. The liquid ejecting apparatus according to claim 1 , wherein the program instructions further cause the processor to: determine whether an idle ejection operation including ejection of the droplet to the ejection receiver is necessary for each of the plurality of nozzles in the nozzle array in each of the plurality of ejection heads, by calculating a time during which all of the plurality of nozzles in the nozzle array in each of the plurality of ejection heads do not perform ejection of the droplet based on coloring data, and counting a time during which ejection of the droplet is not performed in the coloring data, upon determining that the idle ejection operation is necessary. 7. The liquid ejecting apparatus according to claim 6 , wherein the program instructions further cause the processor to: count a period during which ejection of the droplet is not performed by each of the plurality of nozzles in the nozzle array based on the coloring data, and determine that the idle ejection operation is necessary in a case where the nozzle array including one or more nozzles for which the period during which ejection of the droplet is not performed exceeds a threshold time by a predetermined time or more, wherein the threshold time is a time required to perform the idle ejection operation including ejection of the droplet to the ejection receiver. 8. The liquid ejecting apparatus according to claim 6 , wherein the program instructions further cause the processor to: count an elapsed time from an instruction to start a coloring ejection operation by ejecting the droplet to the ejection target medium or from a previous idle ejection operation, and determine that the idle ejection operation is necessary for the nozzle array continuing the coloring ejection operation, in a case where the elapsed time exceeds a threshold time by a predetermined time or more, wherein the threshold time is a time required for performing the idle ejection operation including ejection of the droplet to the ejection receiver. 9. The liquid ejecting apparatus according to claim 7 , wherein the predetermined time is variable according to at least one of factors including a type of the droplet, a temperature, and an operation mode. 10. The liquid ejecting apparatus according to claim 1 , wherein the program instructions further cause the processor to: calculate a time during which all of the plurality of nozzles in the nozzle array in each of the plurality of ejection