Three-dimensional image element and optical radar device comprising an optical conversion unit to convert scanned pulse light into fan-like pulse light

The invention claimed is: 1. A three-dimensional image element comprising: a light receiving unit in which pixels each including an avalanche photodiode that detects light in a Geiger mode are arranged in a two-dimensional matrix pattern; a pixel storage element to which an electrical pulse is supplied from each of the pixels that constitute a column of the pixels; and a signal processing circuit that reads data accumulated by the pixel storage element and acquires, for each of the pixels, at least distance information indicating a distance to an object, wherein the pixel storage element has a plurality of binary counters that integrate the number of electrical pulses at mutually different timings, and the reading of the data by the signal processing circuit is able to be performed in parallel with the integration. 2. The three-dimensional image element according to claim 1 , wherein the number of columns of the pixels in the light receiving unit is larger than the number of rows of the pixels in the light receiving unit. 3. The three-dimensional image element according to claim 1 , wherein the light receiving unit, the pixel storage element, and the signal processing circuit are formed on a silicon substrate in a monolithic manner. 4. The three-dimensional image element according to claim 1 , wherein each of the pixels includes a plurality of avalanche photodiodes that detect light in a Geiger mode. 5. The three-dimensional image element according to claim 1 , wherein the number of bits of a digital signal processed by the signal processing circuit is equal to or more than a maximum number of output bits of each of the plurality of binary counters. 6. An optical radar device that includes the three-dimensional image element according to claim 1 , the optical radar device comprising: a pulse light illumination system that has a light emitting element that emits pulse light, an optical scanning unit that performs scanning with the pulse light in a direction parallel to a first plane, and an optical conversion unit that converts the pulse light into fan-like pulse light that is spread in a direction vertical to the first plane; and an imaging optical system that images and projects light, which is from at least a part of a region to which light is radiated from the pulse light illumination system, onto the light receiving unit of the three-dimensional image element through an optical band-pass filter. 7. The optical radar device according to claim 6 , wherein a spread angle of the fan-like pulse light in a fan plane is greater than an angle of the scanning. 8. The optical radar device according to claim 6 , wherein the first plane is a plane including a vertical line. 9. The optical radar device according to claim 6 , wherein a time width in which at least one of the binary counters of the three-dimensional image element integrates the number of electrical pulses is almost identical with a pulse width of the pulse light or shorter than the pulse width of the pulse light. 10. The optical radar device according to claim 6 , wherein at least one of the binary counters of the three-dimensional image element integrates the number of electrical pulses before light emission of the pulse light. 11. The optical radar device according to claim 6 , wherein the three-dimensional image element is able to output, in addition to the distance information, an intensity signal of reflection light obtained when radiation light from the pulse light illumination system is reflected by the object and an intensity signal of light that does not include the reflection light. 12. The optical radar device according to claim 6 , wherein the optical radar device has a function of storing order of the scanning, causing the optical scanning unit to perform scanning with the pulse light in accordance with the stored order, and synchronously performing reading on the pixels in a corresponding row. 13. An optical radar device comprising: a pulse light illumination system that has a light emitting element that emits pulse light, an optical scanning unit that performs scanning with the pulse light in a direction parallel to a first plane, and an optical conversion unit that converts the pulse light into fan-like pulse light that is spread in a direction vertical to the first plane; and an imaging optical system that images and projects light, which is from at least a part of a region to which light is radiated from the pulse light illumination system, onto a light receiving unit of a sensor, which measures at least a distance to an object, through an optical band-pass filter. 14. The optical radar device according to claim 13 , wherein a spread angle of the fan-like pulse light in a fan plane is greater than an angle of the scanning. 15. The optical radar device according to claim 13 , wherein the first plane is a plane including a vertical line. 16. The optical radar device according to claim 13 , wherein the sensor is able to output, in addition to the distance information, an intensity signal of reflection light obtained when radiation light from the pulse light illumination system is reflected by the object and an intensity signal of light that does not include the reflection light. 17. The optical radar device according to claim 13 , wherein the optical radar device has a function of storing order of the scanning, causing the optical scanning unit to perform scanning with the pulse light in accordance with the stored order. 18. The optical radar device according to claim 13 , wherein the optical radar device has a function to measure a distance of an object at a close distance firstly and then a whole object later. 19. The optical radar device according to claim 13 , wherein the optical radar device has a function to measure a distance of an object with reduced intensity of the pulse light firstly and then with higher intensity than the reduced intensity later. 20. The optical radar device according to claim 13 , wherein the sensor has a signal storage processing unite in addition to the light receiving unit, and the signal storage processing unite includes a plural of pixel storage elements, a buffer memory, a memory selection circuit and a signal processing circuit.