Ultrasonic diagnostic device and ultrasonic image generation method

1 . An ultrasonic diagnostic device, comprising: a probe including a plurality of elements that are arranged; a transmission circuit that includes a plurality of pulse generators and transmits an ultrasonic beam from the plurality of elements of the probe by performing transmission focusing in a first direction; a reception signal processor that generates element data by processing reception signals output from the plurality of elements of the probe that has received an ultrasonic echo generated by the ultrasonic beam transmitted from the plurality of elements of the probe; a central processing unit (CPU); and an operation program causing the CPU to generate simulation data indicating a reflected wave generated from the first direction by simulation, to take a difference between intensities of the element data by the plurality of elements generated by the reception signal processor and the simulation data to generate reflection component removal data by removing a reflection component generated from the first direction from the element data by the plurality of elements; and to perform reception focusing in a second direction different from the first direction for the reflection component removal data to generate an image signal along the second direction. 2 . The ultrasonic diagnostic device according to claim 1 , wherein, when taking the difference between the intensities of the element data by the plurality of elements generated by the reception signal processor and the simulation data, the CPU takes the difference after giving weighting to either the element data by the plurality of elements or the simulation data or both the element data by the plurality of elements and the simulation data. 3 . The ultrasonic diagnostic device according to claim 1 , wherein the CPU generates an image signal for tissue imaging along the first direction by performing reception focusing in the first direction for the element data and an image signal for needle imaging along the second direction by performing the reception focusing in the second direction for the reflection component removal data. 4 . The ultrasonic diagnostic device according to claim 3 , wherein the CPU combines the image signal for tissue imaging and the image signal for needle imaging to generate the image signal along the second direction. 5 . The ultrasonic diagnostic device according to claim 4 , further comprising: a display that displays an ultrasonic image based on the image signal for tissue imaging and the image signal for needle imaging obtained by the CPU. 6 . The ultrasonic diagnostic device according to claim 2 , wherein the CPU generates an image signal for tissue imaging along the first direction by performing reception focusing in the first direction for the element data and an image signal for needle imaging along the second direction by performing the reception focusing in the second direction for the reflection component removal data. 7 . The ultrasonic diagnostic device according to claim 6 , wherein the CPU combines the image signal for tissue imaging and the image signal for needle imaging to generate the image signal along the second direction. 8 . The ultrasonic diagnostic device according to claim 7 , further comprising: a display that displays an ultrasonic image based on the image signal for tissue imaging and the image signal for needle imaging obtained by the CPU. 9 . An ultrasonic image generation method, comprising: transmitting an ultrasonic beam from a plurality of elements of a probe by performing transmission focusing in a first direction; generating element data by processing reception signals output from the plurality of elements of the probe that has received an ultrasonic echo generated by the ultrasonic beam transmitted from the plurality of elements of the probe; generating simulation data indicating a reflected wave generated from the first direction by simulation; taking a difference between intensities of the element data by the plurality of elements and the simulation data to generate reflection component removal data by removing a reflection component generated from the first direction from the element data by the plurality of elements; and performing reception focusing in a second direction different from the first direction for the reflection component removal data to generate an image signal along the second direction.