Glass sheet processing apparatus and glass sheet producing method

The invention claimed is: 1. A glass sheet processing apparatus to process an edge surface of a glass sheet using a processing tool, comprising: a pressing force generation element configured to generate a pressing force that the processing tool exerts on the edge surface of the glass sheet; and a buffering element configured to buffer an impact force that the edge surface of the glass sheet exerts on the processing tool, wherein the buffering element buffers only a first force that the edge surface of the glass sheet exerts on the processing tool without buffering a second force that the processing tool exerts on the edge surface of the glass sheet. 2. The glass sheet processing apparatus of claim 1 , further comprising: a position control section configured to control the processing tool such that it is shifted in sequence among a standby position, a polishing position, and a retraction position, wherein the standby position is where the processing tool is on standby for contact with the edge surface of the glass sheet, the polishing position is where the processing tool is in contact with the edge surface of the glass sheet and is polishing the edge surface, and the retraction position is where the processing tool has been retracted in a direction to separate the processing tool from the edge surface of the glass sheet beyond the standby position. 3. The glass sheet processing apparatus of claim 1 , wherein the buffering element is a dashpot. 4. The glass sheet processing apparatus of claim 3 , wherein the dashpot includes water as a working fluid. 5. The glass sheet processing apparatus of claim 3 , wherein the dashpot includes a piston mechanism, and the piston mechanism has a non-return valve to be closed to an action of the impact force. 6. The glass sheet processing apparatus of claim 2 , comprising a rotary arm member and a support shaft member, wherein the processing tool is connected with the rotary arm member, and the rotary arm member is rotatably connected with the support shaft member, and the pressing force generation element generates the pressing force by applying a couple of forces to the rotary arm member. 7. The glass sheet processing apparatus of claim 6 , wherein the position control section includes: a cam member to be rotationally driven; and a cam follower to be driven by the rotation of the cam member, the rotary arm member operates in conjunction with the cam follower, the cam follower is displaced relative to the cam member to apply a couple of forces to the rotary arm member, and the processing tool is shifted to the standby position, the polishing position, or the retraction position in response to the application of the couple of forces to the rotary arm member. 8. The glass sheet processing apparatus of claim 7 , wherein the cam follower includes a first cam follower and a second cam follower configured to be movable while maintaining a predetermined gap therebetween, the cam member is a cylindrical end cam having, on one side, a first cam surface capable of being brought into contact with the first cam follower and, on the other side, a second cam surface capable of being brought into contact with the second cam follower, the processing tool is shifted in sequence among the standby position, the polishing position, and the retraction position by change in the position and state of contact between the first cam surface and the first cam follower, and the position and state of contact between the second cam surface and the second cam follower in conjunction with the rotation of the cam member, the rotary arm is in a locked state, in which it is non-rotatable, in the standby position and the retraction position, and the rotary arm is in a free state, in which it is rotatable, in the polishing position. 9. The glass sheet processing apparatus of claim 8 , wherein the processing tool is shifted to the standby position when the cam member is rotated by a first rotation phase, the processing tool is shifted to the polishing position when the cam member is rotated by a second rotation phase, the processing tool is shifted to the retraction position when the cam member is rotated by a third rotation phase, a width of the cam member with respect to a portion thereof that comes between the first cam follower and the second cam follower in the case of the first rotation phase and the third rotation phase is equal to the gap between the first cam follower and the second cam follower, the width of the cam member with respect to a portion thereof that comes between the first cam follower and the second cam follower in the case of the second rotation phase is smaller than the gap between the first cam follower and the second cam follower, the position of the first cam surface in the case of the third rotation phase is offset toward one side in an axial direction of the cam member by a predetermined distance from the position of the first cam surface in the case of the first rotation phase. 10. The glass sheet processing apparatus of claim 1 , comprising: a slide member and a slide rail member, wherein the processing tool is connected with the slide member, and the slide member is connected with the slide rail member in a linearly slidable manner, and the pressing force generation element generates the pressing force by pressing the slide member. 11. The glass sheet processing apparatus of claim 1 , wherein the buffering element includes a Scott Russel linkage mechanism configured to convert a direction in which the impact force acts from the horizontal direction into the vertical direction. 12. A glass sheet processing apparatus to process an edge surface of a glass sheet using a processing tool, comprising: a pressing force generation element configured to generate a pressing force that the processing tool exerts on the edge surface of the glass sheet; a position control section configured to control the processing tool such that it is shifted in sequence among a standby position, a polishing position, and a retraction position; a support shaft member; and a rotary arm member rotatably connected with the support shaft member, wherein the standby position is where the processing tool is on standby for contact with the edge surface of the glass sheet, the polishing position is where the processing tool is in contact with the edge surface of the glass sheet and is polishing the edge surface, the retraction position is where the processing tool has been retracted in a direction to separate the processing tool from the edge surface of the glass sheet beyond the standby position, the processing tool is connected with the rotary arm member, and the pressing force generation element generates the pressing force by applying a couple of forces to the rotary arm member. 13. A glass sheet producing method for producing a glass sheet having a processed edge surface by processing the edge surface of the glass sheet using a processing tool, comprising: generating a pressing force that the processing tool exerts on the edge surface of the glass sheet while buffering an impact force that the edge surface of the glass sheet exerts on the processing tool, wherein the buffering an impact force includes buffering only a first force that the edge surface of the glass sheet exerts on the processing tool without buffering a second force that the processing tool exerts on the edge surface of the glass sheet. 14. A glass sheet producing method for producing a glass sheet having a processed edge surface by processing the edge surface of the glass sheet using a processing tool, wher