Variable resistor

The invention claimed is: 1. A variable resistor, comprising: a first substrate having a first main surface; a resistor disposed on the first main surface; a first wiring pattern disposed on the first main surface and connected to the resistor; a spacer having an opening; a second substrate that: has second and third main surfaces, and is disposed on the first substrate via the spacer such that the second main surface is opposed to the first main surface; a connecting body that is: disposed on the second main surface such that the connecting body is disposed in the opening, and configured to electrically connect to the resistor by pushing of a pusher from the third main surface; and a second wiring pattern that is either: disposed on the first main surface and configured to be electrically connected to the connecting body by the pushing of the pusher; or disposed on the second main surface and connected to the connecting body, wherein in a plan view, the connecting body has a non-overlap region that does not overlap with the resistor, in a plan view, a pushing region in which the pusher can push is included in the non-overlap region, and a resistance value between the first wiring pattern and the second wiring pattern is changed based on a pushing position of the pusher, in a plan view, the connecting body partially overlaps with the resistor, in a plan view, the pushing region does not overlap with the resistor, and the connecting body contacts the resistor by the pushing of the pusher from the third main surface. 2. A variable resistor, comprising: a first substrate having a first main surface; a resistor disposed on the first main surface; a first wiring pattern disposed on the first main surface and connected to the resistor; a spacer having an opening; a second substrate that: has second and third main surfaces, and is disposed on the first substrate via the spacer such that the second main surface is opposed to the first main surface; a connecting body that is: disposed on the second main surface such that the connecting body is disposed in the opening, and configured to electrically connect to the resistor by pushing of a pusher from the third main surface; and a second wiring pattern that is either: disposed on the first main surface and configured to be electrically connected to the connecting body by the pushing of the pusher; or disposed on the second main surface and connected to the connecting body, wherein in a plan view, the connecting body has a non-overlap region that does not overlap with the resistor, in a plan view, a pushing region in which the pusher can push is included in the non-overlap region, a resistance value between the first wiring pattern and the second wiring pattern is changed based on a pushing position of the pusher, the variable resistor further comprises first comb tooth patterns disposed on the first main surface and connected to the resistor, in plan view, the first comb tooth patterns overlap with the pushing region, a material of which the resistor is made has an electrical resistivity higher than an electrical resistivity of a material of which the first comb tooth patterns are made, the second wiring pattern is disposed on the first main surface, the variable resistor further comprises second comb tooth patterns disposed on the first main surface and connected to the second wiring pattern, in a plan view, the second comb tooth patterns overlap with the pushing region, a material of which the resistor is made has an electrical resistivity higher than an electrical resistivity of a material of which the second comb tooth patterns are made, and the connecting body contacts the first comb tooth pattern and the second comb tooth pattern by the pushing of the pusher from the third main surface. 3. The variable resistor according to claim 2 , wherein the first comb tooth patterns and the second comb tooth patterns are arranged alternately and substantially at equal intervals along an extending direction of the connecting body in the pushing region, and a pushing portion of the pusher that contacts the third surface has a dimension larger than a pitch of the first comb tooth patterns adjacent to each other via the second comb tooth pattern in a direction in which the first and second comb tooth patterns are arranged. 4. A variable resistor, comprising: a first substrate having a first main surface; a resistor disposed on the first main surface; a first wiring pattern disposed on the first main surface and connected to the resistor; a spacer having an opening; a second substrate that: has second and third main surfaces, and is disposed on the first substrate via the spacer such that the second main surface is opposed to the first main surface; a connecting body that is: disposed on the second main surface such that the connecting body is disposed in the opening, and configured to electrically connect to the resistor by pushing of a pusher from the third main surface; and a second wiring pattern that is either: disposed on the first main surface and configured to be electrically connected to the connecting body by the pushing of the pusher; or disposed on the second main surface and connected to the connecting body, wherein in a plan view, the connecting body has a non-overlap region that does not overlap with the resistor, in a plan view, a pushing region in which the pusher can push is included in the non-overlap region, a resistance value between the first wiring pattern and the second wiring pattern is changed based on a pushing position of the pusher, the variable resistor further comprises first comb tooth patterns disposed on the first main surface and connected to the resistor, in plan view, the first comb tooth patterns overlap with the pushing region, a material of which the resistor is made has an electrical resistivity higher than an electrical resistivity of a material of which the first comb tooth patterns are made, the second wiring pattern is disposed on the first main surface, in plan view, the connecting body partially overlaps with the second wiring pattern, and the connecting body contacts the first comb tooth patterns and the second wiring pattern by the pushing of the pusher from the third main surface. 5. The variable resistor according to claim 4 , wherein the first comb tooth patterns are arranged substantially at equal intervals along an extending direction of the connecting body in the pushing region, and a pushing portion of the pusher that contacts the third surface has a dimension larger than a pitch of the first comb tooth patterns adjacent to each other in a direction in which the first comb tooth patterns are arranged. 6. A variable resistor, comprising: a first substrate having a first main surface; a resistor disposed on the first main surface; a first wiring pattern disposed on the first main surface and connected to the resistor; a spacer having an opening; a second substrate that: has second and third main surfaces, and is disposed on the first substrate via the spacer such that the second main surface is opposed to the first main surface; a connecting body that is: disposed on the second main surface such that the connecting body is disposed in the opening, and configured to electrically connect to the resistor by pushing of a pusher from the third main surface; and a second wiring pattern that is either: disposed on the first main surface and configured to be electrically connected to the connecting body by the pushing of the pusher; or disposed on the second main surface and connected to the connecting body, wherein in a plan view, the connecting body has a non-overlap region that d