Connector and connector assembly

What is claimed is: 1. A connector comprising: a first housing having a mating portion configured to mate with a second housing which is a housing of a second connector; a cam member having a cam groove configured to mate with a cam pin provided on the second housing, the cam member causing the second housing to mate with the first housing by sliding in a lateral direction intersecting with a direction of mating to draw the cam pin into the cam groove; an operation lever sliding the cam member according to a turning operation; and a nipping portion nipping the cam pin in the cam groove when the cam member slides up to a mating completion position at which mating of the second housing with the first housing is completed. 2. The connector of claim 1 , wherein a first terminal portion of the cam groove at which the cam pin is located when the cam member slides up to the mating completion position is formed so as to be narrower in width than a diameter of the cam pin, and the nipping portion nips the cam pin at the first terminal portion. 3. The connector of claim 2 , wherein the cam groove is only narrower in width than a diameter of the cam pin at the first terminal portion. 4. The connector of claim 1 , further comprising a plurality of spring members arranged so as to nip the cam pin at a first terminal portion of the cam groove at which the cam pin is located when the cam member slides up to the mating completion position, and the nipping portion nips the cam pin by the spring members at the first terminal portion. 5. The connector of claim 4 , wherein the cam groove has a plurality of spring arrangement portions at the first terminal portion of the cam groove, the spring arrangement portions widening the cam groove in a vertical direction. 6. The connector of claim 5 , wherein the spring members are arranged in the spring arrangement portions and are positioned opposite one another in the vertical direction about the first terminal portion of the cam groove. 7. The connector of claim 1 , wherein the first housing has a guide groove extending in the lateral direction and the cam member has a guide projection entering the guide groove for guiding sliding of the cam member in the lateral direction. 8. The connector of claim 1 , wherein the cam member has a guide groove extending in the lateral direction and the first housing has a guide projection entering the guide groove for guiding sliding of the cam member in the lateral direction. 9. A connector assembly comprising: a first connector mating with a second connector along a mating direction, the first connector including: a first housing having a mating portion configured to mate with a second housing of the second connector; a cam member having a cam groove configured to mate with a cam pin provided on the second housing, the cam member causing the second housing to mate with the first housing by sliding in a lateral direction intersecting with a direction of mating to draw the cam pin into the cam groove; an operation lever sliding the cam member according to a turning operation; and a nipping portion nipping the cam pin in the cam groove when the cam member slides up to a mating completion position at which mating of the second housing with the first housing is completed; and the second connector including the second housing and the cam pin provided on the second housing. 10. The connector assembly of claim 9 , wherein a first terminal portion of the cam groove at which the cam pin is located when the cam member slides up to the mating completion position is formed so as to be narrower in width than a diameter of the cam pin, and the nipping portion nips the cam pin at the first terminal portion. 11. The connector assembly of claim 10 , wherein the cam groove is only narrower in width than a diameter of the cam pin at the first terminal portion. 12. The connector assembly of claim 9 , further comprising a plurality of spring members arranged so as to nip the cam pin at a first terminal portion of the cam groove at which the cam pin is located when the cam member slides up to the mating completion position, and the nipping portion nips the cam pin by the spring members at the first terminal portion. 13. The connector assembly of claim 12 , wherein the cam groove has a plurality of spring arrangement portions at the first terminal portion of the cam groove, the spring arrangement portions widening the cam groove in a vertical direction. 14. The connector assembly of claim 13 , wherein the spring members are arranged in the spring arrangement portions and are positioned opposite one another in the vertical direction about the first terminal portion of the cam groove. 15. The connector assembly of claim 9 , wherein the first housing has a guide groove extending in the lateral direction and the cam member has a guide projection entering the guide groove for guiding sliding of the cam member in the lateral direction. 16. The connector assembly of claim 9 , wherein the cam member has a guide groove extending in the lateral direction and the first housing has a guide projection entering the guide groove for guiding sliding of the cam member in the lateral direction.