Electromagnetic control device and gas valve having same

The invention claimed is: 1 . An electromagnetic control device, comprising a sealing head, a sleeve, a first regulating part and a second regulating part, wherein the sealing head is fixedly connected with the sleeve, a part of the sealing head is located inside the sleeve; the sealing head comprises a first internal threaded portion, and the first regulating part comprises a first external threaded portion, wherein the first internal threaded portion is in threaded engagement with the first external threaded portion; the first regulating part further comprises a second internal threaded portion, the second regulating part comprises a second external threaded portion, and the second internal threaded portion is in threaded engagement with the second external threaded portion; wherein the electromagnetic control device further comprises a damping part, wherein the damping part is arranged in a threaded connection structure between the first regulating part and the sealing head, the damping part is connected to one of the first regulating part and the sealing head, and an outer peripheral portion of the damping part abuts against one of the first internal threaded portion and the first external threaded portion; and/or the damping part is arranged in a threaded connection structure between the first regulating part and the second regulating part, wherein the damping part is connected to one of the first regulating part and the second regulating part, and the outer peripheral portion of the damping part abuts against one of the second internal threaded portion and the second external threaded portion. 2 . The electromagnetic control device according to claim 1 , wherein the damping part comprises a first damping portion, and at least a part of the first damping portion is located between an inner peripheral wall of the sealing head and an outer peripheral wall of the first regulating part; and the threaded connection structure between the first regulating part and the sealing head is configured to squeeze a part, between the inner peripheral wall of the sealing head and the outer peripheral wall of the first regulating part, of the first damping portion by rotation of the first regulating part, to form damping; and/or the damping part comprises a second damping portion, and at least a part of the second damping portion is located between an inner peripheral wall of the first regulating part and an outer peripheral wall of the second regulating part; and the threaded connection structure between the second regulating part and the first regulating part is configured to squeeze a part, between the inner peripheral wall of the first regulating part and the outer peripheral wall of the second regulating part, of the second damping portion by rotation of the second regulating part, to form damping. 3 . The electromagnetic control device according to claim 2 , wherein a set space for movement of the part, between the inner peripheral wall of the sealing head and the outer peripheral wall of the first regulating part, of the first damping portion is provided in a circumferential direction of the first regulating part, to prevent the threaded connection structure between the first regulating part and the sealing head from being stuck; and/or a set space for movement of the part, between the inner peripheral wall of the first regulating part and the outer peripheral wall of the second regulating part, of the second damping portion is provided in a circumferential direction of the second regulating part, to prevent the threaded connection structure between the first regulating part and the second regulating part from being stuck. 4 . The electromagnetic control device according to claim 3 , wherein the first regulating part comprises a tube body portion, the first external threaded portion in threaded engagement with the sealing head is provided on an outer peripheral wall of the tube body portion, and the outer peripheral wall of the tube body portion is provided with a groove portion; the damping part comprises at least one first main body member, the first main body member is arranged in the groove portion and is fixed to the tube body portion; the first main body member comprises at least one convex portion, and the convex portion at least partially protrudes from the outer peripheral wall of the tube body portion; and the first damping portion comprises the convex portion. 5 . The electromagnetic control device according to claim 4 , wherein the first main body member is of an arc-shaped structure, and the groove portion extends along a circumferential direction of the tube body portion; the first main body member is provided with at least one convex portion and at least one concave portion along a circumferential direction of the first main body member, wherein the convex portion and the concave portion are arranged adjacent to each other; the threaded connection structure between the sealing head and the first regulating part is configured to push each of the at least one convex portion to a corresponding one, adjacent to the convex portion, of the at least one concave portion by rotation of the first regulating part; and the first damping portion comprises the convex portion and the concave portion. 6 . The electromagnetic control device according to claim 5 , wherein a bottom of the groove portion of the tube body portion is provided with at least one hole portion extending through a bottom wall of the groove portion; and the damping part further comprises at least one boss, and the at least one boss is fixedly arranged on an inner wall of the first main body member and embedded in the hole portion. 7 . The electromagnetic control device according to claim 6 , wherein the hole portion is in a form of a through hole, the hole portion further extends through an inner peripheral wall of the tube body portion, the at least one boss protrudes from the inner peripheral wall of the tube body portion, the inner peripheral wall of the tube body portion is provided with internal threads in threaded engagement with the second regulating part; and the second damping portion comprises the at least one boss. 8 . The electromagnetic control device according to claim 7 , wherein a radian of the first main body member is less than 180 degrees, only one boss is fixedly arranged on the first main body member, and the boss is located at a middle position of the first main body member; or a radian of the first main body member is greater than 180 degrees, and at least two bosses are fixedly arranged on the first main body member, wherein two of the at least two bosses are arranged at two ends of the first main body member, respectively. 9 . The electromagnetic control device according to claim 6 , wherein a radian of the first main body member is less than 180 degrees, only one boss is fixedly arranged on the first main body member, and the boss is located at a middle position of the first main body member; or a radian of the first main body member is greater than 180 degrees, and at least two bosses are fixedly arranged on the first main body member, wherein two of the at least two bosses are arranged at two ends of the first main body member, respectively. 10 . The electromagnetic control device according to claim 5 , wherein the damping part further comprises at least one second main body member, and the second main body member is arranged separately from the first main body member; the inner peripheral wall of the first regulating part is provided with a first mounting cavity portion, and the second main body member is fixedly embedded in the first mounting cavity portion and protrudes from the inner peripheral wall of the first reg