Patent Number: 
Section: claims

1. A control rod drive mechanism, comprisinga lifting-lowering assembly;a mounting assembly; anda release assembly;wherein the mounting assembly is configured to mount a control rod;the lifting-lowering assembly comprises a fixing component, a scissor-type lifting-lowering mechanism and a lifting-lowering component; an end of the scissor-type lifting-lowering mechanism close to the fixing component is connected to the fixing component, and an end of the scissor-type lifting-lowering mechanism away from the fixing component is connected to the lifting-lowering component; the scissor-type lifting-lowering mechanism is configured to drive the lifting-lowering component to move close to or away from the fixing component;the release assembly is movably arranged on the lifting-lowering component, and is detachably connected to the mounting assembly; and the release assembly is configured to move relative to the lifting-lowering component when power is off, so as to release the mounting assembly; andthe release assembly comprises a slidable main body, an electromagnet, a fixing base and a first elastic component; the slidable main body is in sliding fit with the lifting-lowering component; the mounting assembly is detachably connected to the slidable main body; the electromagnet and the fixing base are arranged on the lifting-lowering component; two ends of the first elastic component are respectively connected to the fixing base and the slidable main body; the electromagnet is configured to attract the slidable main body when power is on; and the first elastic component is configured to drive the slidable main body to move on the lifting-lowering component in a direction away from the electromagnet when power is off, so as to disconnect the slidable main body from the mounting assembly. 2. The control rod drive mechanism of claim 1, wherein the slidable main body comprises a support frame, a first support block, a second support block and an armature; the support frame is in sliding fit with the lifting-lowering component; the armature is arranged on an outer wall of an end of the support frame near the electromagnet; the first support block and the second support block are arranged spaced apart on an inner wall of an end of the support frame away from the electromagnet; and the mounting assembly is straddledly arranged between the first support block and the second support block. 3. The control rod drive mechanism of claim 1, wherein a side of the lifting-lowering component close to the fixing component is provided with a guide sliding groove; the slidable main body is in sliding fit with the guide sliding groove; the electromagnet and the fixing base are respectively arranged in the guide sliding groove; a bottom wall of the guide sliding groove is penetratedly provided with a release hole, and the mounting assembly penetrates through the release hole to be detachably connected to the slidable main body; and when the mounting assembly is disconnected from the slidable main body, the mounting assembly moves in a direction away from the slidable main body through the release hole. 4. The control rod drive mechanism of claim 1, wherein the mounting assembly comprises a mounting component and a straddling component; an end of the straddling component close to the mounting component is connected to a side of the mounting component; an end of the straddling component away from the mounting component is straddledly provided on the release assembly; and a side of the mounting component away from the straddling component is configured for arrangement of a plurality of control rods. 5. The control rod drive mechanism of claim 4, wherein the mounting assembly further comprises a second elastic component; an end of the second elastic component close to the mounting component is arranged on a side of the mounting component close to the release assembly; and an end of the second elastic component away from the mounting component abuts against a side of the lifting-lowering component away from the fixing component. 6. The control rod drive mechanism of claim 1, wherein the scissor-type lifting-lowering mechanism comprises a scissor-type bracket and a drive component; the drive component is arranged on the fixing component; two ends of the scissor-type bracket are respectively connected to the fixing component and the lifting-lowering component; and a movable side of an end of the scissor-type bracket connected to the fixing component is connected to an output end of the drive component, so as to slide on the fixing component under drive of the drive component. 7. The control rod drive mechanism of claim 6, wherein the scissor-type lifting-lowering mechanism further comprises a connecting rod; the scissor-type bracket comprises a plurality of scissor-type brackets; a movable side of an end of each of the plurality of scissor-type brackets connected to the fixing component is connected via the connecting rod; the output end of the drive component is connected to the connecting rod; and the connecting rod is configured to drive the movable side of the end of each of the plurality of scissor-type brackets to synchronously slide on the fixing component under drive of the drive component. 8. The control rod drive mechanism of claim 7, wherein a first slide rail is provided on the fixing component; a first pulley is provided on the movable side of the end of each of the plurality of scissor-type brackets connected to the fixing component; the first pulley is in sliding fit with the first slide rail; a second slide rail is provided on the lifting-lowering component; a second pulley is provided on a movable side of an end of each of the plurality of scissor-type brackets connected to the lifting-lowering component; the second pulley is in sliding fit with the second slide rail; and the second slide rail is parallel to the first slide rail. 9. A reactor control system, comprising the control rod drive mechanism of claim 1.