Energy-storage apparatus and electricity-consumption device

What is claimed is: 1. An energy-storage apparatus, comprising: a housing having an opening and defining an accommodating cavity; an electrode assembly accommodated in the accommodating cavity; and an end cover assembly sealing the opening, wherein the end cover assembly comprises a top cover and a lower plastic assembly, and the lower plastic assembly is disposed between the top cover and the electrode assembly; and the top cover comprises a first stimulus-response member, and the first stimulus-response member is configured to deform in response to a pressure increase in the energy-storage apparatus; the lower plastic assembly at least comprises a first-lower-plastic-member body, the first-lower-plastic-member body has a first surface facing the top cover and a second surface opposite to the first surface, the first-lower-plastic-member body defines a first recess and a first vent hole penetrating through the first surface and the second surface, and the first recess is recessed from the second surface to the first surface; and the first vent hole is defined in a recess bottom-wall of the first recess, and penetrates through the recess bottom-wall and the first surface in a thickness direction of the first-lower-plastic-member body, and the first vent hole is opposite to the first stimulus-response member in the thickness direction of the end cover assembly; a first connector connected between the end cover assembly and the electrode assembly, a part of the first recess being blocked by the first connector, the rest of the first recess exposed beyond the first connector forming a vent passage, and the vent passage being in communication with the first vent hole, wherein a first protective grid is disposed in the first recess, the first protective grid is connected to a recess sidewall of the first recess, and in a direction towards the second surface, the first protective grid is located above the first vent hole; the first protective grid defines a first vent portion, the first vent portion is in communication with the first recess, a part of the first vent portion is blocked by the first connector, and the vent passage comprises a part of the first vent portion exposed beyond the first connector; and a cross-sectional area of the vent passage is three-fifths to nine-tenths of a cross-sectional area of the first recess. 2. The energy-storage apparatus of claim 1 , wherein in a width direction of the first-lower-plastic-member body, a ratio of a dimension d 2 of the first recess to a dimension d 1 of the first connector is 1.01-1.4. 3. The energy-storage apparatus of claim 1 , wherein the vent passage is located at two opposite sides of the first connector in a width direction of the first-lower-plastic-member body, or the vent passage is located at a side of the first connector in the width direction of the first-lower-plastic-member body. 4. The energy-storage apparatus of claim 1 , wherein a cross-sectional area of the first vent hole is three-fifths to nine-tenths of a cross-sectional area of the first recess. 5. The energy-storage apparatus of claim 1 , wherein a wall surface of a part of a recess sidewall of the first recess facing the vent passage is an inclined surface, and the inclined surface is inclined from the second surface to the first vent hole; and the wall surface of the part of the recess sidewall of the first recess is inclined at an angle a of 5 degrees to 40 degrees. 6. The energy-storage apparatus of claim 1 , wherein the first vent portion of the first protective grid comprises a first vent slot and a second vent slot, and the first vent slot is spaced apart from the second vent slot in a width direction of the first-lower-plastic-member body; and a part of the first vent slot close to the recess sidewall of the first recess is exposed beyond the first connector and is in communication with the first recess; or a part of the second vent slot close to the recess sidewall of the first recess is exposed beyond the first connector and is in communication with the first recess. 7. The energy-storage apparatus of claim 1 , wherein the first vent portion of the first protective grid comprises a first vent slot and a second vent slot, and the first vent slot is spaced apart from the second vent slot in a width direction of the first-lower-plastic-member body; and a part of the first vent slot close to the recess sidewall of the first recess is exposed beyond the first connector, and a part of the second vent slot close to the recess sidewall of the first recess is exposed beyond the first connector. 8. The energy-storage apparatus of claim 6 , wherein the first protective grid comprises a first divider and a second divider, the first divider and the second divider both are connected to the recess sidewall of the first recess, the first divider and the second divider are disposed in an intersected manner and cooperatively define the first vent slot and the second vent slot, and the first vent slot is spaced apart from the second vent slot by the second divider. 9. The energy-storage apparatus of claim 8 , wherein in the width direction of the first-lower-plastic-member body, a sum of a dimension of the first vent slot, a dimension of the second vent slot, and a dimension of the second divider is greater than a width of the first connector. 10. The energy-storage apparatus of claim 1 , further comprising a second connector disposed opposite to the first connector; wherein the top cover further comprises a second stimulus-response member; the lower plastic assembly further comprises a second-lower-plastic-member body, the second-lower-plastic-member body has a third surface facing the top cover and a fourth surface opposite to the third surface, the second-lower-plastic-member body defines a second recess and a second vent hole, and the second recess is recessed from the fourth surface to the third surface; the second vent hole is defined in a recess bottom-wall of the second recess, and penetrates through the recess bottom-wall of the second recess and the third surface in a thickness direction of the second-lower-plastic-member body, and the second vent hole is opposite to the second stimulus-response member in the thickness direction of the end cover assembly; and the second connector is connected between the end cover assembly and the electrode assembly, a part of the second recess is blocked by the second connector, the rest of the second recess exposed beyond the second connector forms a vent passage, and the vent passage is in communication with the second vent hole. 11. The energy-storage apparatus of claim 10 , wherein in a width direction of the second-lower-plastic-member body, a ratio of a dimension d 4 of the second recess to a dimension d 3 of the second connector is 1.01-1.4. 12. The energy-storage apparatus of claim 10 , wherein the vent passage is located at two opposite sides of the second connector in a width direction of the second-lower-plastic-member body, or the vent passage is located at a side of the second connector in the width direction of the second-lower-plastic-member body. 13. The energy-storage apparatus of claim 10 , wherein a wall surface of a part of a recess sidewall of the second recess facing the vent passage is an inclined surface, and the inclined surface is inclined from the fourth surface to the second vent hole; and the wall surface of the part of the recess sidewall of the second recess is inclined at an angle b of 5 degrees to 40 degrees. 14. The energy-storage apparatus of claim 10 , wherein a second protective grid is disposed in the second recess, the second prot