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          XBC-ZW one use one standby air pressure stabilized fire pump set
          XBC-ZW stabilized fire pump set is used for multi-story and high-rise building projects, fire hydrant water supply systems with pressurization requirements, and automatic sprinkler systems and other fire water supply systems
          product description:      
                  XBC-ZW is equipped with a stabilized fire-fighting pump set. The equipment is composed of diaphragm pressure tank, booster pump, electric control box, instrument and pipeline accessories, etc. It is suitable for fire hydrant water supply system and automatic sprinkler system of multi-story and high-rise building projects with booster requirements. Water supply system.
           
                The high working pressure of this equipment is 0.6mpa, 1.0mpa, 1.6 mpa, the fire water storage volume is greater than 150L, ??300L, 450L, and the stabilized water volume is greater than 50L. When used in the fire hydrant system, the flow rate per share of the water gun is 2.5L/S , 5L/S, the length of the full water column is 7M, 10M, 13M; when used in an automatic sprinkler system, the flow rate of each nozzle is 1.0L/S, and the nozzle pressure is 0.1MPA.
               
                This equipment can always maintain the fire pressure at the disadvantaged points of the fire water supply piping system, and use the 30-second fire-fighting water volume always stored in the air pressure water tank to ensure the fire-fighting spray water before the operation of the fire pump; the equipment uses the air pressure water tank to set Set the operating pressure to control the operating conditions of the water pump to achieve the function of boosting and stabilizing.
           
               P1 (MPa) unfavorable points always maintain the required pressure for fire fighting; P2 (MPa) fire pump start pressure; PS1 (MPa) stabilized pump start pressure; PS2 (MPa) stabilized pump stop pressure.
          product description:      
                  XBC-ZW has a stabilized fire-fighting pump set for one use and one backup. The equipment is composed of diaphragm pressure tank, booster pump, electric control box, instrument and pipeline accessories, etc. It is suitable for fire hydrant water supply system and automatic sprinkler system of multi-story and high-rise building projects with booster requirements. Water supply system.
           
                The high working pressure of this equipment is 0.6mpa, 1.0mpa, 1.6 mpa, the fire water storage volume is greater than 150L, ??300L, 450L, and the stabilized water volume is greater than 50L. When used in a fire hydrant system, the flow rate per share of the water gun is 2.5L/S , 5L/S, the length of the full water column is 7M, 10M, 13M; when used in an automatic sprinkler system, the flow rate of each nozzle is 1.0L/S, and the nozzle pressure is 0.1MPA.
               
                This equipment can always maintain the fire pressure at the disadvantaged points of the fire water supply piping system, and use the 30-second fire-fighting water volume always stored in the air pressure water tank to ensure the fire-fighting spray water before the operation of the fire pump; the equipment uses the air pressure water tank to set Set the operating pressure to control the operating conditions of the water pump to achieve the function of boosting and stabilizing.
           
               P1 (MPa) unfavorable points always maintain the required pressure for fire fighting; P2 (MPa) fire pump start pressure; PS1 (MPa) stabilized pump start pressure; PS2 (MPa) stabilized pump stop pressure.

                      性能参数表:

          序号
          增压稳压设备型号
          消防压力(Mpa)P1
          立式隔膜式气压罐
          配用水泵
          运行压力
          (Mpa)
          稳压水容积(L)
          型号规格
          工作压力比αb
          消防储水容积(L)
          型    号
          标定容积
          实际容积
          1
          ZW(L)-1-X-7
          0.10
          XQG800×0.6
          0.60
          300
          319
          25LG3-10×4
          N=1.5kw
          P1=0.10  PS1=0.26
          P1=0.23  PS2=0.31
          54
          2
          ZW(L)-1-Z-10
          0.16
          XQG800×0.6
          0.80
          150
          159
          25LG3-10×4
          N=1.5kw
          P1=0.16  PS1=0.26
          P1=0.23  PS2=0.36
          70
          3
          ZW(L)-1-X-10
          0.16
          XQG800×0.6
          0.60
          300
          319
          25LG3-10×5
          N=1.5kw
          P1=0.16  PS1=0.36
          P1=0.33  PS2=0.42
          52
          4
          ZW(L)-1-X-13
          0.22
          XQG1000×0.6
          0.76
          300
          329
          25LG3-10×4
          N=1.5kw
          P1=0.22  PS1=0.35
          P1=0.32  PS2=0.40
          97
          5
          ZW(L)-1-XZ-10
          0.16
          XQG1000×0.6
          0.65
          450
          480
          25LG3-10×4
          N=1.5kw
          P1=0.16  PS1=0.33
          P1=0.30  PS2=0.38
          86
          6
          ZW(L)-Ⅰ-XZ-13
          0.22
          XQG1000×0.6
          0.67
          450
          452
          25LG3-10×5
          N=1.5kw
          P1=0.22  PS1=0.41
          P1=0.38  PS2=0.46
          80
          7
          ZW(L)-Ⅱ-Z-
          A
          0.22 -0.38
          XQG800×0.6
          0.80
          150
          159
          25LG3-10×6
          N=2.2kw
          P1=0.38  PS1=0.53
          P1=0.50  PS2=0.60
          61
          8
          B
          0.38 -0.50
          XQG800×1.0
          0.80
          150
          159
          25LG3-10×8
          N=2.2kw
          P1=0.50  PS1=0.68
          P1=0.65  PS2=0.75
          51
          9
          C
          0.50 -0.65
          XQG1000×1.0
          0.85
          150
          206
          25LG3-10×9
          N=2.2kw
          P1=0.65  PS1=0.81
          P1=0.78  PS2=0.86
          59
          10
          D
          0.65 -0.85
          XQG1000×1.6
          0.85
          150
          206
          25LG3-10×11
          N=3.0kw
          P1=0.85  PS1=1.04
          P1=1.02  PS2=1.10
          57
          11
          E
          0.85 -1.0
          XQG1000×1.6
          0.85
          150
          206
          25LG3-10×13
          N=4.0kw
          P1=1.00  PS1=1.21
          P1=1.19  PS2=1.27
          50
          12
          ZW(L)-Ⅱ-X-
          A
          0.22-0.38
          XQG800×0.6
          0.78
          300
          302
          25LG3-10×6
          N=2.2kw
          P1=0.38  PS1=0.53
          P1=0.50  PS2=0.60
          72
          13
          B
          0.38-0.50
          XQG800×1.0
          0.78
          300
          302
          25LGW3-10×8
          N=2.2kw
          P1=0.50  PS1=0.68
          P1=0.65  PS2=0.75
          61
          14
          C
          0.50-0.65
          XQG1000×1.0
          0.78
          300
          302
          25LG3-10×10
          N=3.0kw
          P1=0.65  PS1=0.88
          P1=0.86  PS2=0.93
          51
          15
          D
          0.65-0.85
          XQG1200×1.6
          0.85
          300
          355
          25LG3-10×13
          N=4.0kw
          P1=0.85  PS1=1.05
          P1=1.02  PS2=1.10
          82
          16
          E
          0.85-1.0
          XQG1200×1.6
          0.85
          300
          355
          25LG3-10×15
          N=4.0kw
          P1=1.00  PS1=1.21
          P1=1.19  PS2=1.26
          73
          17
          ZW(L)-Ⅱ-XZ-
          A
          0.22-0.38
          XQG1200×0.6
          0.80
          450
          474
          25LG3-10×6
          N=2.2kw
          P1=0.38  PS1=0.53
          P1=0.50  PS2=0.60
          133
          18
          B
          0.38-0.50
          XQG1200×1.0
          0.80
          450
          474
          25LG3-10×8
          N=2.2kw
          P1=0.50  PS1=0.68
          P1=0.65  PS2=0.75
          110
          19
          C
          0.50-0.65
          XQG1200×1.0
          0.80
          450
          474
          25LG3-10×10
          N=3.0kw
          P1=0.65  PS1=0.81
          P1=0.78  PS2=0.86
          90
          20
          D
          0.65-0.85
          XQG1200×1.6
          0.80
          450
          474
          25LG3-10×12
          N=4.0kw
          P1=0.85  PS1=1.04
          P1=1.02  PS2=1.10
          73
          21
          E
          0.85-1.0
          XQG1200×1.6
          0.80
          450
          474
          25LG3-10×14
          N=4.0kw
          P1=1.00  PS1=1.21
          P1=1.19  PS2=1.27
          64

          序号
          增压稳压设备型号
          消防压力(Mpa)P1
          卧式隔膜式气压罐
          配用水泵
          运行压力
          (Mpa)
          稳压水容积(L)
          型号规格
          工作压力比αb
          消防储水容积(L)
          型    号
          标定容积
          实际容积
          1
          ZW(W)-Ⅰ-X-7
          0.10
          XQW1000×0.6
          0.75
          300
          390
          25LG3-10×3
          N=1.1KW
          P1=0.10  PS1=0.20
          P2=0.17  PS2=0.25
          148
          2
          ZW(W)-Ⅰ-Z-10
          0.16
          XQW1000×0.6
          0.80
          150
          312
          25LG3-10×3
          N=1.1KW
          P1=0.16  PS1=0.25
          P2=0.22  PS2=0, .30
           
          3
          ZW(W)-Ⅰ-X-10
          0.16
          XQW1000×0.6
          0.80
          300
          312
          25LG3-10×3
          N=1.1KW
          P1=0.16  PS1=0.25
          P2=0.22  PS2=0.30
          145
          4
          ZW(W)-Ⅰ-X-13
          0.22
          XQW1000×0.6
          0.80
          300
          312
          25LG3-10×4
          N=1.5KW
          P1=0.22  PS1=0.32
          P2=0.30  PS2=0.37
          126
          5
          ZW(W)-Ⅰ-XZ-10
          0.16
          XQW1000×0.6
          0.70
          450
          467
          25LG3-10×4
          N=1.5KW
          P1=0.16  PS1=0.30
          P2=0.27  PS2=0.35
          113
          6
          ZW(W)-Ⅰ-XZ-13
          0.22
          XQW1000×0.6
          0.70
          450
          452
          25LG3-10×5
          N=1.5KW
          P1=0.22  PS1=0.38
          P2=0.35  PS2=0.43
          98
          7
          ZW(W)-Ⅱ-Z-
          A
          0.22-0.38
          XQW800×0.6
          0.85
          150
          234
          25LG3-10×6
          N=2.2KW
          P1=0.38  PS1=0.49
          P2=0.46  PS2=0.54
          99
          8
          B
          0.38-0.50
          XQW800×1.0
          0.85
          150
          234
          25LG3-10×7
          N=2.2KW
          P1=0.50  PS1=0.63
           
          82
          9
          C
          0.50-0.65
          XQW1000×1.0
          0.85
          150
          234
          25LG3-10×9
          N=2.2KW
          P1=0.65  PS1=0.81
          P2=0.78  PS2=0.86
          67
          10
          D
          0.65-0.85
          XQW1000×1.6
          0.85
          150
          234
          25LG3-10×11
          N=3.0KW
          P1=0.85  PS1=1.05
          P2=1.02  PS2=1.10
          54
          11
          E
          0.85-1.00
          XQW1000×1.6
          0.85
          150
          234
          25LG3-10×13 N=4.0KW
          P1=1.00  PS1=1.21
          P2=1.19  PS2=1.27
          57
          12
          ZW(W)-Ⅱ-X-
          A
          0.22-0.38
          XQW1000×0.6
          0.80
          300
          312
          25LG3-10×6
          N=2.2KW
          P1=0.38  PS1=0.53
          P2=0.50  PS2=0.58
          87
          13
          B
          0.38-0.5
          XQW1000×1.0
          0.80
          300
          312
          25LG3-10×8
          N=2.2KW
          P1=0.50  PS1=0.68
          P2=0.65  PS2=0.73
          72
          14
          C
          0.50-0.65
          XQW1000×1.0
          0.80
          300
          312
          25LG3-10×10
          N=3.0KW
          P1=0.65  PS1=0.87
          P2=0.84  PS2=0.92
          59
          15
          D
          0.65-0.85
          XQW1000×1.6
          0.80
          300
          312
          25LG3-10×12
          N=4.0KW
          P1=0.85  PS1=1.12
          P2=1.09  PS2=1.18
          57
          16
          E
          0.85-1.00
          XQW1000×1.6
          0.80
          300
          312
          25LG3-10×14
          N=4.0KW
          P1=1.00  PS1=1.30
          P2=1.27  PS2=1.36
          50
          17
          ZW(W)-Ⅱ-XZ-
          A
          0.22-0.38
          XQW1200×0.6
          0.80
          450
          506
          25LG3-10×6
          N=2.2KW
          P1=0.38  PS1=0.53
          P2=0.50  PS2=0.58
          142
          18
          B
          0.38-0.5
          XQW1200×1.0
          0.80
          450
          506
          25LG3-10×8
          N=2.2KW
          P1=0.50  PS1=0.68
          P2=0.65  PS2=0.73
          117
          19
          C
          0.50-0.65
          XQW1200×1.0
          0.80
          450
          506
          25LG3-10×10
          N=3.0KW
          P1=0.65  PS1=0.87
          P2=0.84  PS2=0.92
          96
          20
          D
          0.65-0, .85
          XQW1200×1.6
           
          450
          506
          25LG3-10×12
          N=4.0KW
          P1=0.85  PS1=1.12
          P2=1.09  PS2=1.17
          78
          21
          E
          0.85-1.00
          XQW1200×1.6
          0.80
          450
          506
          25LG3-10×14
          N=4.0KW
          P1=1.00  PS1=1.30
          P2=1.27  PS2=1.35
          69


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