Document:

Unassociated Document

Exhibit 4.8.62 -Self-Control Components - Two-Way Valve-VVI  
 

 

	
SIEMENS

	
4362

 

 

	

	
Two-Way/Three-Way Seat Valve    VVI41...

 

Internal Thread Connection, PN16  VXI41...

 

	
 

	
l

	
Valve body: bronze CCC491K (Rg5)

	
 

	
l

	
Nominal diameter: DN15...DN50

	
 

	
l

	
Flow rate: 2.5...40m3/h

	
 

	
l

	
Internal thread connection Rp... complies with ISO 7/1

	
 

	
l

	
Can be mounted with the SQX..., SKD...series of actuator.

	
Purpose

	  	  
	  	  	
Be applicable for heating, ventilating and air conditioning system as the control or safety shutoff valves that comply with DIN32730 Standard. Be applicable for closed water system.

	
Media

	  	
Standard edition:

	  
	  	  	
Chilled water

	  
	  	  	
Cooling water

	  
	  	  	
Low temperature hot water

	  
	  	  	
High temperature hot water

	
-25...+140oC

	  	  	
Anti-freezing water 1)

	  
	  	  	
Saturated steam (the maximum 1.5 bar absolute pressure)

	  
	  	  	
Brine 1)

	  

	  	
1)

	
When the media temperature is lower than 0oC, SZ6.5 valve handle heating element is needed to prevent the valve handle within sealing gland from freezing. Anti-freezing water and brine: the minimum temperature -25oC complies with DIN 3158 Standard (pressure vessel I).

 

	
Siemens Building Technologies

	  	
Internal thread connection, PN16

	  	
CA1N4362cn

	
HVAC Products

	
  

	
Only applicable in Asian-Pacific Region

	
  

	
28.06. 2004

 

  

  

  

 

	
Model overview

 

	
Model

Two-way 

valve

	
Model

Three-way 

valve

	
DN

(mm)

	
kVS

[m3/h]

	
Sv

	
VVI41.15-2.5

	
VXI41.15-2.5

	
15

	
2.5

	
>50

	
VVI41.15-4

	
VXI41.15-4

	
15

	
4.0

	
VVI41.20-6.3

	
VXI41.20-6.3

	
20

	
6.3

	
>100

	
VVI41.25-10

	
VXI41.25-10

	
25

	
10

	
VVI41.32-16

	
VXI41.32-16

	
32

	
16

	
VVI41.40-25

	
VXI41.40-25

	
40

	
25

	
VVI41.50-40

	
VXI41.50-40

	
50

	
40

 

	  	
DN=

	
nominal diameter

	  	
kVS = 

	
Rated flow. It is defined the cubic meters of the valve that 5...30oC water flows by per hour, when the valve is fully open and the differential pressure of valve is 100Kpa before and after

	  	
Sv  =

	
Rangeability kvs/kvr. Comply with VDI 2173 Standard

	  	
kVr =

	
Minimum flow rate that still maintains the regulation characteristics when the differential pressure is 100kPa (1 bar)

	
Accessories

	  	
Electronic valve handle heating element, AC 24V; when the medium temperature is lower than 0oC, select: ASZ6.5

	  	  	  
	
Order

	  	
Please describe the quantity, product name and model when ordering. SQX... and SKD... series of actuator must be ordered separately. For example, six three-way valves, VXI41.25-10

	 	 	 
	Transportation	 	The valve and actuator are packaged and supplied separately.

	
Combining equipment

 

	
Valve

	
SQX...

	
SKD...

	
△Pmax

[kPa]

	
△Pmax1)

[kPa]

	
△Ps2)

[kPa]

	
△Pmax.

[kPa]

	
△Pmax1)

[kPa]

	
△Ps2)

[kPa]

	
VVI41.15-2.5

	
VXI41.15-2.5

	
400

	
100

	
1600

	
400

	
100

	
1600

	
VVI41.15-4

	
VXI41.15-4

	
VVI41.20-6.3

	
VXI41.20-6.3

	
VVI41.25-10

	
VXI41.25-10

	
1550

	
VVI41.32-16

	
VXI41.32-16

	
875

	
1275

	
VVI41.40-25

	
VXI41.40-25

	
525

	
775

	
VVI41.50-40

	
VXI41.50-40

	
300

	
300

	
450

	
Technical data

	
4554

	
4561, 4563

 

	
Siemens Building Technologies

	  	
Internal thread connection, PN16

	  	
CA1N4362cn

	
HVAC Products

	
  

	
Only applicable in Asian-Pacific Region

	
  

	
28.06. 2004

 

  

  

  

 

	  	
1)

	
When diverting three-way valve, it is suggested △Pmax be 100kPa. If the noise is omitted, △Pmax shall be identical with that of flow collecting.

	 	 	 
	  	
2)

	
Only be valid for two-way valve.

	  	
△Pmax = 

	
maximum allowable differential pressure between both ends of valve, when the actuator can maintain normal operation within the whole stroke

	  	
△Ps  =  

	
maximum allowable differential pressure (shut-off pressure) between both ends of valve, on the premise of ensuring the actuator can be closed safely

Actuator overview

	
Actuator

	
Model

	
Operating 

voltage

	
Control 

signal

	
Spring 

return 

function

	
Positioning 

time

	
Driving 

force

	
SQX32.00

	
Electrical

	
AC 230V

	
3-position

	
None

	
150 s

	
700N

	
SQX32.03

	
35 s

	
SQX82.00

	
AC 24V

	
150 s

	
SQX82.03

	
35 s

	
SQX62

	
DC

0...10V1)

	
35 s

	
SKD32.50

	
Hydraulic

	
AC 230V

	
3-position

	
None

	
120 s

	
1000N

	
SKD32.21

	
Yes

	
30 s

	
SKD32.51

	
Yes

	
120 s

	
SKD82.50

	
AC 24V

	
None

	
120 s

	
SKD82.51

	
Yes

	
120 s

	
SKD60

	
DC

0...10V1)

	
None

	
30 s

	
SKD62

	
Yes

	
30

 

	
Siemens Building Technologies

	  	
Internal thread connection, PN16

	  	
CA1N4362cn

	
HVAC Products

	
  

	
Only applicable in Asian-Pacific Region

	
  

	
28.06. 2004

 

  

  

  

 

	  	
1) Or DC 4...20mA/0...1000Ω 

	
Pneumatic actuator  

	
The pneumatic actuator can be ordered from the local office, if required.

	  	

	
When assembling the pneumatic actuator, VXI41... three-way valve can only be used as flow collecting valve.

	
Model selection

	
Flow rate graph

	
Siemens Building Technologies

	  	
Internal thread connection, PN16

	  	
CA1N4362cn

	
HVAC Products

	
  

	
Only applicable in Asian-Pacific Region

	
  

	
28.06. 2004

 

  

  

  

 

	
△Pvmax.  

	= 	
ifferential pressure of valve before and after the valve is fully open

	  	 	  
	
V100    

	=	
low rate when the valve is fully open (H100)

	  	 	  
	
100 kPa  

	=	
 bar ≈10 mWG

	  	 	  
	
1 m3/h  

	=	
.278 l/s when the water temperature is 20oC.

	
Valve flow characteristics

Working pressure and temperature

The wording pressure range complies with ISO 7268 and EN 1333 Standards.

 

The working temperature range (-25...+140oC) complies with DIN 4747 and DIN 3158 Standards.

	
Siemens Building Technologies

	  	
Internal thread connection, PN16

	  	
CA1N4362cn

	
HVAC Products

	
  

	
Only applicable in Asian-Pacific Region

	
  

	
28.06. 2004

 

  

  

  

 

	
Mechanical design

	
Siemens Building Technologies

	  	
Internal thread connection, PN16

	  	
CA1N4362cn

	
HVAC Products

	
  

	
Only applicable in Asian-Pacific Region

	
  

	
28.06. 2004

 

  

  

  

 

         VVI41...                             Flow collecting                  VXI41                 Diverting

	

	 	
The two-way valve cannot be used as three-way valve by disassembling the blank flange at the bottom of valve.

	
Notices

	 	  
	  	 	  
	
Engineering

	 	
It is suggested that the valve be mounted on the return water pipe, because in the heating system the temperature of return water pipe is relatively low. In this way, the service life of valve spool seal can be extended.

	  	 	
The water quality shall comply with VDI 2035 Standard.

	

	 	
It is suggested the filter be mounted in front of valve to increase the safety function of valve.

	  	 	  
	

	 	
When the medium temperature is lower than 0oC, select ASZ6.5 electronic valve handle heating element to prevent the valve spool within the sealing gland from freezing. For the sake of safety, the operating voltage of this heating element is designed AC 24V, and its power is 30 W.

	  	 	
VXI41... three-way valve is preferred as flow collecting valve.

	
Mounting

	 	
The valve and actuator can be assembled in the mounting position simply, without special tools and adjustment.

	  	 	
Instruction for Mounting shall be attached with when the valve is delivered. Its number is 74 319 0423 0.

 

	
Mounting position

  

	
Siemens Building Technologies

	  	
Internal thread connection, PN16

	  	
CA1N4362cn

	
HVAC Products

	
  

	
Only applicable in Asian-Pacific Region

	
  

	
28.06. 2004

 

  

  

  

   

	
Flow direction of media

	
During the mounting, pay attention to the mark of water current direction on the valve:

	  	
Two-way

	
three-way mixing

	
three-way diverting

	  	  	  	  
	  	

	

	

 

	
Debugging

	

	
Debug the valve only after the actuator has been mounted correctly.

	  	

	

	  

	  	
Valve handle contracts: flow increases, the pass valve open, bypass valve closed

	  	
Valve handle extends: flow decreases, the pass valve closed, bypass valve open

	
Repair

	

	
When repairing the actuator, comply with the following sequences: first turn off the water pump and cut off the water pump power source; close the stop valve, drain the water within the water pipe in order to reduce the pressure within water pipe, and cool the hot water pipe naturally. Remove the electrical wiring from connection terminal. Before re-debugging the valve, mount the actuator properly.

	  	  	  
	  	  	
When the water pipe has de-pressurized and cooled fully, and the valve handle surface is in good condition, it is allowed to replace the seal of valve handle directly, without removing the valve body. If the valve handle has been damaged, replace the whole valve handle-valve plug assembly. Please contact the local office or branch of Siemens Building Technologies.

	
Accessories

	  	  
	
Standard model

	

	
Used to replace EPDM-O ring, including copper surface seal, and used for -25...+140oC cooling water, chilled water, low temperature hot water, high temperature hot water, saturated steam and brine.

Applicable to VVI41...and VXI41... DN15...DN50 (diameter of valve handle 10 mm)   4 284 8874 0

	
Siemens Building Technologies

	  	
Internal thread connection, PN16

	  	
CA1N4362cn

	
HVAC Products

	
  

	
Only applicable in Asian-Pacific Region

	
  

	
28.06. 2004

 

  

  

  

 

	
Disposal

	  

 

	

	
Before discarding, the valve must be split into various parts in terms of material type.

Comply with all local and industrial environmental protection regulations.

	
Guarantee

	  
	  	
The technical data of valve are only applicable to the corresponding actuators included in the “Equipment combination”.

	  	
The valves shall not be guaranteed if the actuator is manufactured the third manufacturer.

	
Technical data

	  

	
Operating data

	
PN (pressure) grade

	
PN16

	  	
Valve flow characteristics

	  
	  	
Pass

	  
	  	
0...30%

	
linear

	  	
30...100%

	
ngl=3, comply with VDI / VDE 2173 Standard

	  	
Bypass (VXI41)

	  
	  	
0...100%

	
linear

	  	
Leakage rate

	
comply with DIN EN 1349 Standard

	  	
Pass

	
kvs 0...0.02%

	  	
Bypass (VXI41...)

	
kvs 0.5...2%

	  	
Allowable media

	
Cooling water, chilled water, low temperature hot water and anti-freezing water

	  	  	
Suggestion: the water shall be disposed and reach VDI 2035 Standard

	  	  	  
	 	 	 
	  	
Media temperature

	
-25...+140oC

	 	 	 
	  	
Rangeability Sv

	
>50 (DN15), > 100 (DN≥20)

	 	 	 
	  	
Allowable working pressure

	
1600kPa (16 bar), ISO 7268 / EN 1333

	 	 	 
	  	
Stroke

	
20mm

	
Material

	
Valve body

	
Bronze CC491K (Rg5)

	  	
Valve spool

	
Brass

	
Siemens Building Technologies

	  	
Internal thread connection, PN16

	  	
CA1N4362cn

	
HVAC Products

	
  

	
Only applicable in Asian-Pacific Region

	
  

	
28.06. 2004

 

  

  

  

 

	  	
Valve handle

	
Stainless steel

	  	
Seal ring

	
Brass

	  	
Seal material

	
EPDM-O ring

	Dimension/weight	
Dimension

	
See the Dimension (form)

	  	
Internal thread connection

	
Rp...comply with ISO 7/1 Standard

	  	
Weight

	
See the Dimension (form)

	  	
Sv    =

	
Rangeability kvs/kvr. Comply with VDI 2173 Standard

	  	
kVS =  

	
Rated flow. It is defined the cubic meters of the valve that 5...30oC water flows by per hour, when the valve is fully open and the differential pressure of valve is 100Kpa before and after

	  	
kVr =

	
Minimum flow rate that still maintains the regulation characteristics when the differential pressure is 100kPa (1 bar)

	
Dimension

 

	
Siemens Building Technologies

	  	
Internal thread connection, PN16

	  	
CA1N4362cn

	
HVAC Products

	
  

	
Only applicable in Asian-Pacific Region

	
  

	
28.06. 2004

 

  

  

  

 

 

	
Siemens Building Technologies

	  	
Internal thread connection, PN16

	  	
CA1N4362cn

	
HVAC Products

	
  

	
Only applicable in Asian-Pacific Region

	
  

	
28.06. 2004Unassociated Document

Exhibit 4.8.63 -Design Drawings - AC System Control Points

 

 

Air Conditioning System Control Points

 

	
Project Name:

	
Shenyang Sunshine

	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  
	  	  	  	
Analog Input (AI)

	
Digital Input (DI)

	
Analog Output (AO)

	
Digital Output (DO)

	
TOTAL

	
Air Conditioning Control System

	
Quantity of Equipment

	
Description of Equipment

	
Temperature of Fresh Air

	
Humidity of Fresh Air

	
Temperature of Air Supply

	
Humidity of Air Supply

	
Pressure of Air Supply

	
Pressure of Fresh Air

	
Differential Pressure between Water Supply and Backwater

	
Indoor Humiture

	
Indoor Static Pressure

	
Primary Screen

	
Median Effect Screen

	
High Efficiency Screen

	
Running State

	
Fault Alarm

	
Manual/Auto

	
Differential Pressure between Fans

	
Liquid Level of Water Tank

	
Electric Cold Water Valve

	
Output of Frequency Converter

	
Electric Heating Valve

	
Electric Humidifying Valve

	
Electric Fresh Air Valve

	
Differential Pressure By-Pass Valve

	
Start/Stop of Air Conditioning Box

	
Electric Heating Valve

	
Electric Cooling Valve

	
Water Supplement Solenoid Valve

	  	
AI

	
DI

	
AO

	
DO

	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  
	
K1X

	
1

	
MAU

	
1

	
1

	
1

	
1

	
1

	  	  	  	  	
1

	
1

	  	
1

	
1

	
1

	
1

	  	
1

	
1

	  	  	  	  	
1

	
2

	  	  	  	
5

	
6

	
2

	
3

	
K11

	
1

	
RCU

	  	  	
1

	
1

	
1

	
1

	  	  	  	  	  	
1

	
1

	
1

	
1

	
1

	  	
1

	
1

	
1

	
1

	
1

	  	
1

	  	  	  	  	
4

	
5

	
5

	
1

	
K12

	
1

	
RCU

	  	  	
1

	
1

	
1

	
1

	  	  	  	  	  	
1

	
1

	
1

	
1

	
1

	  	
1

	
1

	
1

	
1

	
1

	  	
1

	  	  	  	  	
4

	
5

	
5

	
1

	
K13

	
1

	
RCU

	  	  	
1

	
1

	
1

	
1

	  	  	  	  	  	
1

	
1

	
1

	
1

	
1

	  	
1

	
1

	
1

	
1

	
1

	  	
1

	  	  	  	  	
4

	
5

	
5

	
1

	
K14

	
1

	
RCU

	  	  	
1

	
1

	
1

	
1

	  	  	  	  	  	
1

	
1

	
1

	
1

	
1

	  	
1

	
1

	
1

	
1

	
1

	  	
1

	  	  	  	  	
4

	
5

	
5

	
1

	
K15

	
1

	
AHU

	
1

	
1

	
1

	
1

	
1

	  	  	  	  	
1

	
1

	
1

	
1

	
1

	
1

	
1

	  	
1

	
1

	
1

	
1

	  	  	
1

	
2

	
2

	  	  	
5

	
7

	
4

	
5

	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  
	
K2X-1

	
1

	
MAU

	
1

	
1

	
1

	
1

	
1

	  	  	  	  	
1

	
1

	  	
1

	
1

	
1

	
1

	  	
1

	
1

	
1

	
1

	
1

	  	
1

	
2

	  	  	  	
5

	
6

	
5

	
3

	
K21

	
1

	
RCU

	  	  	
1

	
1

	
1

	
1

	  	  	  	  	  	
1

	
1

	
1

	
1

	
1

	  	
1

	
1

	
1

	
1

	
1

	  	
1

	  	  	  	  	
4

	
5

	
5

	
1

	
K22

	
1

	
RCU

	  	  	
1

	
1

	
1

	
1

	  	  	  	  	  	
1

	
1

	
1

	
1

	
1

	  	
1

	
1

	
1

	
1

	
1

	  	
1

	  	  	  	  	
4

	
5

	
5

	
1

	
K23

	
1

	
RCU

	  	  	
1

	
1

	
1

	
1

	  	  	  	  	  	
1

	
1

	
1

	
1

	
1

	  	
1

	
1

	
1

	
1

	
1

	  	
1

	  	  	  	  	
4

	
5

	
5

	
1

	
K2X-2

	
1

	
MAU

	
1

	
1

	
1

	
1

	
1

	  	  	  	  	
1

	
1

	  	
1

	
1

	
1

	
1

	  	  	
1

	
1

	  	  	  	
1

	
2

	
2

	  	  	
5

	
6

	
2

	
5

	
K24

	
1

	
RCU

	  	  	
1

	
1

	
1

	
1

	  	  	  	  	  	
1

	
1

	
1

	
1

	
1

	  	
1

	
1

	
1

	  	  	  	
1

	  	  	  	  	
4

	
5

	
3

	
1

	
K25

	
1

	
RCU

	  	  	
1

	
1

	
1

	
1

	  	  	  	  	  	
1

	
1

	
1

	
1

	
1

	  	
1

	
1

	
1

	  	  	  	
1

	  	  	  	  	
4

	
5

	
3

	
1

	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  
	
K3X

	
1

	
MAU

	
1

	
1

	
1

	
1

	
1

	  	  	  	  	
1

	
1

	  	
1

	
1

	
1

	
1

	  	
1

	
1

	  	  	  	  	
1

	
2

	  	  	  	
5

	
6

	
2

	
3

	
K31

	
1

	
RCU

	  	  	
1

	
1

	
1

	
1

	  	  	  	  	  	
1

	
1

	
1

	
1

	
1

	  	
1

	
1

	
1

	
1

	
1

	  	
1

	  	  	  	  	
4

	
5

	
5

	
1

	
K32

	
1

	
RCU

	  	  	
1

	
1

	
1

	
1

	  	  	  	  	  	
1

	
1

	
1

	
1

	
1

	  	
1

	
1

	
1

	
1

	
1

	  	
1

	  	  	  	  	
4

	
5

	
5

	
1

	
K33

	
1

	
RCU

	  	  	
1

	
1

	
1

	
1

	  	  	  	  	  	
1

	
1

	
1

	
1

	
1

	  	
1

	
1

	
1

	
1

	
1

	  	
1

	  	  	  	  	
4

	
5

	
5

	
1

	
K34

	
1

	
RCU

	  	  	
1

	
1

	
1

	
1

	  	  	  	  	  	
1

	
1

	
1

	
1

	
1

	  	
1

	
1

	
1

	
1

	
1

	  	
1

	  	  	  	  	
4

	
5

	
5

	
1

	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  
	
K41

	
1

	
AHU

	
1

	
1

	
1

	
1

	
1

	  	  	  	  	
1

	
1

	
1

	
1

	
1

	
1

	
1

	  	
1

	
1

	
1

	
1

	  	  	
1

	
2

	  	  	  	
5

	
7

	
4

	
3

	
K51

	
1

	
AHU

	
1

	
1

	
1

	
1

	
1

	  	  	  	  	
1

	
1

	
1

	
1

	
1

	
1

	
1

	  	
1

	
1

	
1

	
1

	  	  	
1

	
2

	  	  	  	
5

	
7

	
4

	
3

	
K52

	
1

	
AHU

	
1

	
1

	
1

	
1

	
1

	  	  	  	  	
1

	
1

	  	
1

	
1

	
1

	
1

	  	
1

	
1

	
1

	
1

	  	  	
1

	
2

	  	  	  	
5

	
6

	
4

	
3

	
K61

	
1

	
AHU

	
1

	
1

	
1

	
1

	
1

	  	  	  	  	
1

	
1

	
1

	
1

	
1

	
1

	
1

	  	
1

	
1

	
1

	
1

	  	  	
1

	
2

	  	  	  	
5

	
7

	
4

	
3

	
K62

	
1

	
AHU

	
1

	
1

	
1

	
1

	
1

	  	  	  	  	
1

	
1

	  	
1

	
1

	
1

	
1

	  	
1

	
1

	
1

	
1

	  	  	
1

	
2

	  	  	  	
5

	
6

	
4

	
3

	
K71

	
1

	
AHU

	
1

	
1

	
1

	
1

	
1

	  	  	  	  	
1

	
1

	
1

	
1

	
1

	
1

	
1

	  	
1

	
1

	
1

	
1

	  	  	
1

	
2

	  	  	  	
5

	
7

	
4

	
3

	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  
	
L1

	
1

	
Chilled Water

	  	  	  	  	  	  	
1

	  	  	  	  	  	  	  	  	  	
2

	  	  	  	  	  	
1

	  	  	  	
2

	  	
1

	
2

	
1

	
2

	
L2

	
1

	
Chilled Water

	  	  	  	  	  	  	
1

	  	  	  	  	  	  	  	  	  	
2

	  	  	  	  	  	
1

	  	  	  	
2

	  	
1

	
2

	
1

	
2

	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  
	
Humiture Monitor1

	
1

	  	  	  	  	  	  	  	  	
26

	
13

	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	
39

	
0

	
0

	
0

	
Humiture Monitor2

	
1

	  	  	  	  	  	  	  	  	
26

	
13

	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	
39

	
0

	
0

	
0

	
Humiture Monitor3

	
1

	  	  	  	  	  	  	  	  	
28

	
14

	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	
42

	
0

	
0

	
0

	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  
	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  	  
	
SUB TOTAL

	  	  	
11

	
11

	
24

	
24

	
24

	
13

	
2

	
80

	
40

	
11

	
11

	
18

	
24

	
24

	
24

	
24

	
4

	
23

	
24

	
22

	
19

	
12

	
2

	
24

	
22

	
4

	
4

	
0

	  	  	  	  
	
TOTAL

	  	  	
229

	
140

	
102

	
54

	
229

	
140

	
102

	
54

	
GRAND TOTAL

	  	  	
525

	
525

Source: [{"source": "alea-institute/alea-institute/kl3m-data-edgar-agreements/train-00195-of-00352.parquet"}, [{"source": "alea-institute/alea-institute/kl3m-data-edgar-agreements/train-00195-of-00352.parquet"}]]