Liquid-cooled cabinet manifold and liquid-cooled cabinet

What is claimed is: 1. A liquid-cooled cabinet manifold, for cooling a liquid-cooled cabinet, comprising a main inlet pipe and a main outlet pipe, which are arranged in parallel to and spaced apart from each other, the main inlet pipe having a main inlet port and a branch inlet port, the main outlet pipe having a main outlet port and a branch outlet port, the branch inlet port staggered from the branch outlet port along a direction of extension of the main inlet pipe, the branch inlet port and the branch outlet port forming an angle therebetween, the branch inlet port and the branch outlet port forming a pair which is connected to an object to be cooled in the liquid-cooled cabinet, wherein the liquid-cooled cabinet manifold further comprises a plurality of securing members which are spaced apart from one another, the securing members are configured to connect the main inlet pipe and the main outlet pipe so that the main inlet pipe and the main outlet pipe are parallel to and spaced apart from each other and pre-secured at a predetermined location of the liquid-cooled cabinet, and wherein each of the securing members comprises a pipe clamp and a locator, the pipe clamp is configured to secure the main inlet pipe and the main outlet pipe and enable an adjustment of the angle, the locator fits over the pipe clamp and is configured to pre-secure the main inlet pipe and the main outlet pipe at the predetermined location through the pipe clamp. 2. The liquid-cooled cabinet manifold of claim 1 , wherein in operation, a cooling liquid is introduced into the main inlet pipe from the main inlet port, flows through the branch inlet port and the object to be cooled into the main outlet pipe from the branch outlet port corresponding to the branch inlet port, and exits the main outlet port. 3. The liquid-cooled cabinet manifold of claim 1 , wherein in the direction of extension of the main inlet pipe, the adjacent branch inlet and outlet ports are spaced apart from each other. 4. The liquid-cooled cabinet manifold of claim 1 , wherein the angle ranges from 0° to 180°. 5. The liquid-cooled cabinet manifold of claim 1 , wherein a plurality of the branch inlet ports and a plurality of the branch outlet ports are provided, and a number of the branch inlet ports is equal to a number of the branch outlet ports and is greater than or equal to a number of the objects to be cooled. 6. The liquid-cooled cabinet manifold of claim 5 , wherein the branch inlet ports and the branch outlet ports are all provided with a quick-connect connector, the quick-connect connectors at the branch inlet ports are all provided with a first identifier, the quick-connect connectors at the branch outlet ports are all provided with a second identifier, the first identifiers and the second identifiers are configured to distinguish the branch inlet ports from the branch outlet ports. 7. The liquid-cooled cabinet manifold of claim 6 , wherein if the numbers of the branch inlet ports and the branch outlet ports are equal to the number of the objects to be cooled, the pairs of the branch inlet ports and the branch outlet ports are connected to the respective objects to be cooled by the quick-connect connectors; wherein if the numbers of the branch inlet ports and the branch outlet ports are greater than the number of the objects to be cooled, some pairs of the branch inlet ports and the branch outlet ports are connected to the respective objects to be cooled by the quick-connect connectors, and the quick-connect connectors at remaining pairs of the branch inlet ports and the branch outlet ports are covered with caps configured to close the branch inlet ports and the branch outlet ports. 8. The liquid-cooled cabinet manifold of claim 1 , wherein the pipe clamp is a dismantlable block defining two parallel through holes, through which the main inlet pipe and the main outlet pipe are respectively inserted, wherein the through holes each define in an inner wall thereof a plurality of grooves which are uniformly distributed circumferentially, and wherein the main inlet pipe and the main outlet pipe each define on an outer wall thereof limiting means each in engagement with a respective one of the grooves on the main inlet pipe or the main outlet pipe, so that the main inlet pipe and the main outlet pipe are prevented from rotating, and the branch inlet port and the branch outlet port are fixed at the predetermined angle. 9. The liquid-cooled cabinet manifold of claim 1 , wherein the main inlet pipe has one end and another end which are opposing each other, and the main outlet pipe has one end and another end which are opposing each other, wherein the one end of the main inlet pipe is arranged on a same side as the one end of the main outlet pipe, the main inlet pipe is oriented so that the one end thereof is located above the other end thereof, wherein the main inlet port and the main outlet port are staggered from each other in the direction of extension of the main inlet pipe so that the main inlet port is situated between the one end of the main inlet pipe and the branch inlet port and that the main outlet port is situated between the one end of the main outlet pipe and the branch outlet port. 10. The liquid-cooled cabinet manifold of claim 9 , further comprising two exhaust valves and two drain valves, the two exhaust valves provided respectively at the one end of the main inlet pipe and the one end of the main outlet pipe, the two drain valves provided respectively at the other end of the main inlet pipe and the other end of the main outlet pipe. 11. The liquid-cooled cabinet manifold of claim 1 , further comprising a header inlet pipe and a header outlet pipe, the header inlet pipe connected to the main inlet port so as to supply a cooling liquid to the main inlet pipe via the main inlet port, the header outlet pipe connected to the main outlet port so as to discharge the cooling liquid from the main outlet pipe via the main outlet port. 12. The liquid-cooled cabinet manifold of claim 1 , wherein the main inlet pipe and the main outlet pipe are both PVDF polymer pipes. 13. A liquid-cooled cabinet, comprising a cabinet body and the liquid-cooled cabinet manifold as defined in claim 1 , the liquid-cooled cabinet manifold secured in a rear cable management region of the cabinet body, the cabinet body has therein at least one object to be cooled, each having a set of supply port and return port which are spaced apart from each other along the direction of extension of the liquid-cooled cabinet manifold, each set of the supply port and the return port corresponding to a respective pair of the branch inlet port and the branch outlet port so that the branch inlet port is connected to the supply port and the branch outlet port is connected to the return port. 14. The liquid-cooled cabinet of claim 13 , wherein in operation, a cooling liquid flows into the supply port from the branch inlet port of the main inlet pipe, circulates to the branch outlet port from the return port, and exits the main outlet pipe. 15. The liquid-cooled cabinet of claim 13 , wherein the locators are arranged to be spaced apart from one another along the direction of extension of the liquid-cooled cabinet manifold on an inner wall of the cabinet body in the rear cable management region, and wherein the pipe clamps are fixed to the locators so that the main inlet pipe and the main outlet pipe are pre-secured to the locators by the pipe clamps. 16. The liquid-cooled cabinet of claim 15 , wherein each pair of the branch inlet port and the branch outlet port is staggered from each other in a 2 U space