Apparatus and a method for testing water absorption of concrete in a direction parallel with a load applying direction

What is claimed is: 1. An apparatus for testing water absorption of concrete in a direction parallel with a load applying direction, comprising: a loading device, comprising an upper support plate and a lower support plate connected with the upper support plate via a plurality of threaded rods, and a space for placing a concrete specimen being formed between the upper support plate and the lower support plate, a top of each threaded rod being connected with a nut through a spring, a plurality of pressing columns being connected under the upper support plate; a water filling device, comprising a water filling cylinder sleeved outside the pressing columns, the water filling cylinder having a side connected with a water supply tank via an inlet pipe, and another side connected with a water storage tank via an outlet pipe; and a monitoring device, comprising a mass sensor arranged under the water storage tank and a strain gauge for detecting change of stress of the concrete specimen, the mass sensor configured for transmitting detected mass information of water flow inside the water storage tank to a computer to calculate the water absorption rate of the concrete specimen. 2. The apparatus for testing water absorption of concrete in the direction parallel with the load applying direction according to claim 1 , wherein the pressing columns are arranged at even intervals, each pressing column has a first end fixedly connected with the upper support plate, and a second end configured for pressing a water absorption surface of the concrete specimen. 3. The apparatus for testing water absorption of concrete in the direction parallel with the load applying direction according to claim 1 , wherein the pressing columns are divergently arranged in circular rings with a center of the upper support plate as a center. 4. The apparatus for testing water absorption of concrete in the direction parallel with the load applying direction according to claim 1 , wherein the water filling cylinder is a reducer, and a top of the water filling cylinder is fixedly connected with the upper support plate via an annular plate. 5. The apparatus for testing water absorption of concrete in the direction parallel with the load applying direction according to claim 1 , wherein the inlet pipe is equipped with a valve; a diameter of the inlet pipe is greater than a diameter of the outlet pipe. 6. The apparatus for testing water absorption of concrete in the direction parallel with the load applying direction according to claim 1 , wherein the water storage tank has a bottom surface inclined at a set angle. 7. The apparatus for testing water absorption of concrete in the direction parallel with the load applying direction according to claim 1 , wherein the inlet pipe is connected with a position close to a bottom of the water supply tank, and the water storage tank is connected with the outlet pipe via a hose. 8. The apparatus for testing water absorption of concrete in the direction parallel with the load applying direction according to claim 1 , wherein the mass sensor and the strain gauge are respectively connected with the computer via a multi-channel data collector. 9. A method for testing water absorption of concrete in a direction parallel with a load applying direction, using an apparatus for testing water absorption rate of concrete including: a loading device, comprising an upper support plate and a lower support plate connected with the upper support plate via a plurality of threaded rods, and a space for placing a concrete specimen being formed between the upper support plate and the lower support plate, a top of each threaded rod being connected with a nut through a spring, a plurality of pressing columns being connected under the upper support plate, a water filling device, comprising a water filling cylinder sleeved outside the pressing columns, the water filling cylinder having a side connected with a water supply tank via an inlet pipe, and another side connected with a water storage tank via a water outlet pipe, a multi-channel data collector, and a monitoring device, comprising a mass sensor arranged under the water storage tank and a strain gauge for detecting change of stress of the concrete specimen, the mass sensor configured for transmitting detected mass information of water flow inside the water storage tank to a computer to calculate the water absorption rate of the concrete specimen, the method comprising: sealingly connecting an annular plate with the upper support plate, waterproofing a side surface of the concrete specimen, pasting the strain gauge on a side of the concrete specimen, and connecting the strain gauge to the computer via the multi-channel data collector, connecting the concrete specimen with the annular plate by using the water filling cylinder, and fixing the concrete specimen to the water filling cylinder with a hoop; connecting the upper support plate with the lower support plate by using the threaded rods, and successively sleeving the spring and the nut to the top of each threaded rod, applying a force to the concrete specimen by means of a press, tightening the nuts in a case that the applied force reaching a predetermined stress level is displayed on the computer; and placing the water storage tank on the mass sensor, connecting a hose with the water outlet pipe, and connecting the mass sensor to the computer, opening the water filling valve to flow water from the water supply tank to the water storage tank, and closing the water filling valve when increased value of mass of the water storage tank reaches a set amount, once stopping filling the water, turning on a timer and monitoring reduction amount of mass of the water storage tank in real time by means of the computer. 10. The method for testing water absorption of concrete in the direction parallel with the load applying direction according to claim 9 , wherein: a bottom surface of the water storage tank is higher than a bottom surface of the upper support plate by a set distance; and in a process of filling the water, a water level line inside the water supply tank is kept higher than the bottom surface of the water storage tank by a set distance. 11. The method for testing water absorption of concrete in the direction parallel with the load applying direction according to claim 9 , wherein the pressing columns are arranged at even intervals, each pressing column has a first end fixedly connected with the upper support plate, and a second end configured for pressing a water absorption surface of the concrete specimen. 12. The method for testing water absorption of concrete in the direction parallel with the load applying direction according to claim 9 , wherein the pressing columns are divergently arranged in circular rings with a center of the upper support plate as a center. 13. The method for testing water absorption of concrete in the direction parallel with the load applying direction according to claim 9 , wherein the water filling cylinder is a reducer, and a top of the water filling cylinder is fixedly connected with the upper support plate via an annular plate. 14. The method for testing water absorption of concrete in the direction parallel with the load applying direction according to claim 9 , wherein the inlet pipe is equipped with a valve and a diameter of the inlet pipe is greater than a diameter of the outlet pipe. 15. The method for testing water absorption of concrete in the direction parallel with the load applying direction according to claim 9 , wherein the water storage tank has a bottom surface inclined at a set angle.