Lifting structure with adjustable bearing capacity

What is claimed is: 1. A lifting structure with adjustable bearing capacity for supporting a variety of displays, comprising: a main body comprising at least one slide; a carrier connected to the slide and being able to move along the slide for supporting the display; a main constant force spring connected to the carrier for constantly providing a main elastic force; at least one linkage module including a column body, an upper element, and a lower element, wherein the column body passes through the upper element and has two end portions in which one is connected to the carrier and the other one is connected to the lower element; and at least one auxiliary constant force spring comprising a main portion and a fixed end for providing an auxiliary elastic force, wherein the fixed end and the main portion of the auxiliary constant force spring are secured to the upper element and the lower element respectively, and the fixed end is driven by the upper element to move along the column body; wherein the main body further comprises at least one actuating module being able to be selectively switched between a non-actuating position and an actuating position; and both the main portion and the fixed end of the auxiliary constant force spring simultaneously move along with the carrier when the actuating module is at the non-actuating position so that the auxiliary constant force spring fails to provide the auxiliary elastic force to the carrier; and wherein only the main portion of the auxiliary constant force spring simultaneously moves along with the carrier and the fixed end of the auxiliary constant force spring is abutted to the main body when the actuating module is at the actuating position so that the auxiliary constant force spring provides the auxiliary elastic force to the carrier. 2. The lifting structure as claimed in claim 1 , wherein the main body further comprises a releasing module which includes a releasing element and a first return spring connected to the releasing element, wherein the first return spring pushes the releasing element in a first direction; and wherein the actuating module drives the releasing module to overcome an elastic force provided by the first return spring and to move along the first direction when the actuating module switches from the non-actuating position to the actuating position. 3. The lifting structure as claimed in claim 2 , wherein the actuating module comprises an actuating block and a second return spring connected to the actuating block to push the actuating block in a second direction; and wherein the actuating block is able to move along the second direction and selectively abuts against the releasing element or the upper element when the actuating block is driven to overcome an elastic force provided by the second return spring. 4. The lifting structure as claimed in claim 3 , wherein the upper element, the lower element, and the auxiliary constant force spring simultaneously move along with the column body in which the auxiliary constant force spring maintains in an original state when the actuating block is at the non-actuating position and the column body is driven by the carrier which is originally located at a top portion of the lifting structure; and wherein the upper element is restricted by the actuating block, and the lower element and the main portion of the auxiliary constant force spring simultaneously move along with the column body when the actuating block drives the releasing element to overcome the elastic force provided by the first return spring and moves to the actuating position, and the column body is driven by the carrier which is originally located at the top portion of the lifting structure, so that the elastic force provided by the auxiliary constant force spring is transferred to the carrier. 5. The lifting structure as claimed in claim 4 , wherein an upper protrusion extends from the upper element, a release protrusion extends from the releasing element, and a first protrusion and a second protrusion extend from the actuating block, in which the first protrusion and the upper protrusion are able to relatively abut against or slide against each other, and the second protrusion and the release protrusion are able to relatively abut against or slide against each other. 6. The lifting structure as claimed in claim 5 , wherein the first protrusion has a first propped surface and a first inclined surface; the second protrusion has a second propped surface and a second inclined surface; the upper protrusion has a third propped surface and a third inclined surface; and the release protrusion has a fourth propped surface and a fourth inclined surface. 7. The lifting structure as claimed in claim 6 , wherein when the actuating block is at the non-actuating position, the upper protrusion and the first protrusion are not overlapped in the first direction. 8. The lifting structure as claimed in claim 7 , wherein the second inclined surface and the fourth inclined surface slide relatively against each other so as to drive the release protrusion to overcome the elastic force provided by the first return spring when the actuating block is driven from the non-actuating position to the actuating position; once the second protrusion and the release protrusion are no longer overlapped in the first direction, the releasing element is returned by the first return spring, and the second propped surface and the fourth propped surface abut against each other due to the second return spring. 9. The lifting structure as claimed in claim 8 , wherein the first propped surface and the third propped surface contact and abut against each other to restrict the upper element when the actuating block is at the actuating position. 10. The lifting structure as claimed in claim 9 , wherein the actuating block is driven by the second return spring to return to the non-actuating position when an external force is applied to the releasing element to overcome the elastic force provided by the first return spring and to drive the releasing element to move to an extent that the release protrusion and the second protrusion are no longer overlapped in the second direction. 11. The lifting structure as claimed in claim 7 , wherein when the actuating block is at the non-actuating position and the carrier departs from the top portion of the lifting structure to drive the upper element, the lower element, and the auxiliary constant force spring to move simultaneously along with the column body in advance, and when the actuating block is subsequently driven to switch from the non-actuating position to the actuating position and the column body subsequently drives the upper element, the lower element, and the auxiliary constant force spring to return, the first inclined surface and the third inclined surface contact with and relatively slide against each other so as to drive the actuating block to overcome the elastic force provided by the second return spring until the first protrusion and the upper protrusion are no longer overlapped in the first direction, and then the second return spring drives the actuating block returning back to the actuating position. 12. The lifting structure as claimed in claim 2 , wherein the releasing element further comprises a releasing button, so that the releasing element is able to move along the first direction when the releasing button is pressed to overcome the elastic force provided by the first return spring. 13. The lifting structure as claimed in claim 1 , wherein the at least one slide comprises two slides, the at least one linkage module comprises two linkage modules, the at least one actuating module compri