CN117366538A - Water-cooling parallel lighting lamp - Google Patents

Abstract

The invention discloses a water-cooling parallel type lighting lamp, and relates to the technical field of parallel type lighting lamps. The lamp comprises a lamp housing, wherein a plurality of lamp bodies are arranged on the front side of the lamp housing, mounting grooves are formed in the back surface of the lamp housing, a plurality of heat dissipation grooves are formed in two sides of the lamp housing, and the heat dissipation grooves are communicated with the inside of the mounting grooves. This kind of water-cooling parallel light, after the installation of water-cooling radiating assembly, when parallel light normal use, through first promotion subassembly, extrusion subassembly, rotating assembly, conveying assembly and scale removal subassembly's mutually support, take out the inside packing of stock jar between two check valves of filling the right-angle lime acid liquor to the conveyer pipe and through the extrusion, carry the inside to operation box and back flow, make the inside of back flow mix into the lime acid liquor of Eurya, decompose the processing through the scale deposit that the lime acid liquor produced on to the back flow inner wall, guarantee the radiating effect of back flow, the heat dissipation on the further parallel light of being convenient for is used.

Description

Water-cooling parallel lighting lamp

Technical Field

The invention relates to the technical field of parallel lighting lamps, in particular to a water-cooling parallel lighting lamp.

Background

The lighting lamp is the most widely used lighting equipment, and is the lighting equipment which can emit light and can provide services such as illumination, protection, decoration and the like for people. The illuminating lamp is a product of the development of the illumination technology and plays a very important role in the life of people. The concept of the lighting lamp is very wide, and comprises various indoor and outdoor lighting lamps, such as a desk lamp, a ceiling lamp, a crystal lamp and the like; such as broken disc lamps, street lamps, road illumination lamps and the like; gas discharge lamps and the like; even headlamps, flashlights, projectors, etc. can be counted as lighting fixtures. The characteristics of the lighting lamp are as follows: the use is convenient, and sufficient illumination can be provided; energy saving, environmental protection, safety and reliability; an omnidirectional lighting service can be provided; different illumination requirements in different places can be met; the glow effect can be adjusted to meet the requirements of different environments. The classification of the illuminating lamps is mainly based on two major categories, namely a common light source and a semiconductor light source, wherein the common light source comprises a mercury lamp, a vacuum lamp, a sodium lamp, a tungsten lamp, a xenon lamp and the like, and the semiconductor light source is various LED lamps.

The parallel connection mode is to connect the positive pole and the negative pole of the lighting lamp to the positive pole and the negative pole of the power supply respectively, and is different from the serial connection mode, the lamps are mutually independent, so that each lamp can independently receive current and emit light, the brightness is not reduced, and even if one lamp is damaged, the other lamps can work normally because the lamps are not mutually dependent.

For high-power parallel lighting lamp, the inside of the lamp body needs to be radiated in the working process, the water-cooled radiation is a radiation mode commonly used on the parallel lighting lamp, scale can be generated on the inner wall of the return pipe in the water-cooled radiation process, the scale has a certain heat insulation effect, the heat conduction can be influenced, the water-cooled radiation effect is further reduced, and the radiation on the parallel lighting lamp is inconvenient to use.

Disclosure of Invention

The invention aims to provide a water-cooling parallel type lighting lamp so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the water-cooling parallel type illuminating lamp comprises an illuminating lamp shell, wherein a plurality of lamp bodies are arranged on the front side of the illuminating lamp shell, mounting grooves are formed in the back surface of the illuminating lamp shell, a plurality of radiating grooves are formed in the two sides of the illuminating lamp shell, each radiating groove is communicated with the inside of the mounting groove, a cover plate is hinged on the mounting groove, and a water-cooling radiating component for water-cooling radiating when the illuminating lamp is used is arranged in the mounting groove;

the water cooling heat dissipation assembly comprises a return pipe, a liquid delivery pump and cooling fins, a loop is formed among the return pipe, the liquid delivery pump and the cooling fins, a mounting box is mounted on the return pipe, a descaling assembly for assisting in descaling the interior of the return pipe is arranged on the mounting box, and a mounting assembly for mounting the return pipe is arranged on the mounting groove;

the descaling assembly comprises a conveying pipe which is arranged at the upper end of the mounting box in a communicating manner, the upper end of the conveying pipe is connected with a storage tank in a threaded manner, the inside of the storage tank is filled with the Eu acid liquid, and the conveying pipe is provided with a conveying assembly for conveying the Eu acid liquid in the storage tank towards the inside of the return pipe;

the conveying assembly comprises two one-way valves arranged inside a conveying pipe, a piston pipe is arranged in the conveying pipe in an upper communicated mode, the piston pipe is located between the two one-way valves, the conducting direction of the two one-way valves is from the conveying pipe to the inside of an installation box, a piston plate is connected to the piston pipe through a first pushing assembly, the piston plate is slidably connected to the piston pipe, an extrusion assembly used for extruding the first pushing assembly is arranged above the installation box, a rotating assembly used for rotating the extrusion assembly is arranged on the installation box, and a collecting assembly used for collecting water after the acid liquid is conveyed towards the interior of the return pipe is arranged on the return pipe.

Preferably, the first pushing assembly comprises a push rod which is slidably connected to one end of the piston tube, one end of the push rod is located inside the piston tube and is fixed to the piston plate, a connecting spring is sleeved on the outer side of the push rod, and two ends of the connecting spring are connected with the piston plate and the inner wall of the piston tube respectively.

Preferably, the extrusion assembly comprises a driving disc arranged above the mounting box, and a plurality of bulges which are used for pushing against one end of the push rod are fixed on the outer annular array of the driving disc.

Preferably, the rotating assembly comprises a mounting shaft which is rotatably connected to the mounting box, one end of the mounting shaft is fixed to the driving disc, the mounting shaft and the driving disc are concentrically arranged, and one end of the mounting shaft is located inside the mounting box and is fixedly provided with the fan blades.

Preferably, the collecting assembly comprises a connecting pipe which is arranged on the return pipe in a communicating way, the connecting pipe is connected with a collecting tank in a threaded way, and a control assembly for controlling the collecting start and stop is arranged in the connecting pipe.

Preferably, the control assembly comprises a conical groove formed in the connecting pipe, a ball body is connected to the connecting pipe through a second pushing assembly, and the ball body abuts against the conical groove to seal the inner part of the connecting pipe.

Preferably, the second pushing assembly comprises a circular plate arranged in the connecting pipe, the ball body is positioned between the circular plate and the conical groove, a plurality of through holes are formed in the circular plate, an extrusion spring used for pushing the ball body is connected to the circular plate, and the other end of the extrusion spring is connected with the ball body.

Preferably, the installation component is provided with two sets of in the inside symmetry of mounting groove, the installation component is including setting up at the inside two drive plates of mounting groove, two be fixed with splint on the drive plate, the inside of mounting groove is provided with and is used for driving the drive component and the guide component of transmission and in-process direction to splint transmission.

Preferably, the transmission assembly comprises a double-end screw rod which is rotationally connected to the mounting groove, threads at two ends of the double-end screw rod are oppositely arranged in a screwing mode, a thread sleeve is fixed on the transmission plate, the thread sleeve is respectively meshed with two ends of the double-end screw rod, and one end of the double-end screw rod penetrates through the outer side of the illuminating lamp shell and is fixedly provided with a fixing pin.

Preferably, the guide assembly comprises a plurality of guide holes formed in the transmission plate, each guide hole is connected with a guide rod in a sliding mode, and the guide rods are fixed in the installation grooves.

Compared with the prior art, the invention has the beneficial effects that:

this kind of water-cooling parallel light, after the installation of water-cooling radiating assembly, when parallel light normal use, through first promotion subassembly, extrusion subassembly, rotating assembly, conveying assembly and scale removal subassembly's mutually support, take out the inside packing of stock jar between two check valves of filling the right-angle lime acid liquor to the conveyer pipe and through the extrusion, carry the inside to operation box and back flow, make the inside of back flow mix into the lime acid liquor of Eurya, decompose the processing through the scale deposit that the lime acid liquor produced on to the back flow inner wall, guarantee the radiating effect of back flow, the heat dissipation on the further parallel light of being convenient for is used.

Drawings

FIG. 1 is a schematic diagram of the overall outline structure of the present invention;

FIG. 2 is a schematic view of the back structure of the lamp housing of the present invention;

FIG. 3 is a schematic view of a water-cooled heat sink assembly according to the present invention;

FIG. 4 is a schematic view of the structure of the mounting assembly, the transmission assembly, the guide assembly and the collection assembly of the present invention;

FIG. 5 is a schematic view of the structure of the extrusion assembly and the rotary assembly of the present invention;

FIG. 6 is a schematic view of the descaling assembly, the conveying assembly and the first pushing assembly according to the present invention;

FIG. 7 is a schematic diagram of a control assembly and a second pushing assembly according to the present invention;

fig. 8 is an enlarged schematic view of the structure at a in fig. 4.

In the figure: 101. a lamp housing; 102. a lamp body; 103. a mounting groove; 104. a heat sink; 105. a cover plate; 2. a water-cooling heat dissipation assembly; 201. a return pipe; 202. a liquid transfer pump; 203. a heat sink; 3. a mounting assembly; 301. a drive plate; 302. a clamping plate; 4. a transmission assembly; 401. double-end screw rod; 402. a thread sleeve; 403. a fixing pin; 5. a guide assembly; 501. a guide hole; 502. a guide rod; 6. a mounting box; 7. a descaling assembly; 701. a delivery tube; 702. a storage tank; 8. a transport assembly; 801. a one-way valve; 802. a piston tube; 803. a piston plate; 9. a first pushing assembly; 901. a push rod; 902. a connecting spring; 10. an extrusion assembly; 1001. a drive plate; 1002. a protrusion; 11. a rotating assembly; 1101. a mounting shaft; 1102. a fan blade; 12. a collection assembly; 1201. a connecting pipe; 1202. a collection tank; 13. a control assembly; 1301. a conical groove; 1302. a sphere; 14. a second pushing assembly; 1401. a circular plate; 1402. a through hole; 1403. the spring is pressed.

Description of the embodiments

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-8, the present invention provides a technical solution: the water-cooling parallel type lighting lamp comprises a lighting lamp shell 101, wherein a plurality of lamp bodies 102 are arranged on the front side of the lighting lamp shell 101, mounting grooves 103 are formed in the back surface of the lighting lamp shell 101, a plurality of heat dissipation grooves 104 are formed in two sides of the lighting lamp shell 101, each heat dissipation groove 104 is communicated with the inside of the corresponding mounting groove 103, a cover plate 105 is hinged on the mounting groove 103, and a water-cooling heat dissipation assembly 2 for water-cooling heat dissipation when the lighting lamp is used is arranged in the mounting groove 103;

the water-cooling heat dissipation assembly 2 comprises a return pipe 201, a liquid delivery pump 202 and a heat dissipation fin 203, a loop is formed among the return pipe 201, the liquid delivery pump 202 and the heat dissipation fin 203, a mounting box 6 is mounted on the return pipe 201, a descaling assembly 7 for assisting in descaling the interior of the return pipe 201 is arranged on the mounting box 6, and a mounting assembly 3 for mounting the return pipe 201 is arranged on the mounting groove 103;

the descaling assembly 7 comprises a conveying pipe 701 which is arranged at the upper end of the mounting box 6 in a communicating manner, the upper end of the conveying pipe 701 is connected with a storage tank 702 in a threaded manner, the inside of the storage tank 702 is filled with the Eurya acid liquid, and the conveying pipe 701 is provided with a conveying assembly 8 for conveying the Eurya acid liquid in the storage tank 702 towards the interior of the return pipe 201;

the conveying assembly 8 comprises two one-way valves 801 arranged in the conveying pipe 701, a piston pipe 802 is arranged on the conveying pipe 701 in a communicating manner, the piston pipe 802 is positioned between the two one-way valves 801, the conducting direction of the two one-way valves 801 is that the conveying pipe 701 is arranged in the installation box 6, a piston plate 803 is connected to the piston pipe 802 through a first pushing assembly 9, the piston plate 803 is slidingly connected to the piston pipe 802, an extrusion assembly 10 for extruding the first pushing assembly 9 is arranged above the installation box 6, a rotating assembly 11 for rotating the extrusion assembly 10 is arranged on the installation box 6, and a collecting assembly 12 for collecting water after the acid liquid is conveyed towards the interior of the return pipe 201 is arranged on the return pipe 201; through the mutual cooperation of the first pushing component 9, the extrusion component 10 and the rotating component 11, the push rod 901 and a piston plate 803 at one end of the push rod 901 reciprocate on the piston pipe 802 along with the rotation of the driving disc 1001, as the conduction direction of the two one-way valves 801 is from the conveying pipe 701 to the inside of the installation box 6, the Eurya japonica acid liquid filled in the storage tank 702 is pumped between the two one-way valves 801 of the conveying pipe 701 through the reciprocation of the piston plate 803 and is conveyed to the inside of the installation box 6 and the reflux pipe 201 through extrusion, the Eurya japonica acid liquid is mixed in the reflux pipe 201, scale generated on the inner wall of the reflux pipe 201 is decomposed through the Eurya japonica acid liquid, the heat dissipation effect of the reflux pipe 201 is guaranteed, and the heat dissipation on the parallel type illuminating lamp is further facilitated.

The first pushing assembly 9 comprises a push rod 901 which is slidably connected to one end of the piston tube 802, one end of the push rod 901 is positioned in the piston tube 802 and is fixed with the piston plate 803, a connecting spring 902 is sleeved on the outer side of the push rod 901, and two ends of the connecting spring 902 are respectively connected with the piston plate 803 and the inner wall of the piston tube 802; the pressing assembly 10 comprises a driving disc 1001 arranged above the mounting box 6, and a plurality of bulges 1002 for pushing against one end of the push rod 901 are fixed on the outer annular array of the driving disc 1001; the rotating assembly 11 comprises a mounting shaft 1101 rotatably connected to the mounting box 6, one end of the mounting shaft 1101 is fixed with the driving disk 1001, the mounting shaft 1101 and the driving disk 1001 are concentrically arranged, and one end of the mounting shaft 1101 is positioned in the mounting box 6 and is fixedly provided with fan blades 1102; in the process of internal circulation of the return pipe 201, the cooling liquid drives the driving disc 1001 at one end of the mounting shaft 1101 to rotate under the action of liquid pressure between the cooling liquid and the fan blades 1102, in the process of rotating the driving disc 1001, each protrusion 1002 on the driving disc 1001 is sequentially abutted against one end of the push rod 901, and the piston plate 803 at one end of the push rod 901 and one end of the push rod 901 reciprocate on the piston pipe 802 along with the rotation of the driving disc 1001 under the pushing action of the protrusion 1002 and one end of the push rod 901 and the reset action of the connecting spring 902 on the abutted push rod 901.

The collecting assembly 12 comprises a connecting pipe 1201 which is communicated and installed on the return pipe 201, a collecting tank 1202 is connected on the connecting pipe 1201 in a threaded manner, and a control assembly 13 for controlling the starting and stopping of the collecting is arranged in the connecting pipe 1201; the control assembly 13 comprises a conical groove 1301 arranged in the connecting pipe 1201, a sphere 1302 is connected to the inside of the connecting pipe 1201 through the second pushing assembly 14, and the sphere 1302 abuts against the conical groove 1301 to seal the inside of the connecting pipe 1201; in the process of conveying the Eurya citrate liquid filled in the storage tank 702 into the reflux pipe 201, along with the increase of liquid in the reflux pipe 201, the pressure in the reflux pipe 201 is increased, under the action of the pressure in the reflux pipe 201, the ball 1302 is pushed to be not against the conical groove 1301, at the moment, the reflux pipe 201 and the collection tank 1202 are connected through the connecting pipe 1201, so that the superfluous liquid flushed in the reflux pipe 201 is conveyed into the collection tank 1202 through the connecting pipe 1201 to be collected, the normal circulation of the liquid in the reflux pipe 201 is ensured, and the Eurya citrate liquid filled in the storage tank 702 is conveniently pumped into the reflux pipe 201 normally.

The second pushing assembly 14 comprises a circular plate 1401 arranged in the connecting pipe 1201, a ball 1302 is positioned between the circular plate 1401 and the conical groove 1301, a plurality of through holes 1402 are formed in the circular plate 1401, a pressing spring 1403 for pushing the ball 1302 is connected to the circular plate 1401, and the other end of the pressing spring 1403 is connected with the ball 1302; the ball 1302 is pushed against the tapered groove 1301 by the elastic force of the pressing spring 1403.

The mounting assembly 3 is symmetrically provided with two groups in the mounting groove 103, the mounting assembly 3 comprises two transmission plates 301 arranged in the mounting groove 103, clamping plates 302 are fixed on the two transmission plates 301, and a transmission assembly 4 for transmitting the clamping plates 302 and a guiding assembly 5 for guiding in transmission and process are arranged in the mounting groove 103; before the parallel lighting lamp is used, the whole water-cooling radiating assembly 2 is installed on the installation groove 103, in the installation process, the reflux pipe 201 is pushed, the reflux pipe 201 is positioned between two clamping plates 302 of the installation assembly 3, after the reflux pipe 201 is pushed, the two transmission plates 301 are driven to move under force through the transmission assembly 4 and the guide assembly 5, in the stress movement process of the two transmission plates 301, the two transmission plates 301 after being forced are driven to move close to each other through the guiding action of the guide holes 501 and the guide rods 502, in the mutual approaching movement process of the two transmission plates 301, the two clamping plates 302 are driven to respectively abut against two sides of the reflux pipe 201, and the reflux pipe 201 is installed and fixed on the installation groove 103 through the abutting clamping action of the two clamping plates 302.

The transmission assembly 4 comprises a double-end screw rod 401 rotatably connected to the mounting groove 103, threads at two ends of the double-end screw rod 401 are oppositely arranged in a rotation direction, threaded sleeves 402 are fixed on the two transmission plates 301, the two threaded sleeves 402 are respectively meshed with two ends of the double-end screw rod 401, and one end of the double-end screw rod 401 penetrates through the outer side of the illuminating lamp shell 101 and is fixedly provided with a fixing pin 403; the guide assembly 5 comprises a plurality of guide holes 501 formed on the transmission plate 301, each guide hole 501 is connected with a guide rod 502 in a sliding manner, and the guide rods 502 are fixed in the mounting grooves 103; through fixed pin 403, drive double-end lead screw 401 rotates, because of the screw thread at double-end lead screw 401 both ends revolves to opposite setting, at double-end lead screw 401 pivoted in-process, through the intermeshing transmission between double-end lead screw 401 and two thread bush 402 respectively, drive two drive plates 301 atress moves, in the in-process of two drive plates 301 atress motion, through the guide effect of a plurality of guiding holes 501 and guide bar 502, make two drive plates 301 after the atress move near or be mutually far away from each other.

Working principle: before the parallel type illuminating lamp is used, the whole water-cooling radiating assembly 2 is installed on the installation groove 103, in the installation process, the reflux pipe 201 is pushed, the reflux pipe 201 is positioned between two clamping plates 302 of the installation assembly 3, after the reflux pipe 201 is pushed, the double-head screw 401 is driven to rotate through the fixing pin 403, threads at two ends of the double-head screw 401 are oppositely arranged, in the rotation process of the double-head screw 401, the double-head screw 401 is respectively in meshed transmission with two threaded sleeves 402, the two transmission plates 301 are driven to bear force to move, in the force bearing process of the two transmission plates 301, the two transmission plates 301 after force bearing are made to mutually approach to move through the guiding action of a plurality of guiding holes 501 and guiding rods 502, in the process of the mutual approaching motion of the two transmission plates 301, the two clamping plates 302 are driven to respectively prop against two sides of the reflux pipe 201, and the reflux pipe 201 is installed and fixed on the installation groove 103 through the clamping action of the two clamping plates 302;

after the water-cooling heat dissipation assembly 2 is installed, when the parallel type illuminating lamp is normally used, the cooling liquid in the reflux pipe 201 circulates in the reflux pipe 201 through the driving action of the liquid conveying pump 202, heat generated in the working process of the parallel type illuminating lamp is dissipated through the heat conduction of the reflux pipe 201 and the heat conduction of the heat dissipation plate 203 in the circulating process, the heat dissipation protection of the parallel type illuminating lamp is realized, the cooling liquid drives the driving disc 1001 at one end of the installation shaft 1101 to rotate through the liquid pressure action between the cooling liquid and the fan blades 1102 in the internal circulating process of the reflux pipe 201, and all the bulges 1002 on the driving disc 1001 are propped against one end of the push rod 901 in sequence in the rotating process of the driving disc 1001, the push rod 901 and the piston plate 803 at one end of the push rod 901 reciprocate on the piston pipe 802 along with the rotation of the driving disc 1001 through the pushing action of the bulge 1002 against one end of the push rod 901 and the resetting action of the connecting spring 902 against the push rod 901, and because the conduction direction of the two one-way valves 801 is from the conveying pipe 701 to the inside of the mounting box 6, the Eurya japonica acid liquid filled in the storage tank 702 is pumped between the two one-way valves 801 of the conveying pipe 701 and conveyed into the mounting box 6 and the inside of the return pipe 201 through extrusion by the reciprocating movement of the piston plate 803, the Eurya japonica acid liquid is mixed in the return pipe 201, and scale generated on the inner wall of the return pipe 201 is decomposed by the Eurya japonica acid liquid, so that the heat dissipation effect of the return pipe 201 is ensured, and the heat dissipation on the parallel type illuminating lamp is further facilitated;

in the process of conveying the Eurya citrate liquid filled in the storage tank 702 into the reflux pipe 201, along with the increase of liquid in the reflux pipe 201, the pressure in the reflux pipe 201 is increased, under the action of the pressure in the reflux pipe 201, the ball 1302 is pushed to be not against the conical groove 1301, at the moment, the reflux pipe 201 and the collection tank 1202 are connected through the connecting pipe 1201, so that the superfluous liquid flushed in the reflux pipe 201 is conveyed into the collection tank 1202 through the connecting pipe 1201 to be collected, the normal circulation of the liquid in the reflux pipe 201 is ensured, and the Eurya citrate liquid filled in the storage tank 702 is conveniently pumped into the reflux pipe 201 normally.

Claims (10)

1. The utility model provides a water-cooling parallel light, includes light shell (101), a plurality of lamp body (102) are installed to the front side of light shell (101), mounting groove (103) have been seted up at the back of light shell (101), a plurality of radiating grooves (104) have been seted up to the both sides of light shell (101), and each radiating groove (104) communicate with each other with the inside of mounting groove (103) and set up, the hinge has apron (105), its characterized in that on mounting groove (103): a water cooling assembly (2) for water cooling when the lighting lamp is used is arranged in the mounting groove (103);

the water cooling heat dissipation assembly (2) comprises a return pipe (201), a liquid delivery pump (202) and cooling fins (203), a loop is formed among the return pipe (201), the liquid delivery pump (202) and the cooling fins (203), a mounting box (6) is mounted on the return pipe (201), a descaling assembly (7) for assisting the interior descaling of the return pipe (201) is arranged on the mounting box (6), and a mounting assembly (3) for mounting the return pipe (201) is arranged on the mounting groove (103);

the descaling assembly (7) comprises a conveying pipe (701) which is arranged at the upper end of the mounting box (6) in a communicating manner, a storage tank (702) is connected to the upper end of the conveying pipe (701) in a threaded manner, the inside of the storage tank (702) is filled with Eurya acid liquid, and the conveying assembly (8) for conveying the Eurya acid liquid in the storage tank (702) towards the inside of the return pipe (201) is arranged on the conveying pipe (701);

the conveying assembly (8) comprises two one-way valves (801) arranged inside a conveying pipe (701), a piston pipe (802) is arranged in the conveying pipe (701) in a communicating mode, the piston pipe (802) is located between the two one-way valves (801), the conducting direction of the two one-way valves (801) is from the conveying pipe (701) to the inside of an installation box (6), a piston plate (803) is connected to the piston pipe (802) through a first pushing assembly (9), the piston plate (803) is slidably connected to the piston pipe (802), an extrusion assembly (10) for extruding the first pushing assembly (9) is arranged above the installation box (6), a rotating assembly (11) for rotating the extrusion assembly (10) is arranged on the installation box (6), and a collecting assembly (12) for collecting water after the Eurya japonica acid liquid is conveyed towards the inside of the return pipe (201) is arranged on the return pipe (201).

2. The water-cooled parallel lamp as set forth in claim 1, wherein: the first pushing assembly (9) comprises a pushing rod (901) which is slidably connected to one end of the piston tube (802), one end of the pushing rod (901) is located inside the piston tube (802) and is fixed to the piston plate (803), a connecting spring (902) is sleeved on the outer side of the pushing rod (901), and two ends of the connecting spring (902) are connected with the piston plate (803) and the inner wall of the piston tube (802) respectively.

3. A water-cooled parallel lamp as in claim 2, wherein: the extrusion assembly (10) comprises a driving disc (1001) arranged above the mounting box (6), and a plurality of bulges (1002) for pushing against one end of the push rod (901) are fixed on the outer annular array of the driving disc (1001).

4. A water-cooled parallel lamp as recited in claim 3, wherein: the rotating assembly (11) comprises a mounting shaft (1101) which is rotatably connected to the mounting box (6), one end of the mounting shaft (1101) is fixed to the driving disc (1001), the mounting shaft (1101) and the driving disc (1001) are concentrically arranged, and one end of the mounting shaft (1101) is located inside the mounting box (6) and is fixedly provided with fan blades (1102).

5. The water-cooled parallel lamp as set forth in claim 1, wherein: the collecting assembly (12) comprises a connecting pipe (1201) which is arranged on the return pipe (201) in a communicating way, the connecting pipe (1201) is connected with a collecting tank (1202) in a threaded way, and a collecting start-stop control assembly (13) is arranged inside the connecting pipe (1201).

6. The water-cooled parallel lamp of claim 5, wherein: the control assembly (13) comprises a conical groove (1301) formed in the connecting pipe (1201), a ball body (1302) is connected to the inside of the connecting pipe (1201) through a second pushing assembly (14), and the ball body (1302) abuts against the conical groove (1301) to seal the inside of the connecting pipe (1201).

7. The water-cooled parallel lamp of claim 6, wherein: the second pushing assembly (14) comprises a circular plate (1401) arranged in the connecting pipe (1201), the ball body (1302) is located between the circular plate (1401) and the conical groove (1301), a plurality of through holes (1402) are formed in the circular plate (1401), an extrusion spring (1403) used for pushing the ball body (1302) is connected to the circular plate (1401), and the other end of the extrusion spring (1403) is connected with the ball body (1302).

8. The water-cooled parallel lamp as set forth in claim 1, wherein: the installation component (3) is provided with two sets of in the inside symmetry of mounting groove (103), installation component (3) are including setting up at two drive plates (301) of mounting groove (103) inside, two be fixed with splint (302) on drive plate (301), the inside of mounting groove (103) is provided with drive assembly (4) and transmission and in-process direction guide assembly (5) that are used for splint (302) driven.

9. The water-cooled parallel lamp of claim 8, wherein: the transmission assembly (4) comprises a double-end screw rod (401) which is rotatably connected to the mounting groove (103), threads at two ends of the double-end screw rod (401) are oppositely arranged in a screwing mode, a thread sleeve (402) is fixed on the transmission plate (301), the thread sleeve (402) is respectively meshed with two ends of the double-end screw rod (401), and one end of the double-end screw rod (401) penetrates through the outer side of the illuminating lamp shell (101) and is fixedly provided with a fixing pin (403).

10. The water-cooled parallel lamp as set forth in claim 9, wherein: the guide assembly (5) comprises a plurality of guide holes (501) formed in the transmission plate (301), guide rods (502) are connected to the guide holes (501) in a sliding mode, and the guide rods (502) are fixed inside the mounting grooves (103).