CN204665714U - A kind of trough type solar heat-collector automatic dust removing apparatus - Google Patents

Abstract

The utility model discloses an automatic dust removal device for a trough solar heat collector, which comprises a brush arm arranged on the mirror surface of a parabolic concentrating mirror and a driving mechanism for driving the brush arm to reciprocate along the axial direction of the parabolic concentrating mirror. The bristles in contact with the mirror surface of the parabolic concentrator, the brush arm is also provided with a nozzle for spraying and cleaning the mirror surface of the parabolic concentrator, and the brush arm is provided with a water delivery hose connected to the nozzle. The automatic dust removal device for the heater drives the brush arm to reciprocate on the mirror surface of the parabolic condenser through the driving mechanism, so that the bristles on the brush arm can wipe and clean the dust on the mirror surface of the parabolic condenser mirror; at the same time, the nozzle set on the brush arm automatically sprays the mirror surface Washing with water, so as to realize the automatic dedusting of the parabolic condenser mirror, abandoning the traditional manual dedusting method, effectively reducing labor costs, and high dedusting efficiency.

Description

A kind of automatic dedusting device for trough solar heat collector

technical field

    The utility model relates to the technical field of cleaning devices, in particular to an automatic dust removal device used in a trough solar heat collector.

Background technique

At present, trough solar collectors are generally installed in places such as outdoor terraces and roofs. After a period of use, with the settlement of pollutants in the air, the mirror surface of the parabolic concentrator of the trough solar collectors often adheres thick A thick layer of dust, the accumulation of dust seriously affects the concentrating effect of the parabolic condenser.

At present, the mirror surface of the parabolic condenser is usually cleaned by manual washing. However, the cleaning efficiency of manual cleaning is low, time-consuming and laborious, and it also increases the cost of manual cleaning and maintenance.

Utility model content

The technical problem to be solved by the utility model is to provide an automatic dust removal device for a trough solar heat collector with simple structure and high dust removal efficiency.

The technical solution adopted to solve the above technical problems: an automatic dust removal device for trough solar collectors, including a brush arm arranged on the mirror surface of the parabolic concentrator and a driving mechanism that drives the brush arm to reciprocate along the axial direction of the parabolic concentrator. The brush arm is provided with bristles in contact with the mirror surface of the parabolic condenser mirror, and the brush arm is also provided with a nozzle for spraying and cleaning the mirror surface of the parabolic condenser mirror, and the brush arm is provided with a water delivery hose connected to the nozzle .

Further, there are sliding rails extending axially on both edge ends of the parabolic concentrator, and sliders are respectively provided on the edge ends on both sides of the brush arm to slidably connect with the sliding rails, and the driving mechanism includes a crank linkage mechanism and a connecting rod arranged on one side of the parabolic concentrator and axially reciprocating, one end of the connecting rod is connected to the crank linkage mechanism, and the other end of the connecting rod is connected to the brush arm.

Further, the other end of the connecting rod is rotationally connected with the brush arm to form a rotational pair whose axial direction is parallel to the axial direction of the parabolic concentrator.

Beneficial effects: the automatic dust removal device for the trough solar collector drives the brush arm to reciprocate on the mirror surface of the parabolic concentrator through the driving mechanism, so that the bristles on the brush arm can wipe and clean the dust on the mirror surface of the parabolic concentrator; at the same time, the brush arm The set nozzles automatically spray water on the mirror surface to realize automatic dust removal on the mirror surface of the parabolic condenser, abandoning the traditional manual dust removal method, effectively reducing labor costs, and high dust removal efficiency.

Description of drawings

Below in conjunction with accompanying drawing and embodiment the utility model is described further;

Fig. 1 is the structural representation of the utility model embodiment;

Fig. 2 is a partially enlarged schematic view of the brush arm in the embodiment of the present invention.

Detailed ways

With reference to Fig. 1 and Fig. 2, the automatic dedusting device of a kind of trough solar heat collector of the utility model comprises the brush arm 20 that is arranged on the mirror surface of parabolic concentrating mirror 10 and drives the drive mechanism that drives brush arm 20 to reciprocate along the parabolic concentrating mirror 10 axial direction 30, the brush arm 20 is provided with the bristles 21 that are in contact with the mirror surface of the parabolic condenser mirror 10, and the brush arm 20 is also provided with a nozzle 22 that sprays water to clean the mirror surface of the parabolic condenser mirror 10, and the brush arm 20 is provided with a nozzle 22 corresponding to the nozzle 22. Connected water hose 23.

Wherein, according to the size of the actual parabolic concentrator 10, the brush arm 20 can be designed to be a plurality of juxtapositions, the bristles 21 on the brush arm 20 form a bristle area, and the nozzles 22 are arranged in multiple bristle areas. During work, the drive mechanism 30 drives The brush arm 20 reciprocates on the mirror surface of the parabolic condenser 10, so that the bristles 21 on the brush arm 20 wipe and clean the dust on the mirror surface of the parabolic condenser 10; meanwhile, the nozzle 22 on the brush arm 20 sprays water to wash the mirror surface, thereby Realize the automatic dedusting of the mirror surface of the parabolic condenser 10.

In the present embodiment, the other end of the water delivery hose 23 is connected to the tap water pipe and a solenoid valve 24 is provided, and the solenoid valve 24 operates correspondingly according to the working state of the driving mechanism 30 to control the water delivery of the water delivery hose 23. When the driving mechanism 30 is running, the electromagnetic valve 24 opens the valve, and the water delivery hose 23 supplies water to the nozzle 22 for water spray cleaning; when the driving mechanism 30 stops, the electromagnetic valve 24 closes the valve.

As preferably, slide rails 11 are axially extended at the edge ends on both sides of the parabolic concentrator 10, and the edge ends on both sides of the brush arm 20 are respectively provided with slide blocks 12 that are slidably connected to the slide rails 11, and the drive mechanism 30 includes a crank connecting rod. The mechanism and the connecting rod 31 arranged on one side of the parabolic concentrator and axially reciprocatingly move, one end of the connecting rod 31 is connected to the crank connecting rod mechanism in transmission, and the other end of the connecting rod 31 is connected with the brush arm 20 . The other end of the connecting rod 31 is rotatably connected with the brush arm 20 to form a rotating pair whose axial direction is parallel to the axial direction of the parabolic condenser. Rotating with sunlight, the formed rotating pair can make the brush arm 20 rotate together with the parabolic concentrator 10, thereby avoiding twisting and deformation.

The embodiments of the present utility model have been described in detail above in conjunction with the accompanying drawings, but the present utility model is not limited to the above-mentioned embodiments. Various changes are made.

Claims (3)

1. a trough type solar heat-collector automatic dust removing apparatus, it is characterized in that: comprise and be arranged on brush arm on parabolic concentrator minute surface and drive brush arm along the driving mechanism of parabolic concentrator axial reciprocating movement, described brush arm is provided with the bristle contacted with parabolic concentrator minute surface, described brush arm is also provided with nozzle parabolic concentrator minute surface being carried out to spraying-rinsing, described brush arm is provided with the delivery hose be connected with nozzle.

2. trough type solar heat-collector automatic dust removing apparatus according to claim 1, it is characterized in that: extend vertically at described parabolic concentrator dual-side acies and be provided with slide rail, described brush arm dual-side acies is respectively equipped with the slide block with slide rail sliding connection, described driving mechanism comprises toggle and is located at the connecting rod that parabolic concentrator side moves back and forth vertically, described connecting rod one end and toggle are in transmission connection, and the described connecting rod other end is connected with brush arm.

3. trough type solar heat-collector automatic dust removing apparatus according to claim 2, is characterized in that: the described connecting rod other end and brush arm are rotationally connected and form axially axially parallel with parabolic concentrator revolute pair.