CN219341834U - Water treatment ultraviolet sterilizer - Google Patents

Abstract

The utility model discloses a water treatment ultraviolet sterilizer, which comprises a cylinder, wherein a left baffle plate and a right baffle plate are detachably arranged at the left end and the right end of the cylinder, a sterilizing mechanism is arranged in the cylinder, the sterilizing mechanism is used for sterilizing, one end of the left baffle plate or the right baffle plate is detached and reset after water is put into the cylinder, the sterilizing mechanism can sterilize the water and discharge the water to the other end, the water can be absorbed from the water-containing end through the arranged sterilizing mechanism, and then the water can be sprayed out after passing through a first annular cavity, a second annular cavity, a third annular cavity, a fourth annular cavity and a connecting cavity in the sterilizing mechanism, and is always contacted with an ultraviolet tube in the cylinder, the ultraviolet tube is used for sterilizing the water, the path of the water flow is long, the sterilizing time is long, and effect is good; the sprayed water is not mixed with the water which is not sterilized, so that the water can be used after a part of water is sterilized, and the water used cannot be thoroughly sterilized due to short sterilization time; and can realize the repeated disinfection to water through the right pump and the left pump that start in proper order and be equipped with.

Description

Water treatment ultraviolet sterilizer

Technical Field

The utility model relates to the field of ultraviolet disinfection, in particular to a water treatment ultraviolet sterilizer.

Background

The conventional chemical disinfection methods comprise chlorine disinfection, chlorine dioxide disinfection, ozone disinfection, chloramine combined disinfection and the like, and have the problems of difficult storage or preparation, various disinfection byproducts and the like, and the use is not safe. Compared with chemical disinfection technology, the ultraviolet disinfection method belongs to a physical disinfection method, does not generate bromate, chlorite, iodoacetic acid, trihalomethane and other harmful substances, is harmless to the environment, ecology and human, and does not generate odor;

however, ultraviolet sterilization requires a long irradiation time for water sterilization, so that it is troublesome to pass water through a long path, and repeated sterilization is sometimes required for a large amount of water.

Disclosure of Invention

The utility model aims to provide a water treatment ultraviolet sterilizer, which solves the problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a water treatment ultraviolet ray sterilizer, includes the drum, both ends detachable is equipped with left baffle and right baffle about the drum, be equipped with disinfection mechanism in the drum, disinfection mechanism is used for disinfecting, left baffle or right baffle one end is dismantled and is put into the water back and reset, disinfection mechanism can be with water disinfection while discharging the other end.

The disinfection mechanism comprises a mounting plate and a ring plate which are connected with the cylinder in a sliding mode, wherein the mounting plate is fixed with the left end of the ring plate, a left pump is arranged on the mounting plate, a first baffle is arranged at the left end of the ring plate, a first ring cavity is arranged between the ring plate and the first baffle, a second baffle is arranged at the left end of the ring plate, and a second ring cavity is arranged between the second baffle and the first baffle.

The left end of the annular plate is provided with a third baffle, a third annular cavity is arranged between the third baffle and the second baffle, the left end of the annular plate is provided with a fourth baffle, and a fourth annular cavity is arranged between the fourth baffle and the third baffle.

The fourth baffle is internally provided with a connecting cavity, and a right pump communicated with the right outside is arranged in the connecting cavity.

The first annular cavity, the second annular cavity, the third annular cavity and the fourth annular cavity are internally provided with a plurality of ultraviolet tubes, and the ultraviolet tubes can emit ultraviolet rays for disinfection.

The first annular cavity is communicated with the second annular cavity through a first connecting port, the second annular cavity is communicated with the third annular cavity through a second connecting port, the third annular cavity is communicated with the fourth annular cavity through a third connecting port, and the fourth annular cavity is communicated with the connecting cavity through a fourth connecting port.

The left baffle plate and the right baffle plate can be removed, then the cylinder is replaced by a pipeline, and water can be continuously purified through the disinfection mechanism.

Compared with the prior art, the utility model has the beneficial effects that:

the utility model can absorb water from one end with water through the disinfection mechanism, then the water is sprayed out after passing through the first annular cavity, the second annular cavity, the third annular cavity, the fourth annular cavity and the connecting cavity in the disinfection mechanism, and the water is always contacted with the ultraviolet tube inside, and is disinfected by the ultraviolet rays emitted by the ultraviolet tube, the water flow has long path and long disinfection time, and the effect is good;

the sprayed water is not mixed with the water which is not sterilized, so that the water can be used after a part of water is sterilized, and the water used cannot be thoroughly sterilized due to short sterilization time;

and can realize the repeated disinfection to water through the right pump and the left pump that start in proper order and be equipped with.

Drawings

FIG. 1 is a schematic view of a water treatment ultraviolet sterilizer according to the present utility model;

FIG. 2 is a schematic three-dimensional view of a water treatment UV sterilizer according to the present utility model after the cylinder is removed;

FIG. 3 is a schematic three-dimensional view of a portion of a ring plate in a water treatment UV sterilizer according to the present utility model;

FIG. 4 is a schematic three-dimensional view of a mounting plate portion of a water treatment UV sterilizer according to the present utility model;

fig. 5 is a left side schematic view of fig. 4.

In the figure: 101. a cylinder; 102. a left baffle; 103. a right baffle; 104. a sterilizing mechanism; 105. a ring plate; 106. a first baffle; 107. a second baffle; 108. a third baffle; 109. a fourth baffle; 111. a first annular cavity; 112. a second annular chamber; 113. a third annular chamber; 114. a fourth annular chamber; 115. a connecting cavity; 116. a first connection port; 117. a second connection port; 118. a third connection port; 119. a fourth connection port; 121. an ultraviolet tube; 122. a right pump; 123. a mounting plate; 124. and a left pump.

Detailed Description

The following description of the embodiments of the present utility model 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 utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1:

referring to fig. 1-5, the present utility model provides a technical solution: the utility model provides a water treatment ultraviolet ray sterilizer, includes drum 101, both ends detachable is equipped with left baffle 102 and right baffle 103 about the drum 101, be equipped with disinfection mechanism 104 in the drum 101, disinfection mechanism 104 is used for disinfecting, left baffle 102 or right baffle 103 one end is dismantled and is put into the water and reset, disinfection mechanism 104 can be with water disinfection while discharging to the other end.

The disinfection mechanism 104 comprises a mounting plate 123 and a ring plate 105 which are connected to the cylinder 101 in a sliding manner, wherein the mounting plate 123 is fixed to the left end of the ring plate 105, a left pump 124 is arranged on the mounting plate 123, a first baffle 106 is arranged at the left end of the ring plate 105, a first ring cavity 111 is arranged between the ring plate 105 and the first baffle 106, a second baffle 107 is arranged at the left end of the ring plate 105, and a second ring cavity 112 is arranged between the second baffle 107 and the first baffle 106.

The left end of the annular plate 105 is provided with a third baffle 108, a third annular cavity 113 is arranged between the third baffle 108 and the second baffle 107, the left end of the annular plate 105 is provided with a fourth baffle 109, and a fourth annular cavity 114 is arranged between the fourth baffle 109 and the third baffle 108.

A connecting cavity 115 is arranged in the fourth baffle 109, and a right pump 122 communicated with the outside on the right side is arranged in the connecting cavity 115.

The first annular cavity 111, the second annular cavity 112, the third annular cavity 113 and the fourth annular cavity 114 are internally provided with a plurality of ultraviolet tubes 121, and the ultraviolet tubes 121 can emit ultraviolet rays for sterilization.

The first annular cavity 111 is communicated with the second annular cavity 112 through a first connecting port 116, the second annular cavity 112 is communicated with the third annular cavity 113 through a second connecting port 117, the third annular cavity 113 is communicated with the fourth annular cavity 114 through a third connecting port 118, and the fourth annular cavity 114 is communicated with the connecting cavity 115 through a fourth connecting port 119.

Example 2:

the left baffle 102 and the right baffle 103 can be removed, and then the cylinder 101 can be replaced with a pipe, so that water can be continuously purified by the sterilizing mechanism 104.

Working principle:

when in use, the left baffle plate 102 or the right baffle plate 103 far away from one end of the disinfection mechanism 104 is taken down, then water to be disinfected is poured in, and the left baffle plate 102 or the right baffle plate 103 is closed;

according to the position of the water, the right pump 122 or the left pump 124 is started, so that the water is sucked into the connecting cavity 115 or the first annular cavity 111, passes through the first annular cavity 111, the second annular cavity 112, the third annular cavity 113, the fourth annular cavity 114 and the connecting cavity 115, and is sterilized by ultraviolet rays through the ultraviolet tube 121;

the sterilized water is sprayed out through the right pump 122 or the left pump 124, so that the sterilizing mechanism 104 is driven to move to the other end, when the sterilizing mechanism moves to contact the left baffle plate 102 or the right baffle plate 103, the right pump 122 or the left pump 124 is started and is not started just, the process is repeated, and the sterilization can be repeated.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a water treatment ultraviolet ray sterilizer, includes drum (101), both ends detachable is equipped with left baffle (102) and right baffle (103) about drum (101), its characterized in that: the cylinder (101) is internally provided with a disinfection mechanism (104), the disinfection mechanism (104) is used for disinfection, one end of the left baffle (102) or the right baffle (103) is detached and put into water for resetting, and the disinfection mechanism (104) can disinfect the water and discharge the water to the other end.

2. A water treatment ultraviolet sterilizer as claimed in claim 1, wherein: the disinfection mechanism (104) comprises a mounting plate (123) and a ring plate (105) which are connected with the cylinder (101) in a sliding mode, the mounting plate (123) is fixed with the left end of the ring plate (105), a left pump (124) is arranged on the mounting plate (123), a first baffle (106) is arranged at the left end of the ring plate (105), a first ring cavity (111) is arranged between the ring plate (105) and the first baffle (106), a second baffle (107) is arranged at the left end of the ring plate (105), and a second ring cavity (112) is arranged between the second baffle (107) and the first baffle (106).

3. A water treatment ultraviolet sterilizer as claimed in claim 2, wherein: the left end of the annular plate (105) is provided with a third baffle (108), a third annular cavity (113) is arranged between the third baffle (108) and the second baffle (107), the left end of the annular plate (105) is provided with a fourth baffle (109), and a fourth annular cavity (114) is arranged between the fourth baffle (109) and the third baffle (108).

4. A water treatment ultraviolet sterilizer as claimed in claim 3, wherein: a connecting cavity (115) is arranged in the fourth baffle (109), and a right pump (122) communicated with the right outside is arranged in the connecting cavity (115).

5. A water treatment ultraviolet sterilizer as defined in claim 4, wherein: the first annular cavity (111), the second annular cavity (112), the third annular cavity (113) and the fourth annular cavity (114) are internally provided with a plurality of ultraviolet tubes (121), and the ultraviolet tubes (121) can emit ultraviolet rays for sterilization.

6. A water treatment ultraviolet sterilizer as defined in claim 5, wherein: the first annular cavity (111) is communicated with the second annular cavity (112) through a first connecting port (116), the second annular cavity (112) is communicated with the third annular cavity (113) through a second connecting port (117), the third annular cavity (113) is communicated with the fourth annular cavity (114) through a third connecting port (118), and the fourth annular cavity (114) is communicated with the connecting cavity (115) through a fourth connecting port (119).

7. A water treatment ultraviolet sterilizer as defined in claim 6, wherein: the left baffle (102) and the right baffle (103) can be removed, and then the cylinder (101) is replaced by a pipeline, so that water can be continuously purified by the disinfection mechanism (104).

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