阅读说明：本技术 一种玻璃清洁工具 (Glass cleaning tool ) 是由 伊双清 于 2021-03-27 设计创作，主要内容包括：一种玻璃清洁工具,其特征在于前清洁块壳上装配有一条长的手柄,手柄的另外一端装配有储水缸和水压缸,水压缸内装配有活塞,活塞的杆上装配有复位拉簧和连杆,连杆的另一端上又装配有扳机,扳机中部的孔通过销钉同时装配到手柄下部的孔中,水压缸与储水缸联通的一端装配有水压缸盖,后清洁块和前清洁块壳内都设计有喷水孔,该工具的有益效果是采用内部储水及手枪式手柄压水的方式为清洁块提供水源,可以较好地解决现有常见擦玻璃工具使用过程中需要频繁换水及需要清洁其上脏污的问题,以及对于高处的玻璃清洁不便的问题,装置结构简单、实现成本低、应用潜力大。(A glass cleaning tool is characterized in that a long handle is assembled on a front cleaning block shell, a water storage cylinder and a hydraulic cylinder are assembled at the other end of the handle, a piston is assembled in the hydraulic cylinder, a reset tension spring and a connecting rod are assembled on a rod of the piston, a trigger is assembled at the other end of the connecting rod, a hole in the middle of the trigger is simultaneously assembled in a hole in the lower part of the handle through a pin, one end of the hydraulic cylinder communicated with the water storage cylinder is provided with a hydraulic cylinder cover, the rear cleaning block and the front cleaning block are both provided with water spray holes, the tool has the advantages that the cleaning block is provided with a water source by adopting a mode of internal water storage and water pressing by the pistol type handle, can better solve the problems that the prior common glass wiping tool needs to frequently change water and clean dirt on the glass wiping tool in the using process, and the device has simple structure, low realization cost and great application potential.)

1. The utility model provides a glass burnisher, be equipped with a long handle (6) before its characterized in that on cleaning block shell (5), the other one end of handle (6) is equipped with water storage cylinder (11) and hydraulic cylinder (7), be equipped with piston (10) in hydraulic cylinder (7), be equipped with on the pole of piston (10) and reset extension spring (14) and connecting rod (8), be equipped with trigger (9) again on the other end of connecting rod (8), the hole at trigger (9) middle part is assembled in the hole of handle (6) lower part simultaneously through the pin, hydraulic cylinder (7) are equipped with water pressure cylinder cap (13) with the one end of water storage cylinder (11) UNICOM, all design has hole for water spraying (3-2) in back cleaning block shell (3) and preceding cleaning block shell (5).

2. A piston (10) and a hydraulic cylinder head (13) according to claim 1, wherein each is designed with a one-way valve membrane.

Technical Field

The invention relates to a glass cleaning tool, which adopts a mode of internal water storage and pistol type handle water pressing to provide a water source for a cleaning block, and can better solve the problems that the prior common glass cleaning tool needs to frequently change water and clean dirt on the glass in the using process and the high glass is inconvenient to clean. The invention relates to the technical field of mechanical design and the like.

Background

Almost every family has glass, and glass wiping is the routine cleaning work that the family often needs to do. The traditional glass wiping is a time-consuming and labor-consuming work, but in recent years, a so-called glass wiping magic device appears on the market, which adopts two sponges internally provided with magnetic suction devices to be adsorbed on two sides of the glass to be wiped so as to push the sponge on one side of the glass, and the sponge on the other side of the glass to be adsorbed can move synchronously, thereby well achieving the purpose of simultaneously wiping two sides of the glass at one time. However, such devices have their own inherent disadvantages, mainly: firstly, the device needs to be taken down frequently to clean dirt on the device and add water in the using process; and secondly, because the handle is not too long, the glass cannot be used for glass at a high position.

Disclosure of Invention

In order to overcome the defects of the traditional glass wiping tool, the invention adopts a mode of internal water storage and pistol type handle water pressing to provide water source for the cleaning block, can better solve the problems that the prior common glass wiping tool needs to frequently change water and clean dirt on the glass in the using process and the high glass is inconvenient to clean, and has the following specific technical scheme.

The technical scheme of the invention is as follows: a glass cleaning tool is characterized in that a long handle (6) is assembled on a front cleaning block shell (5), a water storage cylinder (11) and a hydraulic cylinder (7) are assembled at the other end of the handle (6), a piston (10) is assembled in the hydraulic cylinder (7), a reset tension spring (14) and a connecting rod (8) are assembled on a rod of the piston (10), a trigger (9) is assembled at the other end of the connecting rod (8), a hole in the middle of the trigger (9) is assembled in a hole in the lower portion of the handle (6) through a pin, a hydraulic cylinder cover (13) is assembled at one end of the hydraulic cylinder (7) communicated with the water storage cylinder (11), and water spray holes (3-2) are formed in the rear cleaning block shell (3) and the front cleaning block shell (5); preferably, the piston (10) and the hydraulic cylinder cover (13) are both provided with a one-way valve membrane.

The glass cleaning device has the advantages that a water source is provided for the cleaning block by adopting an internal water storage and pistol type handle water pressing mode, the problems that water needs to be changed frequently and dirt needs to be cleaned in the use process of the conventional common glass cleaning tool and the high-altitude glass is inconvenient to clean can be solved, and the glass cleaning device is simple in structure, low in implementation cost and large in application potential.

Drawings

The invention is further illustrated with reference to the figures and examples.

FIG. 1 is a side view of the device in operation

FIG. 2 is a perspective view of the device in operation

FIG. 3 is an exploded view of the major components of the device

FIG. 4 rear cleaning block first view exploded view

FIG. 5 rear cleaning block second perspective exploded view

FIG. 6 is a sectional view of the handle press

FIG. 7 is a diagram showing the relative positions of the main components in the water pressurizing device

FIG. 8 is a view showing a structure of a piston device

FIG. 9 structure diagram of hydraulic cylinder head

FIG. 10 is a schematic diagram of the operation of the device during water pressing

In the figure 1, glass, 2, a rear sponge cover, 3, a rear cleaning block shell, 4, a front sponge cover, 5, a front cleaning block shell, 6, a handle, 7, a hydraulic cylinder, 8, a connecting rod, 9, a trigger, 10, a piston, 11, a water storage cylinder and 12, a water pipe are arranged; 3-1, water inlet, 3-2, water jet in figure 4; 2-1. magnet, 2-2. sponge in fig. 5; 10-1 of the figure 7, an air inlet hole, 11-1 of the water storage cylinder cover, 13 of the hydraulic cylinder cover, 14 of the reset tension spring; outlet hole 11-2 in fig. 10.

Detailed Description

The assembling process comprises the following steps: the body part of the invention is assembled first as shown in fig. 3 and then assembled into the handle (6), the hydraulic cylinder (7) and the water reservoir (11) according to the relative positions of the various parts shown in fig. 7. The movement relationship of the parts in the part after assembly is shown in figure 10, wherein one end of a hook at the two ends of the reset tension spring (14) is hung in a small hole on the rod of the piston (10), and the other end is hung on a hanging point at the bottom of the hydraulic cylinder (7).

The working principle of the device is as follows: the connecting rod (8) can push the piston (10) to move towards the hydraulic cylinder cover (13) after the trigger (9) is pulled. At this time, the check valve film (shown in FIG. 8) at the end of the air inlet hole (10-1) in the piston (10) is closed. The check valve diaphragm (shown in fig. 9) on the hydraulic cylinder head (13) opens. The air in the hydraulic cylinder (7) is pressed into the water storage cylinder (11). After the trigger (9) is released, the piston (10) is restored to the initial position under the pulling force of the reset tension spring (14), in the process, the one-way valve film on the hydraulic cylinder cover (13) is closed, the one-way valve film on the piston (10) is opened, and air enters the hydraulic cylinder (7) from the hole at the bottom of the hydraulic cylinder (7) through the air inlet hole (10-1) (as shown in figure 10). After the trigger (9) is pulled again, the piston (10) continues to press air into the water storage cylinder (11), the air pressure in the water storage cylinder (11) is higher than the external air pressure in such a reciprocating manner, the air pressure can press the water pressure at the lower part of the water storage cylinder (11) into the water pipe (12), and water flow enters the rear cleaning block shell (3) and the front cleaning block shell (5) along the water pipe (12). Taking the rear cleaning block shell (3) as an example, water flow specifically enters the rear cleaning block shell (3) from a water inlet (3-1) on the rear cleaning block shell (3) and is sprayed on the rear sponge cover (2) from the inside through a water spraying hole (3-2), and finally water seeps out from the other side of the sponge, so that dirt on one side of the sponge and glass is washed away. The structure and the principle of the front cleaning block are the same as those of the rear cleaning block shell (3), and the detailed description is omitted. The front and the back cleaning blocks are respectively adsorbed on two sides of the glass to be cleaned through magnets (2-1) arranged inside. The handle (6) can be swung forcefully to push the front and the rear cleaning blocks transversely, and other parts of the glass can be cleaned continuously.