CN220668238U - Damping structure of window cleaner - Google Patents

Abstract

The damping structure of the window wiper comprises a first wiper body and a second wiper body which can be mutually attracted through glass, wherein magnetic assemblies for attraction are respectively arranged in the first wiper body and the second wiper body; at least one group of ladder structures are arranged in the first wiper body, each ladder structure comprises a plurality of ladder surfaces, and the ladder surfaces are used for supporting and positioning the magnetic components in the first wiper body after moving; when the window cleaner is attracted and magnetically regulated, the magnetic component in the first wiper moves to fall from the high-level step surface to the low-level step surface, so that the magnetic component in the first wiper approaches to the magnetic component in the attracted second wiper; the method is characterized in that: the first wiper body is also provided with a damping structure, and the damping structure is used for reducing impact force generated by the movement of the magnetic component when the window wiper is attracted and magnetically regulated. The damping structure of the utility model ensures that the impact force is small and the noise is small when the product is magnetically regulated, so that the product with the structure has long service life and is more comfortable for users to use.

Description

Damping structure of window cleaner

Technical Field

The utility model relates to a double-sided magnet window cleaner.

Background

Currently, there are many window cleaners on the market, for example, the window cleaner includes a first cleaning body and a second cleaning body that can be attracted to each other through glass, and magnetic components for attraction are respectively disposed in the first cleaning body and the second cleaning body; at least one group of ladder structures are arranged in the first wiper body, each ladder structure comprises a plurality of ladder surfaces, and the ladder surfaces are used for supporting and positioning the magnetic components in the first wiper body after moving; when the window cleaner is attracted and magnetically regulated, the magnetic component in the first wiper moves to fall from the high-level step surface to the low-level step surface, so that the magnetic component in the first wiper approaches to the magnetic component in the attracted second wiper; the magnetic assembly in the first wiper body may be driven in a number of configurations, such as: the magnetic component of the first wiper body comprises a magnetic regulating rod arranged above, and the outer end of the magnetic regulating rod penetrates out of the shell for operation; the first wiper body comprises a shell, a plurality of step surfaces of the step structure are annularly arranged in the shell from high to low, a supporting part which can support and position the step surfaces is arranged on the magnetic regulating rod, and when the window wiper is attracted to regulate magnetism, the magnetic regulating rod can rotate relative to the shell and fall from high to low along the step surfaces through the supporting part, and the magnetic regulating rod falls and drives the magnetic assembly to move. However, the magnetic component falls and moves to generate larger impact force when the window cleaner is attracted and magnetically regulated, so that the product is damaged due to the overlarge impact force and the noise is high.

Disclosure of Invention

One object of the present utility model is: there is provided a window wiper solving the above-mentioned problems.

The damping structure of the window wiper comprises a first wiper body and a second wiper body which can be mutually attracted through glass, wherein magnetic components for attraction are respectively arranged in the first wiper body and the second wiper body; at least one group of ladder structures are arranged in the first wiper body, each ladder structure comprises a plurality of ladder surfaces, and the ladder surfaces are used for supporting and positioning the magnetic components in the first wiper body after moving; when the window cleaner is attracted and magnetically regulated, the magnetic component in the first wiper moves to fall from the high-level step surface to the low-level step surface, so that the magnetic component in the first wiper approaches to the magnetic component in the attracted second wiper; the method is characterized in that: the first wiper body is also provided with a damping structure, and the damping structure is used for reducing impact force generated by the movement of the magnetic component when the window wiper is attracted and magnetically regulated.

In the utility model, the first wiper comprises a shell, the shell comprises an upper shell and a lower shell which are connected with each other, the magnetic component is arranged in the shell and is adjacent to the lower shell, and the damping structure is arranged between the magnetic component and the lower shell. The damping structure can reduce the impact force generated by the movement of the magnetic component when the window cleaner is attracted and magnetically regulated.

In the utility model, a damping structure mounting groove A is arranged in the magnetic component or the lower shell, the non-working end of the damping structure is arranged in the mounting groove A, and the resilience force of the damping structure can assist the return of the magnetic component after movement in the non-suction state of the first wiper. The above structure further optimizes the product.

In the utility model, the magnetic component of the first wiper is provided with the magnetic regulating rod, and the outer end of the magnetic regulating rod penetrates out of the shell for operation; the magnetic adjusting device comprises a shell, a magnetic adjusting rod, a window cleaner, a plurality of ladder faces, a plurality of magnetic adjusting rods, a magnetic adjusting assembly and a magnetic assembly, wherein the ladder faces of the ladder structure are arranged in the shell from high to low in an annular mode, the magnetic adjusting rod is provided with a supporting part which can support and position the ladder faces, and when the window cleaner is attracted to adjust magnetism, the magnetic adjusting rod rotates relative to the shell and can fall from high to low along the ladder faces through the supporting part in a rotating mode, and the magnetic adjusting rod falls and simultaneously drives the magnetic assembly to move downwards. The magnetic regulating structure is simple and easy to operate.

In the utility model, a magnetic component mounting groove B is formed in the shell, and a magnetic component is arranged in the mounting groove B and can move up and down along the mounting groove B in a guiding way; the magnetic adjusting rod is rotatably connected with the magnetic assembly, so that the magnetic adjusting rod rotates relative to the shell to drive the magnetic assembly to move downwards in a guiding way when the window wiper is attracted to adjust magnetism. The above structure further optimizes the product.

The utility model has the advantages that: because the damping structure is arranged in the first wiper body, the damping structure is used for reducing the impact force generated by the movement of the magnetic component when the window wiper is attracted and magnetically regulated; the damping structure has the advantages that the impact force is small and the noise is small when the product is magnetically regulated, so that the product with the damping structure has long service life and is more comfortable for users.

Drawings

Fig. 1 is a schematic sectional view of the structure of the suction state of the window wiper of the present utility model.

Fig. 2 is an exploded view of the first wiper body according to the present utility model.

Fig. 3 is a schematic cross-sectional view of the first wiper body of the present utility model.

Fig. 4 is a schematic view of a magnetic regulating structure of the first wiper of the present utility model.

Detailed Description

The utility model will be further illustrated by the following examples in the figures. Referring to fig. 1 to 4, there is shown: the utility model relates to a damping structure of a window wiper, which comprises a first wiper body 1 and a second wiper body 2 which can be mutually attracted through glass, wherein magnetic assemblies 3 for attraction are respectively arranged in the first wiper body and the second wiper body; at least one group of ladder structures 4 are arranged in the first wiper body, and each ladder structure comprises a plurality of ladder surfaces 5 which are used for supporting and positioning the magnetic components in the first wiper body after moving; when the window cleaner is attracted and magnetically regulated, the magnetic component in the first wiper moves to fall from the high-level step surface to the low-level step surface, so that the magnetic component in the first wiper approaches to the magnetic component in the attracted second wiper; the method is characterized in that: the first wiper body is also provided with a damping structure 12, and the damping structure is used for reducing impact force generated by the movement of the magnetic component when the window wiper is attracted and magnetically regulated.

In an embodiment, the first wiper body comprises a housing 6 comprising an upper housing and a lower housing connected to each other, the magnetic assembly is arranged in the housing and adjacent to the lower housing 7, and the damping structure is arranged between the magnetic assembly and the lower housing; the damping structures arranged between the magnetic component and the lower shell can be multiple groups. The magnetic component or the lower shell is internally provided with a damping structure mounting groove A8, and the non-working end of the damping structure is arranged in the mounting groove A; the damping structures of the prior art are numerous, with the preferred damping structure being cylindrical.

In the embodiment, the magnetic component of the first wiper is provided with a magnetic regulating rod 9, and the outer end of the magnetic regulating rod penetrates out of the shell for operation; the magnetic adjusting rod is provided with a supporting part 10 which can support and position the magnetic adjusting rod with the step surface, and when the window cleaner is attracted to adjust magnetism, the magnetic adjusting rod can rotate relative to the shell through the supporting part to fall from high to low along the step surface, and the magnetic adjusting rod falls down to drive the magnetic assembly to move downwards. The shell is internally provided with a magnetic component mounting groove B, and the magnetic component is arranged in the mounting groove B and can move up and down along the mounting groove B in a guiding way; the magnetic adjusting rod is rotatably connected with the magnetic assembly, so that the magnetic adjusting rod rotates relative to the shell to drive the magnetic assembly to move downwards in a guiding way when the window cleaner is attracted to adjust magnetism; one end of the magnetic regulating rod exposed out of the shell can be provided with a decorative cover 11. The magnetic assembly comprises a connecting plate, a separation frame and magnets, wherein one faces of the plurality of magnets are adsorbed on the connecting plate, and the separation frame separates the plurality of magnets; the magnetic adjusting rod is characterized in that a through hole is formed in the middle of the connecting plate, the magnetic adjusting rod is rotatably buckled at the through hole of the connecting plate through a buckle, or a through hole is formed in the middle of the connecting plate, one end of the magnetic adjusting rod penetrates through the through hole, the other end of the magnetic adjusting rod is larger than the through hole, and after the magnetic adjusting rod is connected with the connecting plate, the magnetic adjusting rod is limited at one end larger than the through hole and is not separated from the connecting plate. The magnetic regulating technology falling with the ladder structure has a plurality of, only one of the above; for example, prior art patent nos.: 202320272587.6, the ladder block structure of which is also one of the glass wiper with magnetic adjusting function; for example, the prior art patent nos.: 202221812909.3 stepped block structure.

The operation process of the embodiment is as follows: when the first wiper body and the second wiper body of the window cleaner are mutually attracted through glass and the magnetic regulating rod is rotated to regulate magnetism, the supporting part falls down from high to low along the step surface, and the magnetic component is driven to approach the second wiper body to regulate magnetism in the process that the magnetic regulating rod falls down relative to the step structure; and the damping structure is used for reducing impact force generated by the movement of the magnetic component in the process that the magnetic component and the magnetic pole fall along the step surface and approach to the second wiper.

Because the damping structure is arranged in the first wiper body, the damping structure is used for reducing the impact force generated by the movement of the magnetic component when the window wiper is attracted and magnetically regulated; the damping structure has the advantages that the impact force is small and the noise is small when the product is magnetically regulated, so that the product with the damping structure has long service life and is more comfortable for users.

The above embodiments are merely examples of the present utility model, and any substitutions or combinations of the embodiments according to the spirit of the present utility model should be construed as not departing from the scope of the present utility model.

Claims (5)

1. The damping structure of the window wiper comprises a first wiper body (1) and a second wiper body (2) which can be mutually attracted through glass, wherein magnetic assemblies (3) for attraction are respectively arranged in the first wiper body and the second wiper body; at least one group of ladder structures (4) are arranged in the first wiper body, each ladder structure comprises a plurality of ladder surfaces (5), and the ladder surfaces are used for supporting and positioning the magnetic components in the first wiper body after moving; when the window cleaner is attracted and magnetically regulated, the magnetic component in the first wiper moves to fall from the high-level step surface to the low-level step surface, so that the magnetic component in the first wiper approaches to the magnetic component in the attracted second wiper; the method is characterized in that: the first wiper body is also provided with a damping structure (12), and the damping structure is used for reducing impact force generated by the movement of the magnetic component when the window wiper is attracted and magnetically regulated.

2. A damping structure for a window wiper as defined in claim 1, wherein: the first wiper body comprises a shell (6), the shell comprises an upper shell and a lower shell which are connected with each other, the magnetic component is arranged in the shell and is adjacent to the lower shell (7), and the damping structure is arranged between the magnetic component and the lower shell.

3. A damping structure for a window wiper as defined in claim 2, wherein: a damping structure mounting groove A (8) is formed in the magnetic component or the lower shell, the non-working end of the damping structure is arranged in the mounting groove A, and the resilience force of the damping structure can assist the return of the magnetic component after movement in a non-suction state of the first wiper.

4. A damping structure for a window wiper as defined in claim 2, wherein: a magnetic regulating rod (9) is arranged on the magnetic component of the first wiper body, and the outer end of the magnetic regulating rod penetrates out of the shell for operation; the magnetic adjusting device comprises a shell, a plurality of ladder faces of the ladder structure, a magnetic adjusting rod, a supporting part (10) and a window cleaner, wherein the ladder faces of the ladder structure are annularly arranged in the shell from high to low, the magnetic adjusting rod is provided with the supporting part (10) which can support and position the ladder faces, and when the window cleaner is attracted to adjust magnetism, the magnetic adjusting rod can rotate relative to the shell and fall from high to low along the ladder faces through the supporting part, and the magnetic adjusting rod falls and drives the magnetic assembly to move downwards.

5. The damping structure for a window wiper as set forth in claim 4, wherein: the shell is internally provided with a magnetic component mounting groove B, and the magnetic component is arranged in the mounting groove B and can move up and down along the mounting groove B in a guiding way; the magnetic adjusting rod is rotatably connected with the magnetic assembly, so that the magnetic adjusting rod rotates relative to the shell to drive the magnetic assembly to move downwards in a guiding way when the window wiper is attracted to adjust magnetism.