TOOL AND METHOD FOR A FAUCET INSTALLATION

Abstract

A tool and method for a faucet installation is disclosed. Both sides of the T-shaped flange are provided with screw holes, guide grooves, a first step, and a second step. A tightening screw is arranged in the screw hole, and the tightening screw is threadedly connected with the tightening component. The tightening screw controls the tightening part in the T-flange to rotate and unfold from the first step, and then fit in the guide groove and tighten upward, tighten and fix the T-flange in the faucet fixing hole of the sink, and then connect and fix the faucet with the fixing device to realize the operation and installation of the faucet on the front of the sink. The fixing device can be installed and fixed by rotating the two tightening screws in the positive direction.

Description

CROSS REFERENCE TO RELATED APPLICATIONS

This patent application claims the priority of Chinese patent application Ser. No. 2020221225364 filed Oct. 9, 2020, which is incorporated by reference herein.

TECHNICAL FIELD

The invention relates to the field of plumbing device and plumbing fittings, in particular to a tool and method for convenient installation of faucets.

Background

Most of the existing faucets connect the faucet and the fixing nut through a threaded pipe during installation, and the fixing nut tightens the faucet from the lower end of the sink and fixes the faucet in the fixing hole of the sink. When installing and fixing the faucet to the fixing hole of the sink, it is very difficult to install, because the sink has a downwardly concave water storage part, and the fixing hole is behind the water storage part, and the back of the sink is fixed to the wall. Therefore, when the faucet is installed, it will be limited by space. The line of sight is not visible. It is difficult for the fixing nut to be installed with the screw thread. Space is limited. The rotation of the fixing nut makes it difficult to fix the faucet. Face-up installation and rotation of the nut to fix is labor intensive, and often due to space constraints, tools are also difficult to use, and the problem of improper installation frequently occurs. Therefore, the convenient installation of the faucet has become a technical problem to be solved.

INVENTION SUMMARY

In order to solve the problems of faucet installation limited by space, difficulty in installation, troublesome operation, installation limited by professionals, inconvenient installation and high labor intensity, the present embodiment provides a convenient installation and fixing device for faucet, which is installed on the front side. In the faucet fixing hole of the sink, the faucet is installed on the connecting device for fixing, so that the faucet can be installed on the front of the sink. The tool can be installed and fixed by rotating the two tightening screws in the forward direction. Anyone who understands the mechanical principle can perform the installation. It does not need a professional master to install, and can simply and conveniently put the faucet on the sink for use. There is no need for an installer to install at the bottom of the sink. This reduces labor intensity and improves the installation of the faucet. Accuracy and robustness, low manufacturing cost, strong stability, and convenient for future maintenance and replacement of faucets and accessories, is the benefit of the current invention.

The technical solution adopted by the present invention to solve the technical problem is: a convenient installation and fixing device for a faucet, including a T-shaped flange, a tightening part, a tightening screw, and a faucet connecting part, and both sides of the T-shaped flange are provided with screw holes, a guide groove, first step, second step, the screw hole of the T-shaped flange is provided with a tightening screw, the lower end of the tightening screw is connected with the threaded connection part of the tightening component, and the tightening screw can be controlled. The tightening component rotates to unfold or rotates to close in the first step. The tightening screw can be rotated in the positive direction to control the tightening component to rotate, expand and fit in the guide groove to tighten upwards, and tighten and fix the T-shaped flange on the faucet fixing hole of the sink, the reverse movement of the tightening screw can control the tightening component to fit in the guide groove and move down to the first step to rotate and enter the T-shaped flange to be folded.

The tightening component is provided with an outer shoulder and a threaded connection. The outer shoulder is larger than the guide groove, and the threaded connection is smaller than the outer shoulder and can be installed into the guide groove. Under the pulling of the tightening screw, the threaded connection can be guided to move inside the groove, and the outer shoulder can only move against the outer wall of the T-flange.

The inside of the T-shaped flange is provided with two screw holes symmetrical to each other. A tightening screw can be installed in the screw hole. The tightening screw is installed into the screw hole for damping and clamping, and it is rotated and retracted under the action of the external force of the screwdriver. When the screw is tightened, the tightening screw can be turned. When the tightening screw is not turned, the tightening screw is still and clamped in the screw hole.

The lower end of the tightening screw is connected to the threaded hole of the threaded connection part of the tightening component, and the tightening screw is connected to the threaded hole for damping and clamping. When the tightening screw rotates, the tightening component can be driven to tighten. The screw rotates synchronously with the shaft.

The positive rotation of the tightening screw can drive the tightening part to rotate out of the first step from the inside of the T-shaped flange with the tightening screw as the axis, until the threaded connection part of the tightening part touches the side of the second step. When the tightening component stops rotating, and the tightening screw continues to rotate to overcome the damping of the connection between the tightening screw and the thread hole, and the threaded connection part starts to move upwards into the guide groove in the thread of the tightening screw.

The top of the T-shaped flange is provided with a connecting part to connect and fix the faucet, and the middle of the T-shaped flange can pass through the water inlet pipe to connect with the water inlet provided in the bottom of the faucet.

The top diameter of the T-shaped flange is larger than the diameter of the faucet fixing hole of the sink.

The connecting part at the top of the T-shaped flange is provided with a connecting concave clamping position, which can be matched and clamped with the connecting convex clamping position of the faucet connecting part to connect and fix the faucet connecting part with the top of the T-shaped flange.

The faucet connecting part is provided with a connecting convex locking position and an outer thread. The outer thread can be connected with the inner thread in the bottom of the faucet, when the outer thread of the faucet connecting part and the inner thread in the bottom of the faucet are connected and fixed to each other, The faucet connecting part and the faucet form a whole.

The faucet connecting component also includes a design that can be integrated with the faucet when the faucet is manufactured, and the manufactured faucet has a connecting convex position, which can directly connect and fix the faucet with the T-flange connection part.

The connection part at the top of the T-shaped flange further includes a screw and a faucet connection part for connection and fixing.

Before the convenient installation and fixing device of the faucet is installed, a tightening screw and a tightening part are installed in the T-shaped flange, and the tightening part is in a closed and static state when the tightening part is in the T-shaped flange. When installing the faucet on the sink, you need to install the lower end of the T-flange of the faucet fixing device into the faucet fixing hole of the sink, and turn the tightening screw in the forward direction to control the tightening part from the inside of the T-flange. The step rotates and expands into the guide groove to tighten upwards, tighten and fix the T-shaped flange in the faucet fixing hole of the sink, and then connect and fix the faucet and the fixing device as a whole, which completes the convenient installation of the faucet.

The beneficial effects of the present invention are: a convenient installation and fixing device for a faucet, by providing a screw hole, a guide groove, a first step, and a second step on both sides of the T-shaped flange, and tightening screws are arranged in the screw holes. The tightening screw is connected to the threaded connection part of the tightening part. The tightening screw can control the tightening part in the T-shaped flange to rotate and unfold from the first step, and then fit in the guide groove and tighten upward. The lanyard is tightened and fixed in the faucet fixing hole of the sink, and then the faucet is connected and fixed with the fixing device, so that the faucet can be installed on the front of the sink. No installer is required to install it at the bottom of the sink. This reduces labor intensity. The device can be installed and fixed by turning the two tightening screws in the forward direction. Users who do not understand the mechanical principle can do the installation. No professionals are required to install. This improves the convenience and firmness of the faucet installation, and has low manufacturing cost and stability. It is good and convenient for future maintenance. It solves the problems of limited space, difficult installation, insufficient installation speed, inconvenient installation and high labor intensity during installation of the existing faucet, or the need to drill to the bottom of the sink for installation.

DESCRIPTION OF THE DRAWINGS

The present invention embodiment will be further described with reference to the drawings and embodiments.

FIG. 1 is a perspective view of a T-flange;

FIG. 2 is the bottom view of the T-flange;

FIG. 3 is a view of the tightening parts installed in the T-flange;

FIG. 4 is a view of the tightening part rotating and unfolding from the inside of the T-shaped flange;

FIG. 5 is a view of the tightening component in the guide groove when it is fitted and tightened upwards;

FIG. 6 is a view of the connecting part of the faucet;

FIG. 7 is a view from the inside of the bottom of the faucet;

FIG. 8 is a view of the water inlet pipe when the faucet connecting part and the faucet are connected and fixed as a whole;

FIG. 9 is a view of the installed and used state of the faucet;

FIG. 10 is a sectional view of the second embodiment of the fixed installation of the faucet; and

FIG. 11 is an exploded view of the fixed installation of the faucet of the second embodiment.

In the picture: 1. T-shaped flange, 3. Faucet connection part, 4. Screw hole, 11. Guide groove, 12, First step, 13, Second step, 14. Connection recessed position, 15, Screw counterbore, 16, screw hole, 21, outer shoulder, 22, threaded connection, 23, tightening screw, 31, outer thread, 32, connecting convex position, 33, cover, 34, through hole, 35, inner Screw thread, 36, water inlet, 37, water inlet pipe.

DESCRIPTION OF THE EMBODIMENT AND IMPLEMENTATION OF THE METHOD

In the embodiment shown in FIGS. 1 and 2, the diameter of the top of the T-shaped flange 1 is larger than the diameter of the faucet fixing hole of the sink. The two sides of the T-shaped flange 1 are provided with guide grooves 11 and screw holes 16 respectively. The first step 12, the second step 13 can be installed in the guide grooves 11 on both sides of the T-shaped flange 1 respectively to install tightening components, the lower end of the T-shaped flange 1 is provided with a first step 12 and a second step 13. The first step 12 is lower than the second step 13, and the tightening component can be rotated and unfolded from the first step 12 of the T-shaped flange 1, or rotated and collapsed into the T-shaped flange 1.

In the embodiment shown in FIGS. 3 to 5, the T-shaped flange 1 is equipped with a tightening screw 23 and a tightening part, and the tightening part is in the T-shaped flange 1 in a closed static state, which can be rotated out of the first step 12 of the T-shaped flange 1 from the folded state, and when the tightening screw 23 rotates, the tightening member is driven to rotate synchronously with the tightening screw 23 as the axis.

The tightening component is provided with an outer shoulder 21 and a threaded connecting portion 22. The outer shoulder 21 is larger than the guide groove 11, and the threaded connecting portion 22 is smaller than the outer shoulder 21. It can be fitted into the guide groove to fit, and tighten the screw 23. Under the occlusal pull, the threaded connection part 22 can move in the guide groove 11, and the outer shoulder 21 can only move against the outer wall of the T-shaped flange 1.

The T-shaped flange 1 is provided with two screw holes 16 symmetrical to each other. A tightening screw 23 can be installed in the screw hole 16, and the tightening screw 23 is installed into the screw hole 16 for damping and clamping, by static friction. The tightening screw 23 can only be rotated when the tightening screw 23 is rotated under the action of the external force of the screwdriver. When the tightening screw 23 is not rotated, the tightening screw 23 is statically clamped in the screw hole 16. Alternatively, you can add viscous damping glue to the screw hole 16, so that the tightening screw 23 can be installed into the screw hole 16 to be stationary, and the rotation force of the tightening screw 23 is greater than the viscous force when the tightening screw 23 is rotated under the action of the external force of the screwdriver, which makes the tightening screw 23 to rotate.

The advantage of installing the tightening screw 23 into the screw hole 16 as a damping card is that the tightening screw 23 can be stationary in the screw hole 16 without rotating when the tightening screw 23 is not rotated by an external force.

The lower end of the tightening screw 23 is connected with the threaded hole of the threaded connecting portion 22 of the tightening component, and the tightening screw 23 is connected with the threaded hole of the threaded connecting portion 22 for damping fit and clamping, (i.e., static friction fits clamping tightening, when the tightening screw moves relative to the thread hole and overcomes the static friction force, the threads of the threaded connection part bite into the tightening screw thread movement), the tightening screw 23 can drive the tightening part to tighten the screw when the tightening screw 23 rotates in the synchronous rotation of the shaft. In one embodiment, it also includes dripping viscous damping glue into the threaded holes of the threaded connecting portion 22, so that the threaded connecting portion 22 is installed on the lower end of the tightening screw 23 to be statically connected, and the tightening screw is rotated under the action of the external force of the screwdriver. When the rotation force of 23 is greater than the viscous force, the threads of the threaded connection portion 22 bite into the threads of the tightening screw 23 to move relative to each other.

The advantage of the tightening screw 23 and the threaded connecting portion 22 threaded hole is damping fit and clamping, so that the tightening screw 23 and the tightening part can be statically connected as a whole when not rotated by external force, and no mutual rotation occurs. The tightening part can be installed in the T-shaped flange 1 to stand still. When the tightening screw 23 rotates, the tightening part is controlled to rotate synchronously with the tightening screw 23 as the axis, and the tightening part is caused by the second step 13 when the side stops rotating, the synchronous motion is transformed into the mutual biting motion of the screw teeth, which realizes that the tightening part is installed in the T-flange 1 to stand still, and the tightening screw 23 is turned to unfold, and then tightens upwards.

In the embodiment shown in FIGS. 4 and 5, the first step 12 and the second step 13 are provided on both sides of the T-shaped flange 1. The advantage is that the tightening part is retracted inside the T-shaped flange 1. In the static state, the tightening screw 23 rotates in the positive direction to drive the tightening part to rotate out of the first step 12 from the inside of the T-shaped flange 1 with the tightening screw 23 as the axis, until the tightening part is unfolded. When the threaded connection 22 touches the side of the second step 13, the tightening part stops rotating, and the tightening screw 23 continues to rotate to overcome the damping of the tightening screw 23 and the threaded hole. At this time, the threaded connection 22 is tightening the screw 23. The thread starts to bite and move upwards, the threaded connection portion 23 enters the guide groove, and the outer shoulder 21 of the tightening component fits the outer wall of the T-flange and tightens upwardly.

The connecting portion at the top of the T-shaped flange 1 is provided with a connecting concave latching position 14, which can be matched with the connecting convex latching position 32 of the faucet connecting part 3, to connect the faucet connecting part 3 with the T-shaped flange 1.

The middle of the T-shaped flange can pass through the water inlet pipe and be connected in series with the water inlet in the faucet. The side of the connecting part of the T-shaped flange can also be provided with a screw counterbore 15, and the screw counterbore 15 can be installed and fixed. The screw connects the connection part of the faucet connecting part 3 and the T-flange 1 and fixes it, and a matching decorative cover can be installed in the screw counterbore 15 to cover the fixing screw inside, and the fixing screw is hidden in the screw counterbore 15.

In the embodiment shown in FIGS. 6-9, the inner thread 35 and the water inlet 36 are arranged inside the bottom of the faucet. The water inlet 36 can be connected and fixed with the water inlet pipe 37, and the water inlet pipe 37 can be installed through the T-shaped flange after the inside is connected to the tap water pipe, tap water can flow into the tap through the water inlet pipe 37. In one embodiment, if the faucet is a hot and cold regulating faucet, two water inlets 36 are provided in the bottom of the faucet to be fixedly connected to the cold water inlet pipe and the hot water pipe, respectively.

The faucet connecting part 3 is provided with a connecting convex locking position 32 and an outer thread 31. The outer thread 31 can be connected and fixed with the inner thread 35 in the bottom of the faucet. After the inner threads 35 of the faucet are connected and fixed to each other, the faucet connecting part 3 and the faucet form a whole.

In one embodiment, the faucet connecting part 3 can also be integrated with the faucet when the faucet is manufactured, and the manufactured faucet has a connecting convex position, which can directly connect and fix the faucet and the T-flange 1 connection part.

In the embodiment shown in FIGS. 3 and 9, before the installation of the faucet convenient installation and fixing device, the tightening screws and tightening parts have been installed in the T-shaped flange 1, and the tightening parts are in the T-shaped flange. The inside of flange 1 is in a closed and static state. When it is necessary to install a faucet on the sink, install the lower end of the T-flange 1 of the faucet fixing device into the faucet fixing hole of the sink, and turn the tightening screw 23 in the positive direction to control the tightening part to take the tightening screw 23 as the axis The core rotates out of the T-shaped flange 1 from the first step 12 and unfolds until the threaded connection part 22 of the tightening part touches the side of the second step 13, the tightening part stops rotating, and the tightening screw 23 continues to rotate the threaded connection. The part 22 begins to move upwards into the guide groove 11 in the thread of the tightening screw 23, and the outer shoulder 21 of the tightening part fits the outer wall of the T-flange 1 and tightens upwards. At this time, the tightening part of the outer shoulder 21 is larger than the faucet fixing hole of the sink, and the T flange 1 is tightened and fixed in the faucet fixing hole of the sink, and then the faucet connecting part that is connected and fixed as a whole with the faucet is installed into the T flange 1. The top connection is fixed, which signals the convenient final installation of the faucet.

When it is necessary to remove the faucet fixing device, you may only need to reversely turn the tightening screw 23 to control the downward movement of the tightening part in the guide groove 11, and when the tightening part moves to the first step 12, the tightening screw 23 is used as the axis. The core rotates and enters into the T-shaped flange 1 to be folded, and the faucet fixing device can be taken out, which is convenient for future disassembly and maintenance.

After the faucet is quickly and conveniently installed, connected and fixed, in order to prevent the faucet from being manually disassembled, you can install the fixing screw in the screw counterbore 15 of the connection part of the T-flange 1. The connecting part and the faucet connecting part 3 are further fixedly connected and fixed to prevent the faucet from being easily forcibly removed by hand, and then use a decorative cover to install into the screw counterbore 15 to cover the fixed screw, which plays a role of beautiful decoration.

In another embodiment of the faucet installation connection shown in FIGS. 10 and 11, the screw connection is used to replace the connection female buckle 14 and the connection male buckle 32 for clamping connection and fixing. The connecting part of the T-shaped flange 1 is provided with a screw hole 4, and the T-shaped flange 1 and the faucet connecting part 3 are connected and fixed by screws. The outer thread 31 of the faucet connecting part 3 and the inner thread of the faucet are mutually connected.

A number of screw holes 4 are provided on the connecting part of the top of the T-shaped flange 1, and the lower end of the faucet connecting part 3 is provided with a cover 33 capable of covering the connecting part of the T-shaped flange 1. The end surface is provided with a number of through holes 34 matching the screw holes 4, and the faucet connecting part 3 is connected and fixed with the top of the T-shaped flange 1 through the through holes 34 of the cover 33 of the faucet connecting part 3 through the fixing screws, so as to connect the faucet with the T flange 1.

In addition to the connection methods in the foregoing embodiments, there may be multiple connection methods. For example, the faucet can be connected and fixed with the T-shaped flange 1 by installing fixing screws on the side.

The basic principles and main features of the present invention are shown and described above, and are not limited to current embodiments. The positive rotation of the tightening screw 23 in the present application refers to the clockwise rotation of the tightening screw 23. Those skilled in the industry should understand that the present invention is not limited by the above-mentioned embodiments. The above-mentioned embodiments and the description only illustrate the principles of the present invention. Various other methods can be used without departing from the spirit and scope of the present invention. Changes and improvements, these changes and improvements fall within the scope of protection, and the scope of protection of the present invention is defined by the appended claims and their equivalents.

Claims

1. A tool for faucet installation, comprising: a T-shaped flange;a tightening part;a tightening screw; anda faucet connecting part, wherein: both sides of the T-shaped flange are provided with screw holes, guide grooves, and a first step, a second step, the screw hole of the T-shaped flange is provided with a tightening screw, and the lower end of the tightening screw is connected with the threaded connection part of the tightening part, wherein the tightening screw controls the tightening part to be at the first step, wherein the tightening screw can be rotated and unfolded in the middle rotation to unfold or rotate to close, wherein the tightening screw can be rotated in the forward direction to control the tightening part to fit in the guide groove and tighten upwards, and the T-shaped flange is tightened and fixed to the faucet fixing hole of the sink, wherein, the reverse movement of the tightening screw can control the tightening part to rotate into the T-shaped flange when it fits in the guide groove and moves downward to the first step.

2. The tool according to claim 1, wherein the tightening part comprises: an outer shoulder; anda threaded connection part,wherein the outer shoulder is larger than the guide groove, and the part of threaded connection smaller than the outer shoulder can be installed into the guide groove and can move along the guide groove under the pulling of the tightening screw while the outer shoulder can only move against the outer wall of the T-shaped flange.

3. The tool according to claim 1, wherein the T-shaped flange is provided with two screw holes symmetrical to each other, and the tightening screw is installed into the screw hole for damping and clamping.

4. The tool according to claim 3, wherein the tightening screw can only be rotated under the action of the external force of the screwdriver, when the tightening screw is not rotated, the tightening screw is stationary in the screw hole stuck tightly.

5. The tool according to claim 1, wherein the lower end of the tightening screw is connected with the threaded hole of the threaded connection part for damping and clamping, and the tightening screw can be rotated when the tightening screw rotates synchronously with the tightening screw as the axis.

6. The tool according to claim 5, wherein the tightening screw drives the tightening part to take the tightening screw as the axis from the first step from the inside of the T-shaped flange to rotate to expand to the positive rotation of the tightening screw.

7. The tool according to claim 6, wherein when the threaded connection part of the tightening component touches the side of the second step, the tightening component stops rotating, and the tightening screw continues to rotate forward to overcome the damping of the connection between the tightening screw and the thread hole, the threaded connection part starts to move upwards into the guide groove in the thread of the tightening screw.

8. The tool according to claim 1, wherein the top of the T-shaped flange is provided with a connecting part to connect and fix the faucet, and the middle of the T-shaped flange can pass through the water inlet pipe and water inlet connection set inside the bottom of the faucet.

9. The tool according to claim 1, wherein the faucet connecting part is provided with a connecting convex locking position and an outer thread, and the outer thread can be connected with the inner thread in the bottom of the faucet to form a whole set.

10. The tool according to claim 9, wherein the connecting portion at the top of the T-shaped flange is provided with a connecting concave clamping position, and the connecting concave clamping position can be connected to the connecting part of the faucet convex clamping position which is matched and clamped, and the connecting part of the faucet is connected and fixed to the top of the T-shaped flange.