CN219773890U - Electronic lock for frameless glass door - Google Patents

Abstract

The utility model provides an electronic lock for a frameless glass door, which comprises a lock body and an outer cover plate, wherein the lock body comprises a lock shell, a baffle plate and an inner cover plate, the baffle plate is arranged at one end of the inner cover plate, and the lock shell and the baffle plate are positioned at the same side in the thickness direction of the inner cover plate; the lock shell is embedded in the notch of the glass door, the inner cover plate abuts against one side of the glass door, which is positioned indoors, and the baffle abuts against one side of the glass door, which is provided with the notch; the lock shell is hollow, a first lock tongue avoiding hole is formed in the baffle, the first lock tongue avoiding hole is communicated with the inner cavity of the lock shell, and a movable lock tongue is arranged in the lock shell corresponding to the first lock tongue avoiding hole; the outer cover plate is arranged on one side of the lock shell, which is away from the inner cover plate, and the outer cover plate abuts against the glass door and is positioned on one side of the outdoor; the outer cover plate is provided with an outer handle, the inner cover plate is provided with an inner handle, and the inner handle is detachably and fixedly connected with the inner cover plate, the lock shell and the outer cover plate and the outer handle through a connecting structure. With the help of the inner cover plate, the outer cover plate and the baffle, the integral door lock meets the installation requirement of the frameless glass door, has a simple structure, is convenient to install and saves cost.

Description

Electronic lock for frameless glass door

Technical Field

The utility model relates to the technical field of glass door lock production, in particular to an electronic lock for a frameless glass door.

Background

Due to the characteristics of good permeability, decoration, sealing and the like, glass doors gradually replace wood doors, and become the main stream in the field decoration of enterprises, office buildings and the like.

At present, in order to improve the universality of the door lock, the integrated wood door lock is matched with the glass door, so that the manufacturing cost of enterprises is saved, and a notch is usually formed in the side edge of the glass door to install the integrated door lock in the industry; in the related art, a lock body of an integrated door lock is embedded in a notch at the side edge of a glass door, and the lock body is limited at the notch by utilizing a metal frame of the glass door; the spring bolt activity of integral type lock sets up in the position of the corresponding notch of metal frame to with install the lock box adaptation on the door frame.

In view of the above-mentioned related art, the inventor believes that the above-mentioned integral door lock structure cannot be applied to a frameless glass door, and needs to design a new lock structure to realize the installation requirement of the integral door lock on the frameless glass door.

Disclosure of Invention

The utility model aims to provide an electronic lock for a frameless glass door, which is used for realizing the installation of an integrated door lock on the frameless glass door.

The technical scheme provided by the utility model is as follows:

the utility model provides an electronic lock for a frameless glass door, which comprises:

the lock body comprises a lock shell, a baffle plate and an inner cover plate, wherein the baffle plate is arranged at one end of the inner cover plate and is perpendicular to the inner cover plate, and the lock shell and the baffle plate are positioned at the same side in the thickness direction of the inner cover plate; the lock shell is embedded in a notch of the glass door, one side of the inner cover plate, which is close to the lock shell, abuts against one side of the glass door, which is positioned indoors, and one side of the baffle, which is close to the lock shell, abuts against one side of the glass door, which is provided with the notch;

the lock shell is hollow, a first lock tongue avoiding hole is formed in the baffle, and the first lock tongue avoiding hole is communicated with the inner cavity of the lock shell; a movable lock tongue is arranged in the lock shell corresponding to the first lock tongue avoiding hole;

the outer cover plate is arranged on one side of the lock shell, which is away from the inner cover plate, and the outer cover plate abuts against one side of the glass door, which is located outdoors;

the outer cover plate is provided with an outer handle, the inner cover plate is provided with an inner handle, a connecting structure is arranged between the inner handle and the outer handle, and the inner handle is detachably and fixedly connected with the inner cover plate, the lock shell and the outer cover plate through the connecting structure.

According to the electronic lock for the frameless glass door, the lock shell is embedded in the notch in actual installation, the inner cover plate is installed on the indoor side wall of the glass door through the connecting structure, the outer cover plate is installed on the outdoor side wall of the glass door, and the baffle plate is fixed on the side wall of the notch formed in the glass door, so that the installation requirement of the integrated door lock on the frameless glass door is met; and the installation structure is simple, and convenience of production and installation is guaranteed.

In some embodiments, an asbestos pad is provided between the lock housing and the outer cover plate, and between the lock housing and the inner cover plate, the asbestos pad being used to protect the glass door, adjust the gap between the glass door and the outer cover plate.

According to the electronic lock for the frameless glass door, the integrated door lock is of a metal structure, and the glass door is separated from the corresponding inner cover plate and the corresponding outer cover plate by using the asbestos pad, so that the situation that the glass door is damaged by the metal cover plate is reduced, and the service life of the glass door is prolonged; meanwhile, the asbestos pad is arranged in a pad mode, gaps between the corresponding inner cover plate and the corresponding outer cover plate and the glass door are adjusted, so that the integral door lock of the same model can meet the installation requirements of frameless glass doors with different thicknesses, the application range of the electronic lock can be enlarged, and the practicability of the electronic lock can be improved.

In some embodiments, the inner handle includes a first handle body and a first mounting base, the first handle body being fixedly disposed at one side of the first mounting base in a thickness direction; the lock shell penetrates through the glass door in the thickness direction, a handle square rod is arranged on the first handle body, a first square hole round rod is arranged on the first handle body corresponding to the handle square rod, the first square hole round rod penetrates through the first installation base in the thickness direction of the first installation base, and the first square hole round rod is fixedly connected with the first installation base through a first clamp spring.

According to the electronic lock for the frameless glass door, the handle square rod is installed on the inner handle by the aid of the first square hole round rod, and the first square hole round rod is fixedly connected with the first installation base by the aid of the clamp spring, so that the electronic lock is simple in structure, convenient to manufacture and beneficial to saving of production cost of enterprises.

In some embodiments, the connecting structure comprises a connecting screw, the connecting screw is arranged on the inner handle, a first inner threaded pipe is arranged on the first handle body corresponding to the connecting screw, and the first inner threaded pipe penetrates through the first mounting base in the thickness direction of the first mounting base and is fixedly connected with the first mounting base.

According to the electronic lock for the frameless glass door, the inner handle, the inner cover plate, the lock shell, the outer cover plate and the outer handle are connected through the connecting screws, so that the electronic lock is mounted on the glass door, the connecting structure is simple, and the manufacturing cost of enterprises is further saved.

In some embodiments, a side of the first handle body facing away from the first mounting base is provided with a first handle panel, a first magnet is provided on the first handle body, and the first handle panel is adsorbed on the first handle body through the first magnet.

According to the electronic lock for the frameless glass door, the first magnet is utilized to realize the installation of the first handle panel on the first handle body, the connection mode is simple, and the installation convenience of the electronic lock is improved.

In some embodiments, the first handle body is provided with a first detaching hole for assisting in detaching the first handle panel.

According to the electronic lock for the frameless glass door, provided by the utility model, in actual operation, the first handle panel is pushed through the first detaching hole, the first handle panel is detached from the first handle body, the structure is simple, the operation is convenient, and convenience in detaching the electronic lock is guaranteed.

In some embodiments, the outer handle includes a second handle body, a second mounting base, and a second handle panel, and the connection mode of the second handle body, the second mounting base, and the second handle panel is the same as the connection mode of the first handle body, the first mounting base, and the first handle panel.

According to the electronic lock for the frameless glass door, the outer handle and the inner handle are of the same structure, so that on one hand, the appearance of the outer handle is kept consistent with that of the inner handle, and the integral attractive degree of the electronic lock is improved; on the other hand, the door lock handle die sinking frequency is reduced, and the manufacturing and inventory cost of enterprises is reduced.

In some embodiments, one side of the second handle body, which deviates from the second mounting base, is provided with a fingerprint sensing head, a fingerprint control module and a battery module are arranged in the second handle body, the fingerprint control module is used for receiving fingerprint signals and controlling the movable lock tongue to retract into or extend out of the lock shell, the battery module supplies power for the fingerprint sensing head and the fingerprint control module, and a round avoidance hole is formed in the second handle panel corresponding to the fingerprint sensing head.

According to the electronic lock for the frameless glass door, the fingerprint sensing head is arranged on the outer handle, and the electronic lock is set to be the fingerprint lock due to the uniqueness of fingerprints, so that the safety level of the electronic lock is improved; on the other hand, the glass door is controlled to be opened or closed through fingerprint induction, so that convenience in opening and closing the door is improved.

In some embodiments, a second square hole round rod and a second internal thread tube are arranged in the second handle body, the second internal thread tube is fixedly connected with the second installation base, and the second square hole round rod is fixedly connected with the second installation base through a second clamp spring.

According to the electronic lock for the frameless glass door, the connection of the handle square rod and the connecting screw on the external handle is realized by means of the second square hole round rod and the second internal thread pipe, so that the structure is simple, the manufacturing is convenient, and the production cost of enterprises is effectively reduced.

In some embodiments, the device further comprises a lock catch box, wherein the lock catch box comprises a lock catch box body which is arranged in a hollow manner; a mounting plate is fixed on one side of the buckle box body, which is close to the lock body, and the mounting plate is mounted on the door frame through a connecting bolt; the mounting plate is provided with a second lock tongue avoiding hole which is communicated with the inner cavity of the buckle box body; a third magnet is arranged in the buckle box body; when the glass door is closed, the third magnet sucks the movable lock tongue into the buckle box body from the lock shell, so that the door frame can be automatically locked.

According to the electronic lock for the frameless glass door, when the glass door is closed, the movable lock tongue is sucked into the buckle box body by the third magnet, so that an automatic locking function is realized, and the use safety of the electronic lock is further improved.

Compared with the prior art, the electronic lock for the frameless glass door has at least one of the following beneficial effects:

1. the lock shell is limited in the notch of the glass door by the inner cover plate, the outer cover plate and the baffle plate, so that the application of the integrated door lock on the frameless glass door is realized; the electronic lock is mounted on the frameless glass door by means of the connecting screw, the electronic lock is simple in integral structure and convenient to mount, and production cost of enterprises is effectively saved;

2. by arranging the asbestos pad, on one hand, the abrasion of the inner cover plate and the outer cover plate to the glass door is reduced, and the glass door is protected; on the other hand, the distance between the inner cover plate, the outer cover plate and the glass door is adjusted, so that the electronic lock meets the installation requirements of frameless glass doors with different thicknesses, and the applicability of the electronic lock is effectively improved;

3. the electronic lock is controlled to be locked and unlocked by the fingerprint sensing head and the fingerprint control module, and the automatic locking function of the electronic lock is realized by combining a third magnet, so that the use safety of the electronic lock is effectively ensured.

Drawings

The above features, technical features, advantages and implementation modes of the present utility model will be further described in the following description of preferred embodiments with reference to the accompanying drawings in a clear and understandable manner.

FIG. 1 is a schematic plan view of an electronic lock for a frameless glass door according to an embodiment of the present utility model in an installed state;

FIG. 2 is an exploded view of an embodiment of the present utility model that primarily embodies the overall structure of the lock body;

fig. 3 is an exploded view of the overall structure of the electronic lock for a frameless glass door according to the embodiment of the present utility model.

Reference numerals illustrate:

1. a lock case; 11. the square rod penetrates into the hole; 111. an avoidance groove; 12. a screw penetrating hole; 13. a handle square bar; 2. a baffle; 21. the first lock tongue avoiding hole; 3. an inner cover plate; 31. a through hole; 32. perforating; 4. an outer cover plate; 5. an outer handle; 51. a second mounting base; 52. a second handle body; 521. a fingerprint sensor; 522. a fingerprint control module; 523. a battery module; 524. a second magnet; 525. a second internally threaded tube; 53. a second handle panel; 531. avoiding the round hole; 6. an inner handle; 61. a first mounting base; 611. a first clamp spring; 62. a first handle body; 621. a first internally threaded tube; 622. a first square hole round bar; 623. a first release hole; 63. a first handle panel; 7. a connecting screw; 8. a locker; 81. a mounting plate; 82. a buckle box body; 9. a glass door.

Detailed Description

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the following description will explain the specific embodiments of the present utility model with reference to the accompanying drawings. It is evident that the drawings in the following description are only examples of the utility model, from which other drawings and other embodiments can be obtained by a person skilled in the art without inventive effort.

For the sake of simplicity of the drawing, the parts relevant to the present utility model are shown only schematically in the figures, which do not represent the actual structure thereof as a product. Additionally, in order to simplify the drawing for ease of understanding, components having the same structure or function in some of the drawings are shown schematically with only one of them, or only one of them is labeled. Herein, "a" means not only "only this one" but also "more than one" case.

In one embodiment, referring to fig. 1 and 2 of the drawings, an electronic lock for a frameless glass door 9 comprises a lock body, wherein the lock body comprises a lock shell 1, a baffle plate 2 and an inner cover plate 3, the inner cover plate 3 is in a rectangular sheet structure, and the baffle plate 2 is integrally formed at one end of the inner cover plate 3 and is perpendicular to the inner cover plate 3; the lock shell 1 is arranged at the middle part of one side of the inner cover plate 3 in the thickness direction, and the lock shell 1 and the baffle plate 2 are positioned at the same side of the inner cover plate 3 in the thickness direction; the lock shell 1 is of a hollow structure, the baffle 2 penetrates through the thickness direction of the baffle 2 to form a first lock tongue avoiding hole 21, the first lock tongue avoiding hole 21 is communicated with the inner cavity of the lock shell 1, and a movable lock tongue is arranged in the lock shell 1 corresponding to the first lock tongue avoiding hole 21.

Still include outer apron 4, outer apron 4 sets up in the one side that lock shell 1 deviates from interior apron 3, and outer handle 5 is installed to one side that outer apron 4 deviates from lock shell 1, and interior handle 6 is installed to one side that inner apron 3 deviates from lock shell 1, and is provided with connection structure between outer handle 5 and the interior handle 6.

When the lock is installed, the lock shell 1 is embedded in a notch at the side edge of the glass door 9, one side, close to the lock shell 1, of the inner cover plate 3 abuts against one side, located indoors, of the glass door 9, one side, close to the lock shell 1, of the baffle plate 2 abuts against one side, provided with the notch, of the glass door 9, and the outer cover plate 4 abuts against one side, located outdoors, of the glass door 9; the inner handle 6 is detachably and fixedly connected with the inner cover plate 3, the lock shell 1, the outer cover plate 4 and the outer handle 5 through a connecting structure, so that the electronic lock is mounted on the frameless glass door 9.

In one embodiment, referring to fig. 1, 2 and 3, on the basis of the above embodiment, a handle square rod 13 is horizontally arranged on the lock shell 1, and is used for driving the movable lock tongue to retract into or extend out of the lock shell 1; a square rod penetrating hole 11 is formed in the lock shell 1 in a penetrating manner along the thickness direction of the inner cover plate 3, and a handle square rod 13 is arranged in the square rod penetrating hole 11 in a penetrating manner; through holes 31 are formed in the inner cover plate 3 and the outer cover plate 4 corresponding to the handle square rods 13, and two ends of the handle square rods 13 penetrate through the corresponding through holes 31 in the inner cover plate 3 and the outer cover plate 4 respectively and extend into the corresponding inner handles 6 and the corresponding outer handles 5.

Specifically, the inner handle 6 includes a first mounting base 61 and a first handle body 62, the first mounting base 61 is in a rectangular sheet structure, and the first handle body 62 is disposed at one side of the first mounting base 61 in the thickness direction; in this embodiment of the present utility model, the first handle body 62 and the first mounting base 61 are fixed by gluing, and of course, the two may be fastened and fixed by a fastening structure or directly integrally formed. The first handle body 62 is provided with a first square hole round bar 622 corresponding to the handle square bar 13, the first square hole round bar 622 is parallel to the thickness direction of the first mounting base 61, one end of the first square hole round bar 622 is fixed in the first handle body 62, and the other end of the first square hole round bar 622 penetrates through the first mounting base 61 and is fixedly connected with the first mounting base 61 through a first clamp spring 611.

Moreover, avoidance grooves 111 are formed in the lock case 1 at two ends of the square rod penetrating hole 11 in the length direction, and a first square hole round rod 622 penetrates through one end of the first mounting base 61 and extends into the avoidance grooves 111 so as to improve connection stability of the inner handle 6 and the lock case 1.

Meanwhile, the outer handle 5 includes a second mounting base 51 and a second handle body 52, and the connection mode of the second handle body 52 and the second mounting base 51 is the same as the connection mode of the first handle body 62 and the first mounting base 61. Similarly, a second square hole round rod is arranged in the second handle body 52 and is fixedly connected with the second mounting base 51 through a second clamp spring.

In this embodiment of the present utility model, the connection structure includes a connection screw 7, the connection screw 7 is disposed parallel to the handle square bar 13, and both ends of the connection screw 7 are provided with external threads; the first handle body 62 is provided with a first internal thread pipe 621 corresponding to the connecting screw 7, one end of the first internal thread pipe 621 is fixedly arranged in the first handle body 62, and the other end of the first internal thread pipe 621 penetrates through the thickness direction of the first mounting base 61 and is fixedly connected with the first mounting base 61, and one end of the connecting screw 7 extends into the first internal thread pipe 621 and is in threaded connection with the first internal thread pipe 621; similarly, a second internal thread tube 525 is arranged on the second handle body 52 corresponding to the connecting screw 7, and the other end of the connecting screw 7 extends into the second internal thread tube 525 and is in threaded connection with the second internal thread tube 525. Meanwhile, screw penetration holes 12 are formed in the lock shell 1 corresponding to the connecting screws 7, corresponding through holes 32 are formed in the inner cover plate 3 and the outer cover plate 4 corresponding to the connecting screws 7, and the connecting screws 7 are penetrated into the corresponding screw penetration holes 12 and the through holes 32 and are in sliding fit with the corresponding lock shell 1, the inner cover plate 3 and the outer cover plate 4.

In the concrete installation, the connecting screw 7 is screwed into the first internal thread pipe 621 at first, and then penetrates through the first handle body 62, the through hole 32 on the inner cover plate 3 and the screw penetrating hole 12 in sequence, so that the inner handle 6, the inner cover plate 3 and the lock case 1 are connected; meanwhile, one end of the handle square rod 13 penetrates through the through hole 31 on the inner cover plate 3 and extends into the first square hole round rod 622; then, embedding the lock shell 1 into a notch at the side edge of the glass door 9, abutting the inner cover plate 3 against the side of the glass door 9, which is positioned indoors, and abutting the baffle plate 2 against the side of the glass door 9, which is provided with the notch; subsequently, the outer cover plate 4 is buckled to one side of the glass door 9 located outdoors; meanwhile, the other end of the handle square rod 13 penetrates through the through hole 31 on the outer cover plate 4 and extends into the second square hole round rod; then, the connecting screw 7 continuously penetrates through the through hole 32 on the outer cover plate 4 and is screwed into the second internal thread tube 525, so that the electronic lock is mounted on the frameless glass door 9; when in use, the outer handle 5 and/or the inner handle 6 are/is rotated, and the handle square rod 13 drives the movable lock tongue to retract into or extend out of the lock shell 1.

In order to protect the glass and reduce the abrasion of the glass door 9 between the inner cover plate 3 and the outer cover plate 4, asbestos pads are respectively arranged between the lock shell 1 and the outer cover plate 4 and between the lock shell 1 and the inner cover plate 3; moreover, by arranging asbestos mats with different thicknesses, the distance between the glass door 9 and the outer cover plate 4 and the distance between the glass door 9 and the inner cover plate 3 are adjusted, so that the electronic lock is suitable for the glass door 9 with different thicknesses, and the application range of the electronic lock is enlarged.

In addition, in order to hide the connection screw 7 on the visible surface of the inner handle 6, the aesthetic degree of the inner handle 6 is improved, the inner handle 6 further comprises a first handle panel 63, a first magnet is arranged on one side of the first handle body 62, which faces away from the first mounting base 61, a plurality of first magnets are arranged on the first handle body 62 at intervals, and the first handle body 62 is adsorbed on one side of the first handle body 62, which faces away from the first mounting base 61, through the first magnets; in addition, in order to facilitate the detachment of the first handle panel 63, a first detachment hole 623 is formed in the first handle body 62 along the thickness direction of the first handle panel 63, and the first handle panel 63 is pushed from the first detachment hole 623, so that the first handle panel 63 can be detached from the first handle body 62. Similarly, the outer handle 5 further includes a second handle panel 53, and the second handle panel 53 is detachably and fixedly connected to the second handle body 52 through a second magnet 524.

In this embodiment of the present utility model, in order to improve the convenience of the switch lock, a fingerprint sensing head 521 is disposed on a side of the second handle body 52 away from the second mounting base 51, and a fingerprint control module 522 is disposed in the second handle body 52 and adapted to the fingerprint sensing head 521, so as to receive fingerprint signals and control the movable lock tongue to retract into or extend out of the lock case 1; the second handle body 52 is further provided with a battery module 523 for supplying power to the fingerprint sensing head 521 and the fingerprint control module 522. Correspondingly, the second handle panel 53 is provided with an avoidance round hole 531 corresponding to the fingerprint sensing head 521; when in use, the outer handle 5 is held, the fingerprint of a user is acquired through the fingerprint sensing head 521, and the unlocking and locking of the electronic lock are controlled through the fingerprint control module 522.

Further, an emergency key hole is further formed in the outer handle 5, and when the fingerprint unlocking function fails, the fingerprint unlocking function can be achieved through the emergency key.

In this embodiment of the present utility model, an electronic lock for a frameless glass door 9 further includes a lockbox 8, the lockbox 8 including a mounting plate 81 and a lockbox body 82; wherein, the mounting plate 81 is in a waist-shaped sheet structure, and the buckle box body 82 is arranged at the middle position of one side of the thickness direction of the mounting plate 81 through a fixing bolt; meanwhile, the mounting plate 81 is mounted on the door frame through a mounting bolt, and the buckle box body 82 is positioned at one side of the mounting plate 81, which is close to the door frame, in the thickness direction; the buckle box body 82 is hollow, a second lock tongue avoiding hole is formed in the middle of the mounting plate 81, and the second lock tongue avoiding hole is communicated with the inner cavity of the buckle box body 82; in order to improve the security level of the electronic lock, a third magnet is arranged in the inner cavity of the buckle box body 82 near the second lock tongue avoiding hole; when the glass door 9 is temporarily closed, the movable lock tongue is extended into the buckle box body 82 from the lock case 1 by the third magnet, so that the automatic locking function of the glass door 9 is realized.

It should be noted that the above embodiments can be freely combined as needed. The foregoing is merely a preferred embodiment of the present utility model and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present utility model, which are intended to be comprehended within the scope of the present utility model.

Claims (10)

1. An electronic lock for a frameless glass door, comprising:

the lock body comprises a lock shell, a baffle plate and an inner cover plate, wherein the baffle plate is arranged at one end of the inner cover plate and is perpendicular to the inner cover plate, and the lock shell and the baffle plate are positioned at the same side in the thickness direction of the inner cover plate; the lock shell is embedded in a notch of the glass door, one side of the inner cover plate, which is close to the lock shell, abuts against one side of the glass door, which is positioned indoors, and one side of the baffle, which is close to the lock shell, abuts against one side of the glass door, which is provided with the notch;

the lock shell is hollow, a first lock tongue avoiding hole is formed in the baffle, and the first lock tongue avoiding hole is communicated with the inner cavity of the lock shell; a movable lock tongue is arranged in the lock shell corresponding to the first lock tongue avoiding hole;

the outer cover plate is arranged on one side of the lock shell, which is away from the inner cover plate, and the outer cover plate abuts against one side of the glass door, which is located outdoors;

the outer cover plate is provided with an outer handle, the inner cover plate is provided with an inner handle, a connecting structure is arranged between the inner handle and the outer handle, and the inner handle is detachably and fixedly connected with the inner cover plate, the lock shell and the outer cover plate through the connecting structure.

2. An electronic lock for a frameless glass door according to claim 1, wherein an asbestos pad is provided between the lock housing and the outer cover plate and between the lock housing and the inner cover plate, said asbestos pad being used to protect the glass door and to adjust the gap between the glass door and the outer cover plate.

3. The electronic lock for a frameless glass door according to claim 1, wherein the inner handle comprises a first handle body and a first mounting base, and the first handle body is fixedly arranged at one side of the first mounting base in a thickness direction; be provided with the handle square pole on the lock shell, correspond on the first handle body the handle square pole is provided with first square hole round bar, first square hole round bar is followed first installation base thickness direction runs through first installation base, and through first jump ring with first installation base fixed connection.

4. The electronic lock for a frameless glass door of claim 3, wherein the connection structure comprises a connection screw, the connection screw is arranged on the inner handle, a first internal thread tube is arranged on the first handle body corresponding to the connection screw, and the first internal thread tube penetrates through the first mounting base along the thickness direction of the first mounting base and is fixedly connected with the first mounting base.

5. The electronic lock for a frameless glass door of claim 4, wherein a first handle panel is disposed on a side of the first handle body facing away from the first mounting base, a first magnet is disposed on the first handle body, and the first handle panel is adsorbed on the first handle body through the first magnet.

6. The electronic lock for a frameless glass door of claim 5, wherein the first handle body is provided with a first release hole for assisting in releasing the first handle panel.

7. The electronic lock for a frameless glass door of claim 5, wherein the outer handle comprises a second handle body, a second mounting base and a second handle panel, and the second handle body, the second mounting base and the second handle panel are connected in the same manner as the first handle body, the first mounting base and the first handle panel.

8. The electronic lock for a frameless glass door according to claim 7, wherein a fingerprint sensing head is arranged on one side, away from the second mounting base, of the second handle body, a fingerprint control module and a battery module are arranged in the second handle body, the fingerprint control module is used for receiving fingerprint signals and controlling the movable lock tongue to retract into or extend out of the lock shell, the battery module supplies power for the fingerprint sensing head and the fingerprint control module, and a round avoidance hole is formed in the second handle panel corresponding to the fingerprint sensing head.

9. The electronic lock for a frameless glass door of claim 7, wherein a second square hole round bar and a second internal thread tube are arranged in the second handle body, the second internal thread tube is fixedly connected with the second installation base, and the second square hole round bar is fixedly connected with the second installation base through a second clamp spring.

10. The electronic lock for a frameless glass door of claim 1, further comprising a lockbox, wherein the lockbox comprises a lockbox body, wherein the lockbox body is hollow; a mounting plate is fixed on one side of the buckle box body, which is close to the lock body, and the mounting plate is mounted on the door frame through a connecting bolt; the mounting plate is provided with a second lock tongue avoiding hole which is communicated with the inner cavity of the buckle box body; a third magnet is arranged in the buckle box body; when the glass door is closed, the third magnet sucks the movable lock tongue into the buckle box body from the lock shell, so that the door frame can be automatically locked.