CN213296871U - Toughened glass mounting structure - Google Patents

Abstract

The utility model relates to a toughened glass mounting structure, which is characterized by comprising a transverse frame component, a vertical frame component, a splicing piece and a toughened glass plate, wherein the transverse frame component comprises a transverse section bar, a plurality of first pressing plates and a plurality of first screws, and a first inserting hole, a first mounting groove, a first embedding groove, a first clamping groove, a first abdicating groove and a first positioning groove are respectively formed on the transverse section bar; the vertical frame component comprises a vertical section bar, a plurality of second pressing plates and a plurality of second screws, wherein a second inserting hole, a second installing groove, a second embedding groove, a second clamping groove, a second abdicating groove and a second locating groove are respectively formed in the vertical section bar; the splicing pieces are provided with a horizontal inserting part and a vertical inserting part; the transverse frame assembly and the vertical frame assembly are connected together through the splicing piece, and the side wall of the toughened glass plate is tightly pressed and positioned through the transverse frame assembly and the vertical frame assembly respectively. The utility model has the advantages of simple structure, high reliability, convenient assembly and maintenance, strong applicability and the like.

Description

Toughened glass mounting structure

Technical Field

The utility model relates to a meeting machine field, especially a toughened glass mounting structure.

Background

At present, tempered glass is often installed on a conference machine. The installation of old-fashioned toughened glass is mostly to open a groove on the surface of an aluminum profile, and then the side edge of the toughened glass is embedded in the groove body, and the installation has the following defects: 1. the installation is difficult because in order to ensure that the toughened glass can be stably embedded on the aluminum profile, the toughened glass and the aluminum profile are mostly in interference fit or over fit, which easily causes the toughened glass to be difficult to be embedded on the aluminum profile; 2. the toughened glass is easy to scrape when being embedded; 3. the toughened glass is difficult to replace, and the maintenance convenience is poor.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to solve above-mentioned problem and not enough, provide a toughened glass mounting structure, this toughened glass mounting structure has advantages such as simple structure, reliability height, equipment maintenance convenience, suitability are strong.

The technical scheme of the utility model is realized like this:

a toughened glass mounting structure is characterized by comprising a transverse frame component, a vertical frame component, splicing pieces and a toughened glass plate, wherein the transverse frame component comprises a transverse section bar, a plurality of first pressing plates and a plurality of first screws, a first inserting hole, a first mounting groove, a first embedding groove, a first clamping groove, a first abdicating groove and a first positioning groove are respectively formed in the transverse section bar, the first inserting hole transversely extends and penetrates through the end faces of the two ends of the transverse section bar, the first mounting groove is positioned on the lower surface of the transverse section bar and transversely extends to the end faces of the two ends of the transverse section bar, the first embedding groove penetrates through the front and rear groove walls on the inner side of the notch of the first mounting groove and transversely penetrates through the transverse section bar, the first clamping groove is positioned on the rear surface of the transverse section bar and transversely extends to the end faces of the two ends of the transverse section bar, the first abdicating groove is positioned on the lower side edge of the rear surface of the transverse section bar, and transversely extends to the end faces of the two ends of the transverse section bar, and the first positioning groove is positioned on the lower side edge of the front groove wall of the first abdicating groove and transversely extends to the end faces of the two ends of the transverse section bar; the vertical frame component comprises a vertical section bar, a plurality of second pressing plates and a plurality of second screws, wherein a second inserting hole, a second installing groove, a second embedding groove, a second clamping groove, a second abdicating groove and a second locating groove are respectively formed on the vertical section bar, the second inserting hole extends vertically and penetrates through the end faces at two ends of the vertical section bar, the second installing groove is positioned on the left surface of the vertical section bar and vertically extends to the end faces at two ends of the vertical section bar, the second embedding groove penetrates through the front and back groove walls at the inner side of the notch of the second installing groove and vertically penetrates through the vertical section bar, the second clamping groove is positioned on the rear surface of the vertical section bar and vertically extends to the end faces at two ends of the vertical section bar, the second abdicating groove is positioned on the left side edge of the rear surface of the vertical section bar, the second abdicating groove vertically extends to the end faces of the two ends of the vertical section bar, the second positioning groove is positioned on the left side edge of the front groove wall of the second abdicating groove, and the second positioning groove vertically extends to the end faces of the two ends of the vertical section bar; the left surface of the splicing piece is provided with a vertical plane, the vertical plane is provided with a horizontal inserting part, the lower surface of the splicing piece is provided with a horizontal plane, the horizontal plane is provided with a vertical inserting part, the horizontal plane is provided with a wiring slot hole penetrating to the vertical plane, the wiring slot hole penetrates to the rear surface of the splicing piece, the rear surface of the splicing piece is provided with a third clamping groove, the third clamping groove extends to the horizontal plane and the vertical plane respectively, and the third clamping groove penetrates through the wiring slot hole; the horizontal inserting part is inserted into the first inserting hole, the vertical plane is attached to the right end face of the transverse section bar, the wiring slotted hole is in butt joint communication with the first mounting groove, the vertical inserting part is inserted into the second inserting hole, the horizontal plane is attached to the upper end face of the vertical section bar, the wiring slotted hole is in butt joint communication with the second mounting groove, the toughened glass plate is vertically arranged, the upper side edge of the toughened glass plate is embedded in the first positioning groove, the right side edge of the toughened glass plate is embedded in the second positioning groove, one end of each first pressing plate is arranged in the first abdicating groove, the other end of each first pressing plate is pressed on the rear surface of the toughened glass plate, each first screw is arranged in the first abdicating groove, each first screw corresponds to each first pressing plate one to one, the thread end of each first screw penetrates through the corresponding first pressing plate and then is screwed on the front groove wall of the first abdicating groove, one end of each second pressing plate is arranged in the second yielding groove, the other end of each second pressing plate presses the rear surface of the toughened glass plate, each second screw is arranged in the second yielding groove, the second screws correspond to the second pressing plates one to one, and the threaded end of each second screw penetrates through the corresponding second pressing plate and then is in threaded connection with the front groove wall of the second yielding groove.

Preferably, the toughened glass mounting structure further comprises a plurality of locking screws, wherein the threaded ends of one part of the locking screws penetrate through the rear surface of the transverse section bar and then are in threaded connection with the horizontal insertion portion, and the threaded ends of the other part of the locking screws penetrate through the rear surface of the vertical section bar and then are in threaded connection with the vertical insertion portion.

Preferably, a circle of reinforcing convex rings are arranged on the peripheral side edge of the front surface of the toughened glass plate.

The utility model has the advantages that: the first mounting groove and the second mounting groove are arranged, so that the installation of the storage cavity of the related member is facilitated, and the related member can be well hidden and protected, so that the service life is prolonged; the first embedded groove and the second embedded groove are formed, so that the related components can be conveniently inserted, and the stability and the reliability of installation and positioning of the related components are improved. Through the establishment in first cartridge hole and second cartridge hole, not only can make things convenient for the connection of splice, can also reduce the application of raw and other materials under horizontal section bar and vertical section bar have big width to help controlling manufacturing cost. Through the setting in first groove, the second groove of stepping down, the one end of the first clamp plate of can being convenient for, the one end of first screw, second clamp plate and the collection of second screw to avoid them to influence the assembly of other structures, this structural design is very reliable, helps improving toughened glass mounting structure's overall structure's harmony, and then helps improving toughened glass mounting structure's reliability. Through seting up of first constant head tank and second constant head tank to the side of going up that makes the toughened glass board inlays respectively in first constant head tank, second constant head tank with the right side limit, helps improving the accuracy and the convenience of toughened glass board installation location like this, thereby can accurately fix a position the toughened glass board fast and get off, and then help improving the efficiency of toughened glass board installation, and can also improve the stability of toughened glass board installation location like this. Through the arrangement of the first clamping groove, the second clamping groove and the third clamping groove, the mounting structure can be conveniently clamped on the corresponding machine shell, so that the accuracy and the stability of mounting and positioning of the mounting structure are improved. Through offering out the third chucking groove on the rear surface at the splice, guaranteeing under the splice can be connected horizontal section bar and perpendicular section bar reliably the condition together, can avoid the splice to influence this toughened glass mounting structure's installation, this structural design is very reliable. Because the side of toughened glass board can inlay in first constant head tank, second constant head tank very easily, and the side of toughened glass board is through each first clamp plate and each second clamp plate sticis the effect and realize the location, can improve the convenience of toughened glass board installation location effectively like this to help improving the efficiency of toughened glass board installation location, and can avoid the toughened glass board to appear scraping colored condition like this. Because first clamp plate and second clamp plate are respectively through first screw, second fix with screw, just so can satisfy the dismantlement demand of first clamp plate, second clamp plate, and the dismantlement of first clamp plate and second clamp plate is very convenient, the change of toughened glass board is very convenient like this, this just can improve the convenience that the toughened glass board was dismantled and was maintained. Because horizontal cartridge portion and vertical cartridge portion on the splice are cartridge respectively in first cartridge hole, second cartridge hole, in addition vertical plane and horizontal plane paste respectively on the terminal surface of horizontal section bar, vertical section bar, through this splice, can be fast, accurate and reliably with horizontal section bar and vertical section bar concatenation together to can improve the convenience and the efficiency of horizontal section bar and vertical section bar concatenation, and then can reach the purpose of fast assembly. Through set up out the wiring slotted hole on the splice to and make the wiring slotted hole run through to the rear surface of splice on, still make the wiring slotted hole dock the intercommunication with first mounting groove, second mounting groove respectively mutually, can make the wire penetrate to first mounting groove from the rear side very conveniently like this, this can make things convenient for hiding of wire, thereby helps improving the security of using. The whole structure of the toughened glass mounting structure is very reliable, can well meet various use requirements, and has very strong applicability.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is an enlarged schematic structural view of a portion a in fig. 1 according to the present invention.

Fig. 3 is a schematic structural view of a section B-B in fig. 1 according to the present invention.

Fig. 4 is a schematic structural view of the cross section C-C in fig. 1 according to the present invention.

Fig. 5 is a schematic structural view of the middle splicing member of the present invention.

Fig. 6 is a schematic structural view of the usage state of the present invention.

Detailed Description

It should be noted that all the directional indicators (such as top, bottom, left, right, front, back, horizontal and vertical … …) in the embodiments of the present invention are only used to explain the relative position between the components in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

As shown in fig. 1, the tempered glass mounting structure of the present invention comprises a horizontal frame assembly 1, a vertical frame assembly 2, a splicing member 3, and a tempered glass plate 4, wherein, as shown in fig. 1 and 3, the horizontal frame assembly 1 comprises a horizontal bar 11, a plurality of first pressing plates 12, and a plurality of first screws 13, wherein the horizontal bar 11 is respectively formed with a first insertion hole 111, a first mounting groove 112, a first insertion groove 113, a first clamping groove 114, a first abdicating groove 115, and a first positioning groove 116, the first insertion hole 111 extends transversely, and the first insertion hole 111 penetrates through both end faces of the horizontal bar 11, the first mounting groove 112 is located on the lower surface of the horizontal bar 11, and the first mounting groove 112 extends transversely to both end faces of the horizontal bar 11, the first insertion groove 113 penetrates through the front and rear groove walls of the inner side of the first mounting groove 112, enabling a first embedding groove 113 to transversely penetrate through the transverse section bar 11, enabling the first clamping groove 114 to be located on the rear surface of the transverse section bar 11, enabling the first clamping groove 114 to transversely extend to the end faces of the two ends of the transverse section bar 11, enabling the first yielding groove 115 to be located on the lower side edge of the rear surface of the transverse section bar 11, enabling the first yielding groove 115 to transversely extend to the end faces of the two ends of the transverse section bar 11, enabling the first positioning groove 116 to be located on the lower side edge of the front groove wall of the first yielding groove 115, and enabling the first positioning groove 116 to transversely extend to the end faces of the two ends of the transverse section bar 11; as shown in fig. 1, 2 and 4, the vertical frame assembly 2 includes a vertical bar 21, a plurality of second pressing plates 22, and a plurality of second screws 23, wherein a second insertion hole 211, a second installation groove 212, a second insertion groove 213, a second clamping groove 214, a second abdication groove 215, and a second positioning groove 216 are respectively formed on the vertical bar 21, the second insertion hole 211 extends vertically, the second insertion hole 211 penetrates through both end surfaces of the vertical bar 21, the second installation groove 212 is located on the left surface of the vertical bar 21, the second installation groove 212 extends vertically to both end surfaces of the vertical bar 21, the second insertion groove 213 penetrates through the front and rear groove walls inside the notch of the second installation groove 212, the second insertion groove 213 penetrates through the vertical bar 21 vertically, the second clamping groove 214 is located on the rear surface of the vertical bar 21, and the second clamping groove 214 extends to both end surfaces of the vertical bar 21, the second abdicating groove 215 is positioned on the left side edge of the rear surface of the vertical section bar 21, and the second abdicating groove 215 vertically extends to the end faces of the two ends of the vertical section bar 21, and the second positioning groove 216 is positioned on the left side edge of the front groove wall of the second abdicating groove 215, and the second positioning groove 216 vertically extends to the end faces of the two ends of the vertical section bar 21; as shown in fig. 5, a vertical plane 31 is disposed on the left surface of the splice 3, a horizontal insertion portion 32 is disposed on the vertical plane 31, a horizontal plane 33 is disposed on the lower surface of the splice 3, a vertical insertion portion 34 is disposed on the horizontal plane 33, a wiring slot 35 penetrating through the vertical plane 31 is formed in the horizontal plane 33, the wiring slot 35 penetrates through the rear surface of the splice 3, a third fastening slot 36 is formed in the rear surface of the splice 3, the third fastening slot 36 extends to the horizontal plane 33 and the vertical plane 31, and the third fastening slot 36 penetrates through the wiring slot 35; as shown in fig. 1 to 4, the horizontal inserting portion 32 is inserted into the first inserting hole 111, the vertical plane 31 is attached to the right end surface of the transverse section bar 11, the wiring groove hole 35 is in butt communication with the first mounting groove 112, the vertical inserting portion 34 is inserted into the second inserting hole 211, the horizontal plane 33 is attached to the upper end surface of the vertical section bar 21, the wiring groove hole 35 is in butt communication with the second mounting groove 212, the tempered glass plate 4 is vertically arranged, the upper side of the tempered glass plate 4 is embedded in the first positioning groove 116, the right side of the tempered glass plate 4 is embedded in the second positioning groove 216, one end of each first pressing plate 12 is placed in the first receding groove 115, the other end of each first pressing plate 12 is pressed against the rear surface of the tempered glass plate 4, each first screw 13 is placed in the first receding groove 115, and each first screw 13 is in one-to-one correspondence with each first pressing plate 12, and the threaded end of each first screw 13 is screwed on the front groove wall of the first abdicating groove 115 after penetrating through the corresponding first pressing plate 12, one end of each second pressing plate 22 is arranged in the second abdicating groove 215, the other end of each second pressing plate 22 is pressed on the rear surface of the tempered glass plate 4, each second screw 23 is arranged in the second abdicating groove 215, each second screw 23 is in one-to-one correspondence with each second pressing plate 22, and the threaded end of each second screw 23 is screwed on the front groove wall of the second abdicating groove 215 after penetrating through the corresponding second pressing plate 22. Through the arrangement of the first mounting groove 112 and the second mounting groove 212, the installation of the hiding cavity of the related components can be facilitated, and the hiding and protecting effects on the related components can be well played, so that the service life is prolonged; the opening of the first and second insertion grooves 113 and 213 facilitates the insertion of the relevant members, thereby contributing to the improvement of the stability and reliability of the installation positioning of the relevant members. Through the opening of the first insertion hole 111 and the second insertion hole 211, not only can the connection of the splicing pieces 3 be facilitated, but also the application of raw materials can be reduced under the condition that the transverse section bar 11 and the vertical section bar 21 have large widths, so that the manufacturing cost can be controlled. Through the arrangement of the first abdicating groove 115 and the second abdicating groove 215, the one end of the first pressing plate 12, the one end of the first screw 13 and the one end of the second pressing plate 22 and the second screw 23 can be conveniently hidden, so that the assembly of other structures is prevented from being influenced by the first pressing plate, the structural design is very reliable, the coordination of the whole structure of the installation structure of the toughened glass is improved, and the reliability of the installation structure of the toughened glass is improved. Through seting up of first constant head tank 116 and second constant head tank 216 to make the last side and the right flank of toughened glass board 4 inlay respectively in first constant head tank 116, second constant head tank 216, help improving the accuracy and the convenience of toughened glass board 4 installation location like this, thereby can accurately get off toughened glass board 4 location fast, and then help improving the efficiency of toughened glass board 4 installation, and can also improve the stability of toughened glass board 4 installation location like this. Through the arrangement of the first clamping groove 114, the second clamping groove 214 and the third clamping groove 36, the mounting structure can be conveniently clamped on the corresponding machine shell, thereby being beneficial to improving the accuracy and stability of mounting and positioning. Through offering out third chucking groove 36 on the rear surface of splice 3, guaranteeing that splice 3 can be connected horizontal section bar 11 and vertical section bar 21 reliably under the circumstances together, can avoid splice 3 to influence this toughened glass mounting structure's installation, this structural design is very reliable. Because the side of toughened glass board 4 can inlay in first constant head tank 116, second constant head tank 216 very easily, and the side of toughened glass board 4 is through each first clamp plate 12 and each second clamp plate 22 sticis the effect and realize the location, can improve the convenience of toughened glass board 4 installation location effectively like this to help improving the efficiency of toughened glass board 4 installation location, and can avoid the toughened glass board 4 the condition of scraping flower to appear like this effectively. Because first clamp plate 12 and second clamp plate 22 are fixed through first screw 13, second screw 23 respectively, just so can satisfy the dismantlement demand of first clamp plate 12, second clamp plate 22, and the dismantlement of first clamp plate 12 and second clamp plate 22 is very convenient, the convenience just very is dismantled with the change of toughened glass board 4 like this, this convenience of just can improving toughened glass board 4 and dismantle the maintenance. Because horizontal cartridge portion 32 and vertical cartridge portion 34 on the splice 3 are cartridge respectively in first plug-in mounting hole 111, second plug-in mounting hole 211, and vertical plane 31 and horizontal plane 33 are pasted respectively on the terminal surface of horizontal section bar 11, vertical section bar 21, through this splice 3, can be fast, accurately and reliably splice horizontal section bar 11 and vertical section bar 21 together, thereby can improve the convenience and the efficiency of horizontal section bar 11 and the concatenation of vertical section bar 21, and then can reach the purpose of fast assembly. Through offer out wiring slotted hole 35 on splice 3 to and make wiring slotted hole 35 run through to splice 3's rear surface on, still make wiring slotted hole 35 dock the intercommunication with first mounting groove 112, second mounting groove 212 respectively mutually, can make the wire penetrate to first mounting groove 112 from the rear side very conveniently like this, this can make things convenient for hiding of wire, thereby helps improving the security of using. The whole structure of the toughened glass mounting structure is very reliable, can well meet various use requirements, and has very strong applicability.

Wherein fig. 1 is a schematic view of the structure viewed obliquely from the rear side and below.

As shown in fig. 6, in the actual use process, the peripheral sides of the tempered glass plate 4 are respectively limited by the profile rods and are pressed and positioned by the pressing plates, and the end parts of the adjacent profile rods are spliced together by the splicing pieces 3.

As shown in fig. 1, 2 and 5, the tempered glass mounting structure further includes a plurality of locking screws 5, wherein a threaded end of one locking screw 5 penetrates through a rear surface of the transverse profile bar 11 and then is screwed to the horizontal insertion portion 32, and a threaded end of the other locking screw 5 penetrates through a rear surface of the vertical profile bar 21 and then is screwed to the vertical insertion portion 34. Through the setting of each locking screw 5 to make each locking screw 5 lock in horizontal cartridge portion 32, vertical cartridge portion 34 respectively on can improve the fastness that splicer 3 connects like this effectively, thereby can further improve the fastness of horizontal section bar 11 and the concatenation of vertical section bar 21, and then help improving this toughened glass mounting structure's reliability.

As shown in fig. 3 and 4, a ring of reinforcing convex rings 41 is arranged on the peripheral side edge of the front surface of the tempered glass plate 4. By the arrangement of the reinforcing convex ring 41, the structural strength of the portion where the tempered glass plate 4 is pressed can be effectively enhanced, thereby contributing to improvement of the reliability of the tempered glass mounting structure.

Claims (3)

1. The utility model provides a toughened glass mounting structure which characterized in that: comprises a transverse frame component (1), a vertical frame component (2), a splicing component (3) and a toughened glass plate (4), wherein

The transverse frame component (1) comprises a transverse section bar (11), a plurality of first pressing plates (12) and a plurality of first screws (13), wherein a first inserting hole (111), a first installing groove (112), a first embedding groove (113), a first clamping groove (114), a first yielding groove (115) and a first positioning groove (116) are formed in the transverse section bar (11) respectively, the first inserting hole (111) extends transversely and penetrates through the end faces of the two ends of the transverse section bar (11), the first installing groove (112) is located on the lower surface of the transverse section bar (11) and transversely extends the first installing groove (112) to the end faces of the two ends of the transverse section bar (11), the first embedding groove (113) penetrates through the front groove wall and the rear groove wall of the inner side of the notch of the first installing groove (112) and transversely penetrates through the transverse section bar (11), the first clamping groove (114) is positioned on the rear surface of the transverse section bar (11), the first clamping groove (114) transversely extends to the end faces of the two ends of the transverse section bar (11), the first abdicating groove (115) is positioned on the lower side edge of the rear surface of the transverse section bar (11), the first abdicating groove (115) transversely extends to the end faces of the two ends of the transverse section bar (11), the first positioning groove (116) is positioned on the lower side edge of the front groove wall of the first abdicating groove (115), and the first positioning groove (116) transversely extends to the end faces of the two ends of the transverse section bar (11);

the vertical frame component (2) comprises a vertical section bar (21), a plurality of second pressing plates (22) and a plurality of second screws (23), wherein a second inserting hole (211), a second installing groove (212), a second embedding groove (213), a second clamping groove (214), a second abdicating groove (215) and a second positioning groove (216) are respectively formed in the vertical section bar (21), the second inserting hole (211) vertically extends and penetrates through the end faces of the two ends of the vertical section bar (21), the second installing groove (212) is positioned on the left surface of the vertical section bar (21) and vertically extends to the end faces of the two ends of the vertical section bar (21), the second embedding groove (213) penetrates through the front and rear groove walls on the inner side of the groove opening of the second installing groove (212) and vertically penetrates through the section bar (21), the second clamping groove (214) is located on the rear surface of the vertical section bar (21), the second clamping groove (214) vertically extends to the end faces of the two ends of the vertical section bar (21), the second abdicating groove (215) is located on the left side edge of the rear surface of the vertical section bar (21), the second abdicating groove (215) vertically extends to the end faces of the two ends of the vertical section bar (21), the second positioning groove (216) is located on the left side edge of the front groove wall of the second abdicating groove (215), and the second positioning groove (216) vertically extends to the end faces of the two ends of the vertical section bar (21);

a vertical plane (31) is arranged on the left surface of the splicing piece (3), a horizontal inserting portion (32) is arranged on the vertical plane (31), a horizontal plane (33) is arranged on the lower surface of the splicing piece (3), a vertical inserting portion (34) is arranged on the horizontal plane (33), a wiring slotted hole (35) penetrating through the vertical plane (31) is formed in the horizontal plane (33), the wiring slotted hole (35) penetrates through the rear surface of the splicing piece (3), a third clamping groove (36) is formed in the rear surface of the splicing piece (3), the third clamping groove (36) extends to the horizontal plane (33) and the vertical plane (31) respectively, and the third clamping groove (36) penetrates through the wiring slotted hole (35);

the horizontal inserting part (32) is inserted into the first inserting hole (111), the vertical plane (31) is attached to the right end face of the transverse section bar (11), the wiring slotted hole (35) is in butt joint communication with the first installing groove (112), the vertical inserting part (34) is inserted into the second inserting hole (211), the horizontal plane (33) is attached to the upper end face of the vertical section bar (21), the wiring slotted hole (35) is in butt joint communication with the second installing groove (212), the toughened glass plate (4) is vertically arranged, the upper side edge of the toughened glass plate (4) is embedded into the first positioning groove (116), the right side edge of the toughened glass plate (4) is embedded into the second positioning groove (216), one end of each first pressing plate (12) is arranged into the first abdicating groove (115), and the other end of each first pressing plate (12) is pressed on the rear surface of the toughened glass plate (4), each first screw (13) is arranged in the first yielding groove (115), each first screw (13) corresponds to each first pressing plate (12) in a one-to-one mode, the threaded end of each first screw (13) penetrates through the corresponding first pressing plate (12) and then is screwed on the front groove wall of the first yielding groove (115), one end of each second pressing plate (22) is arranged in the second yielding groove (215), the other end of each second pressing plate (22) is pressed on the rear surface of the toughened glass plate (4), each second screw (23) is arranged in the second yielding groove (215), each second screw (23) corresponds to each second pressing plate (22) in a one-to-one mode, and the threaded end of each second screw (23) penetrates through the corresponding second pressing plate (22) and then is screwed on the front groove wall of the second yielding groove (215).

2. The tempered glass mounting structure of claim 1, wherein: the novel horizontal bar-type beam splitter is characterized by further comprising a plurality of locking screws (5), wherein the threaded ends of one part of the locking screws (5) penetrate through the rear surface of the horizontal bar-type beam (11) and then are in threaded connection with the horizontal insertion part (32), and the threaded ends of the other part of the locking screws (5) penetrate through the rear surface of the vertical bar-type beam (21) and then are in threaded connection with the vertical insertion part (34).

3. The tempered glass mounting structure of claim 1, wherein: and a circle of reinforcing convex rings (41) are arranged on the side edges on the periphery of the front surface of the toughened glass plate (4).

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