CN219670363U - Glass tempering equipment - Google Patents

Abstract

The utility model provides a glass tempering equipment, its includes chassis and a plurality of furnace body, and a plurality of this furnace body support in this chassis, and the top of every this furnace body is provided with four pillars, and this pillar of the front side of a plurality of this furnace bodies and rear side support first guide rail and second guide rail jointly, and the left end of this first guide rail and the left end of this second guide rail are supported fixedly by first support frame, and the right-hand member of this first guide rail and the right-hand member of this second guide rail are supported fixedly by the second support frame. The middle parts of the first guide rail and the second guide rail are directly supported by the furnace body, the furnace bodies are positioned and fixed through the newly designed integrated chassis, the tops of the furnace bodies are respectively provided with the supporting columns, and the supporting columns are respectively connected with the first guide rail and the second guide rail so as to support the first guide rail and the second guide rail. Thus, the material and time for constructing the middle part of the frame for supporting the guide rail can be saved, the manufacturing cost can be saved, the manufacturing efficiency can be improved, and the appearance can be improved.

Description

Glass tempering equipment

Technical Field

The utility model relates to the technical field of glass tempering, in particular to glass tempering equipment, and more particularly relates to glass tempering equipment.

Background

The existing glass tempering equipment (see fig. 1) generally comprises a frame, a furnace body and a guide rail, when the existing glass tempering equipment is manufactured, firstly, a frame with a furnace body accommodating cavity is formed by welding sectional materials such as square tubes, flat tubes and the like, then a track is paved on the top of the frame, then the square tubes and steel sealing plates are welded to form the furnace body, and then, the welded furnace body is placed into the furnace body accommodating cavity of the frame and welded and fixed, so that the glass tempering equipment is obtained.

The existing glass tempering equipment has the defects that the frame structure of the glass tempering equipment is complex, a large number of square, flat and other sectional materials are used, the material cost is high, the process is complex, and the welding workload is large. The furnace body is also high in material cost, complex in process, large amounts of stainless steel square frames are consumed, stainless steel sealing plates are welded outside the furnace body, welding spots are not attractive in appearance after welding, and welding workload is large.

In summary, the existing glass tempering equipment has the disadvantages of too high material cost, complex process and high labor cost, and the appearance of the finished product is not attractive, so that the processing cost is necessarily reduced, the processing efficiency is improved, and the appearance attractiveness of the equipment is improved in order to meet the current market.

Disclosure of Invention

The utility model aims to solve the technical problem of providing glass tempering equipment which can save manufacturing cost, improve manufacturing efficiency and have attractive appearance.

In order to solve the technical problems, the utility model adopts the technical scheme that the glass tempering equipment comprises a bottom frame and a plurality of furnace bodies, wherein the bottom frame comprises a plurality of supporting frames, the supporting frames are arranged at left and right intervals in a straight shape, two adjacent supporting frames are connected through at least two first connecting plates, and outer end covers of the supporting frames positioned at the head end and the tail end are connected with at least two second connecting plates; the first connecting plate and the second connecting plate which are connected with the same supporting frame are positioned on two opposite sides of the corresponding supporting frame; the furnace bodies are respectively supported on the supporting frames in a one-to-one correspondence manner, four positioning connecting pieces are arranged at the bottom of each furnace body, the four positioning connecting pieces of the furnace bodies positioned at the head end and the tail end are respectively connected and fixed with the two first connecting plates and the two second connecting plates, and the four positioning connecting pieces of the furnace bodies positioned at the middle part are respectively connected and fixed with the four first connecting plates; the top of each furnace body is provided with four pillars, a plurality of the pillars of the front side of the furnace body jointly support a first guide rail, a plurality of the pillars of the rear side of the furnace body jointly support a second guide rail, the left end of the first guide rail and the left end of the second guide rail are supported and fixed by a first support frame, and the right end of the first guide rail and the right end of the second guide rail are supported and fixed by a second support frame.

In the glass tempering equipment provided by the utility model, each first connecting plate is provided with two first positioning components which are spaced left and right, each second connecting plate is provided with one first positioning component, each positioning connecting piece is provided with a second positioning component matched with the first positioning component, the second positioning components of the four positioning connecting pieces of the furnace body positioned at the head end and the tail end are respectively connected with the first positioning components of the two first connecting plates and the first positioning components of the two second connecting plates in a one-to-one correspondence manner, and the second positioning components of the four positioning connecting pieces of the furnace body positioned at the middle part are respectively connected with the first positioning components of the four first connecting plates in a one-to-one correspondence manner.

In the glass tempering equipment provided by the utility model, the first positioning component comprises a plurality of first through holes, the second positioning component comprises a plurality of second through holes, and the corresponding first positioning component and the second positioning component are locked and fixed through first screws penetrating through the first through holes and the second through holes.

In the glass tempering equipment provided by the utility model, the supporting frame comprises two front-back opposite transverse main frame strips extending along the left-right direction, a plurality of left-right spaced longitudinal main frame strips extending along the front-back direction are connected between the two transverse main frame strips, and a plurality of front-back spaced transverse auxiliary frame strips extending along the left-right direction are connected between the two adjacent longitudinal main frame strips.

In the glass tempering equipment provided by the utility model, the top of each pillar is provided with the first support connecting sheet, and the first support connecting sheet is locked and fixed with the first guide rail or the second guide rail through the second screw.

In the glass tempering equipment provided by the utility model, the furnace body comprises an inner shell and an outer shell, the inner shell is surrounded by the outer shell, and a structure reinforcing component is connected between the outer shell and the inner shell.

In the glass tempering equipment provided by the utility model, the inner shell comprises four first side plates which are sequentially connected end to end, the outer shell comprises a main box body, the main box body comprises four second side walls which are sequentially connected end to end and bottom walls connected to the bottoms of the four second side walls, the bottoms of the inner shell are fixedly connected with the bottom walls of the outer shell, the structure reinforcing component comprises a middle layer reinforcing piece, and the middle layer reinforcing piece comprises a plurality of second longitudinal auxiliary reinforcing strips and second transverse auxiliary reinforcing strips which are respectively connected between the first side plates and the second side walls which are oppositely arranged at the end to end.

In the glass tempering device provided by the utility model, the outer shell further comprises four Fang Tongzhu edges which are respectively connected with the main box body, wherein Fang Tongzhu is covered by the corresponding second side wall so that only one vertical side face of each square through column is exposed out of the box body, each of the four square through columns is respectively positioned at two opposite sides of the box body, and the vertical side faces of the two square through columns which are positioned at the same side of the box body are just opposite; the structure reinforcing component comprises a top layer reinforcing piece positioned on the upper side of the middle layer reinforcing piece, the top layer reinforcing piece comprises two first longitudinal main reinforcing strips which are opposite left and right and extend along the front-rear direction, two first transverse main reinforcing strips which are spaced front and rear and extend along the left-right direction are connected between the first longitudinal main reinforcing strips, and the inner sides of the first longitudinal main reinforcing strips and the inner sides of the first transverse main reinforcing strips are respectively in fit connection with the corresponding first side plates.

In the glass tempering equipment provided by the utility model, the top of the square through column is connected with a second support connecting sheet, the bottom of the support column is provided with a third support connecting sheet, and the corresponding square through column and the support column are fastened and connected through the second support connecting sheet and the third support connecting sheet; the top layer reinforcement further comprises a plurality of first longitudinal auxiliary reinforcement strips connected to the outer sides of the first transverse main reinforcement strips, and the plurality of first longitudinal auxiliary reinforcement strips are respectively connected with the corresponding second side walls; the top layer reinforcement further comprises a plurality of first transverse auxiliary reinforcement strips connected to the outer sides of the first longitudinal main reinforcement strips, and the plurality of first transverse auxiliary reinforcement strips are respectively connected with the corresponding second side walls; the top layer reinforcement further comprises a first reinforcement strip, a second reinforcement strip, a third reinforcement strip and a fourth reinforcement strip, wherein the first reinforcement strip is arranged on the front side of the box body, the first reinforcement strip is respectively connected with the front ends of the first longitudinal auxiliary reinforcement strips and the two first longitudinal main reinforcement strips, the second reinforcement strip is arranged on the rear side of the box body, the second reinforcement strip is respectively connected with the rear ends of the first longitudinal auxiliary reinforcement strips and the two first longitudinal main reinforcement strips, the third reinforcement strip is arranged on the left side of the box body, the third reinforcement strip is respectively connected with the left ends of the first transverse auxiliary reinforcement strips, the fourth reinforcement strip is arranged on the right side of the box body, and the fourth reinforcement strip is respectively connected with the right ends of the first transverse auxiliary reinforcement strips; the first support connecting pieces are respectively connected with the first two ends of the first reinforcing strip, the first two ends of the second reinforcing strip, the first two ends of the third reinforcing strip and the first two ends of the fourth reinforcing strip.

In the glass tempering equipment provided by the utility model, the structure reinforcing component comprises a bottom layer reinforcing piece positioned at the lower side of the middle layer reinforcing piece, wherein the bottom layer reinforcing piece comprises a plurality of third longitudinal auxiliary reinforcing strips and third transverse auxiliary reinforcing strips, the opposite ends of the third longitudinal auxiliary reinforcing strips and the third transverse auxiliary reinforcing strips are respectively connected with the first side plate and the second side wall which are oppositely arranged; the bottom layer reinforcement further comprises a fifth reinforcement strip, a sixth reinforcement strip, a seventh reinforcement strip and an eighth reinforcement strip; the fifth reinforcing strips are arranged on the front side of the box body, the fifth reinforcing strips are respectively connected with the front ends of a plurality of third longitudinal auxiliary reinforcing strips, the sixth reinforcing strips are arranged on the rear side of the box body, the sixth reinforcing strips are respectively connected with the rear ends of a plurality of third longitudinal auxiliary reinforcing strips, the seventh reinforcing strips are arranged on the left side of the box body, the seventh reinforcing strips are respectively connected with the left ends of a plurality of third transverse auxiliary reinforcing strips, the eighth reinforcing strips are arranged on the right side of the box body, and the eighth reinforcing strips are respectively connected with the right ends of a plurality of third transverse auxiliary reinforcing strips; the first two ends of the fifth reinforcing strip are respectively connected with the vertical side surfaces of the square through columns, which are positioned on the front side of the box body, the first two ends of the sixth reinforcing strip are respectively connected with the vertical side surfaces of the box body, which are positioned on the rear side of the box body, the seventh reinforcing strip and the eighth reinforcing strip are respectively connected between the two opposite second side walls.

The glass tempering equipment provided by the utility model has at least the following beneficial effects: the glass tempering equipment comprises a bottom frame and a plurality of furnace bodies, wherein the bottom frame comprises a plurality of supporting frames, the supporting frames are arranged at left and right intervals in a straight shape, two adjacent supporting frames are connected through at least two first connecting plates, and outer end covers of the supporting frames positioned at the head end and the tail end are connected with at least two second connecting plates; the first connecting plate and the second connecting plate which are connected with the same supporting frame are positioned on two opposite sides of the corresponding supporting frame; the furnace bodies are respectively supported on the supporting frames in a one-to-one correspondence manner, four positioning connecting pieces are arranged at the bottom of each furnace body, the four positioning connecting pieces of the furnace bodies positioned at the head end and the tail end are respectively connected and fixed with the two first connecting plates and the two second connecting plates, and the four positioning connecting pieces of the furnace bodies positioned at the middle part are respectively connected and fixed with the four first connecting plates; the top of each furnace body is provided with four pillars, a plurality of the pillars of the front side of the furnace body jointly support a first guide rail, a plurality of the pillars of the rear side of the furnace body jointly support a second guide rail, the left end of the first guide rail and the left end of the second guide rail are supported and fixed by a first support frame, and the right end of the first guide rail and the right end of the second guide rail are supported and fixed by a second support frame. Therefore, the middle parts of the first guide rail and the second guide rail are directly supported by the furnace body, a plurality of furnace bodies are positioned and fixed through the newly designed integrated chassis, the tops of the furnace bodies are respectively provided with the supporting columns, and the supporting columns are respectively connected with the first guide rail and the second guide rail so as to support the first guide rail and the second guide rail. Thereby saving materials and time originally used for constructing the middle part of the frame for supporting the guide rail (including the first guide rail and the second guide rail), saving manufacturing cost, improving manufacturing efficiency, and improving appearance.

Drawings

For a clearer description of an embodiment or of a technical solution in the prior art, the drawings that are required to be used in the description of the embodiment or of the prior art will be briefly described, it being obvious that the drawings in the description below are only embodiments of the utility model, and that other drawings can be obtained, without inventive effort, by a person skilled in the art from the drawings provided:

fig. 1 is a schematic perspective view of a prior art glass tempering apparatus;

fig. 2 is a schematic perspective view of a glass tempering apparatus according to the present embodiment;

fig. 3 is a schematic perspective view of a part of the structure of the glass tempering apparatus according to the present embodiment;

fig. 4 is a schematic plan view of the furnace body provided in this embodiment in a bottom view;

fig. 5 is a schematic perspective view (a) of a furnace body provided in this embodiment;

fig. 6 is a schematic perspective view of the inner housing according to the present embodiment;

fig. 7 is a schematic perspective view of the outer casing according to the present embodiment;

fig. 8 is a schematic perspective view (two) of the furnace body provided in this embodiment.

Reference numerals in the detailed description indicate:

Detailed Description

In order that the utility model may be understood more fully, the utility model will be described with reference to the accompanying drawings. Exemplary embodiments of the utility model are illustrated in the accompanying drawings. The utility model may, however, be embodied in many different forms and is not limited to the embodiments described herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used in the description of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model.

Referring to fig. 2, fig. 2 is a perspective combined schematic view of a glass tempering apparatus according to the present embodiment, and as shown in fig. 2, the glass tempering apparatus includes a chassis 1 and a plurality of furnace bodies 2. Referring to fig. 3, fig. 3 is a schematic perspective view of a portion of a structure of a glass tempering apparatus according to the present embodiment, as shown in fig. 3, the chassis 1 includes a plurality of supporting frames 11, a plurality of supporting frames 11 are arranged in a horizontal line shape at intervals, two adjacent supporting frames 11 are connected by at least two first connecting plates 12, and outer end covers of the supporting frames 11 located at the front end and the rear end are connected with at least two second connecting plates 13; the first connecting plate 12 and the second connecting plate 13 connected to the same supporting frame 11 are located at opposite sides of the corresponding supporting frame 11; the furnace bodies 2 are respectively supported on the supporting frames 11 in a one-to-one correspondence manner. Referring to fig. 4, fig. 4 is a schematic plan view of the furnace body 2 in a bottom view, as shown in fig. 4, four positioning connection pieces 21 are disposed at the bottom of each furnace body 2, the four positioning connection pieces 21 of the furnace body 2 at the front and rear ends are respectively connected and fixed with the two first connection plates 12 and the two second connection plates 13, and the four positioning connection pieces 21 of the furnace body 2 at the middle part are respectively connected and fixed with the four first connection plates 12; four supporting columns 22 are arranged at the top of each furnace body 2, a first guide rail 31 is supported by the supporting columns 22 at the front sides of the furnace bodies 2, a second guide rail 32 is supported by the supporting columns 22 at the rear sides of the furnace bodies 2, the left end of the first guide rail 31 and the left end of the second guide rail 32 are supported and fixed by a first supporting frame 41, and the right end of the first guide rail 31 and the right end of the second guide rail 32 are supported and fixed by a second supporting frame 42.

As can be seen in fig. 3, the supporting frame 11 includes two front-rear opposite transverse main frame strips 111 extending in the left-right direction, a plurality of left-right spaced longitudinal main frame strips 112 extending in the front-rear direction are connected between the two transverse main frame strips 111, and a plurality of front-rear spaced transverse auxiliary frame strips 113 extending in the left-right direction are connected between the two adjacent longitudinal main frame strips 112. With continued reference to fig. 3, each first connecting plate 12 is provided with two first positioning assemblies spaced left and right, each second connecting plate 13 is provided with one first positioning assembly, each positioning connecting piece 21 is provided with a second positioning assembly matched with the first positioning assembly, the second positioning assemblies of the four positioning connecting pieces 21 of the furnace body 2 positioned at the front end and the rear end are respectively connected with the first positioning assemblies of the two first connecting plates 12 and the first positioning assemblies of the two second connecting plates 13 in a one-to-one correspondence manner, and the second positioning assemblies of the four positioning connecting pieces 21 of the furnace body 2 positioned at the middle part are respectively connected with the first positioning assemblies of the four first connecting plates 12 in a one-to-one correspondence manner. Specifically, the first positioning component includes four first through holes 1141, the second positioning component includes four second through holes 1142, and the corresponding first positioning component and the second positioning component are locked and fixed by a first screw passing through the first through holes 1141 and the second through holes 1142.

Referring to fig. 5, fig. 5 is a schematic perspective view (i) of the furnace body 2 provided in this embodiment, as shown in fig. 5, a first support connection piece 221 is disposed on the top of each pillar 22, and the first support connection piece 221 and the first rail 31 or the second rail 32 are locked and fixed by a second screw. The furnace body 2 comprises an inner shell 23 and an outer shell 24, wherein the inner shell 23 is surrounded by the outer shell 24, and a structural reinforcement assembly is connected between the outer shell 24 and the inner shell 23. Referring to fig. 6, fig. 6 is a schematic perspective view of the inner housing 23 according to the present embodiment, as shown in fig. 6, the inner housing 23 includes four first side plates 231 connected end to end in sequence. Referring to fig. 7, fig. 7 is a schematic perspective view of the outer casing 24 provided in this embodiment, as shown in fig. 7, the outer casing 24 includes a main casing 241, where the main casing 241 includes four second side walls 2411 connected end to end in sequence and a bottom wall 2412 connected to bottoms of the four second side walls 2411, and the second side walls 2411 are formed by two connected second side plates. In this embodiment, the bottom of the inner shell 23 is fixedly connected to the bottom wall 2412 of the outer shell 24, see fig. 8, fig. 8 is a schematic perspective view (two) of the furnace body 2 provided in this embodiment, and the second side wall 2411 of the outer shell 24 is hidden in fig. 8, as shown in fig. 8, the structural reinforcement assembly includes a middle layer reinforcement 51, and the middle layer reinforcement 51 includes a plurality of second longitudinal auxiliary reinforcement strips 511 and second transverse auxiliary reinforcement strips 512 with two ends connected between the first side plate 231 and the second side wall 2411 which are oppositely arranged.

With continued reference to fig. 5 and 8, the outer casing 24 further includes four ribs Fang Tongzhu and 242 respectively connected to the main casing 241, the ribs Fang Tongzhu and 242 are covered by the corresponding second side walls 2411 so that only one vertical side of the ribs Fang Tongzhu and 242 are exposed to the casing, four ribs Fang Tongzhu and 242 are located on two opposite sides of the casing, and two vertical sides of the ribs Fang Tongzhu and 242 located on the same side of the casing are opposite to each other; the structural reinforcement assembly includes a top layer reinforcement 52 disposed on the upper side of the middle layer reinforcement 51, the top layer reinforcement 52 includes two first longitudinal main reinforcement bars 521 extending in the front-rear direction and opposite left-right, two first transverse main reinforcement bars 522 extending in the left-right direction and spaced apart from each other between the two first longitudinal main reinforcement bars 521, and the inner sides of the first longitudinal main reinforcement bars 521 and the inner sides of the first transverse main reinforcement bars 522 are respectively bonded to the corresponding first side plates 231.

With continued reference to fig. 5 and 8, a second support connection piece 2421 is connected to the top of the Fang Tongzhu 242, a third support connection piece 222 is disposed at the bottom of the pillar 22, and the corresponding Fang Tongzhu and the pillar 22 are fastened and connected by the second support connection piece 2421 and the third support connection piece 222; the top layer stiffener 52 further includes a plurality of first longitudinal auxiliary stiffening strips 523 connected to the outer side of the first transverse main stiffening strip 522, the plurality of first longitudinal auxiliary stiffening strips 523 being connected to the corresponding second side walls 2411, respectively; the top layer stiffener 52 further includes a plurality of first lateral auxiliary stiffener 524 attached to the outside of the first longitudinal main stiffener 521, the plurality of first lateral auxiliary stiffener 524 being attached to the corresponding second sidewall 2411; the top-layer stiffener 52 further includes a first stiffener 525, a second stiffener 526, a third stiffener 527, and a fourth stiffener 528, where the first stiffener 525 is disposed on the front side of the box, the first stiffener 525 is respectively connected to the front ends of the first longitudinal auxiliary stiffeners 523 and the two first longitudinal main stiffeners, the second stiffener 526 is disposed on the rear side of the box, the second stiffener 526 is respectively connected to the rear ends of the first longitudinal auxiliary stiffeners 523 and the two first longitudinal main stiffeners, the third stiffener 527 is disposed on the left side of the box, the third stiffener 527 is respectively connected to the left ends of the first transverse auxiliary stiffeners 524, the fourth stiffener 528 is disposed on the right side of the box, and the fourth stiffener 528 is respectively connected to the right ends of the first transverse auxiliary stiffeners 524; the first ends of the first reinforcement bars 525, the first ends of the second reinforcement bars 526, the first ends of the third reinforcement bars 527, and the first ends of the fourth reinforcement bars 528 are respectively connected with two opposite second support connection pieces 2421.

With continued reference to fig. 5 and 8, the structural reinforcement assembly includes a bottom reinforcement 53 positioned on the underside of the middle reinforcement 51, the bottom reinforcement 53 including a plurality of third longitudinal auxiliary reinforcement bars 531 and third transverse auxiliary reinforcement bars 532 having opposite ends respectively connecting the first side plate 231 and the second side wall 2411 which are oppositely disposed; the bottom layer reinforcement 53 further includes a fifth reinforcing bar 533, a sixth reinforcing bar 534, a seventh reinforcing bar 535, and an eighth reinforcing bar 536; the fifth reinforcing strips 533 are disposed on the front side of the box body, the fifth reinforcing strips 533 are respectively connected to the front ends of the third longitudinal auxiliary reinforcing strips 531, the sixth reinforcing strips 534 are disposed on the rear side of the box body, the sixth reinforcing strips 534 are respectively connected to the rear ends of the third longitudinal auxiliary reinforcing strips 531, the seventh reinforcing strips 535 are disposed on the left side of the box body, the seventh reinforcing strips 535 are respectively connected to the left ends of the third transverse auxiliary reinforcing strips 532, the eighth reinforcing strips 536 are disposed on the right side of the box body, and the eighth reinforcing strips 536 are respectively connected to the right ends of the third transverse auxiliary reinforcing strips 532; the first two ends of the fifth reinforcing strip 533 are respectively connected to the two vertical sides of the box body, which are exposed from the Fang Tongzhu, of the front side of the box body, the first two ends of the sixth reinforcing strip 534 are respectively connected to the two vertical sides of the box body, which are exposed from the Fang Tongzhu, of the rear side of the box body, and the seventh reinforcing strip 535 and the eighth reinforcing strip 536 are respectively connected between the two front and rear opposite second side walls 2411.

In summary, in the glass tempering apparatus provided in this embodiment, the middle portions of the first guide rail 31 and the second guide rail 32 are directly supported by the furnace body 2, and the plurality of furnace bodies 2 are fixed by the newly designed integrated chassis 1, the top portions of the plurality of furnace bodies 2 are respectively designed with the support posts 22, and the support posts 22 are respectively connected with the first guide rail 31 and the second guide rail 32 so as to support the first guide rail 31 and the second guide rail 32. Thereby saving materials and time originally used for constructing the middle portion of the frame for supporting the rails (including the first rail 31 and the second rail 32), saving manufacturing costs, improving manufacturing efficiency, and at the same time, improving the external appearance.

The embodiments of the utility model have been described above with reference to the accompanying drawings, but the utility model is not limited to the embodiments described above, which are merely illustrative and not restrictive, and many forms may be made by those of ordinary skill in the art without departing from the spirit of the utility model and the scope of the claims, which fall within the protection of the utility model.

Claims (10)

1. The glass tempering equipment is characterized by comprising an underframe (1) and a plurality of furnace bodies (2), wherein the underframe (1) comprises a plurality of supporting frames (11), the supporting frames (11) are arranged at left and right intervals in a straight shape, two adjacent supporting frames (11) are connected through at least two first connecting plates (12), and the outer end covers of the supporting frames (11) positioned at the front end and the tail end are connected with at least two second connecting plates (13); the first connecting plate (12) and the second connecting plate (13) which are connected with the same supporting frame (11) are positioned on two opposite sides of the corresponding supporting frame (11); the furnace bodies (2) are respectively supported on the supporting frames (11) in a one-to-one correspondence manner, four positioning connecting pieces (21) are arranged at the bottom of each furnace body (2), the four positioning connecting pieces (21) of the furnace bodies (2) positioned at the head end and the tail end are respectively connected and fixed with the two first connecting plates (12) and the two second connecting plates (13), and the four positioning connecting pieces (21) of the furnace bodies (2) positioned at the middle part are respectively connected and fixed with the four first connecting plates (12); four support columns (22) are arranged at the top of each furnace body (2), a plurality of support columns (22) at the front side of the furnace bodies (2) jointly support a first guide rail (31), a plurality of support columns (22) at the rear side of the furnace bodies (2) jointly support a second guide rail (32), the left end of the first guide rail (31) and the left end of the second guide rail (32) are supported and fixed by a first support frame (41), and the right end of the first guide rail (31) and the right end of the second guide rail (32) are supported and fixed by a second support frame (42).

2. Glass tempering apparatus according to claim 1, wherein each first connecting plate (12) is provided with two first positioning components spaced left and right, each second connecting plate (13) is provided with one first positioning component, each positioning connecting piece (21) is provided with a second positioning component matched with the first positioning component, the second positioning components of the four positioning connecting pieces (21) of the furnace body (2) positioned at the front end and the rear end are respectively connected with the first positioning components of the two first connecting plates (12) and the first positioning components of the two second connecting plates (13) in one-to-one correspondence, and the second positioning components of the four positioning connecting pieces (21) of the furnace body (2) positioned in the middle part are respectively connected with the first positioning components of the four first connecting plates (12) in one-to-one correspondence.

3. The glass tempering apparatus according to claim 2, wherein the first positioning assembly comprises a plurality of first through holes (1141), the second positioning assembly comprises a plurality of second through holes (1142), and the corresponding first positioning assembly and second positioning assembly are fastened by first screws passing through the first through holes (1141) and the second through holes (1142).

4. A glass tempering apparatus according to claim 3, wherein the supporting frame (11) comprises two front-rear opposite lateral main frame strips (111) extending in the left-right direction, a plurality of left-right spaced longitudinal main frame strips (112) extending in the front-rear direction are connected between the two lateral main frame strips (111), and a plurality of front-rear spaced lateral auxiliary frame strips (113) extending in the left-right direction are connected between the two adjacent longitudinal main frame strips (112).

5. Glass tempering apparatus according to claim 4, wherein the top of each pillar (22) is provided with a first support connection piece (221), the first support connection piece (221) being fastened to the first rail (31) or the second rail (32) by means of a second screw.

6. Glass tempering apparatus according to claim 1, wherein the furnace body (2) comprises an inner shell (23) and an outer shell (24), the outer shell (24) surrounding the inner shell (23), a structural reinforcement assembly being connected between the outer shell (24) and the inner shell (23).

7. The glass tempering apparatus according to claim 6, wherein the inner housing (23) comprises four first side plates (231) connected end to end in sequence, the outer housing (24) comprises a main housing (241), the main housing (241) comprises four second side walls (2411) connected end to end in sequence and a bottom wall (2412) connected to the bottoms of the four second side walls (2411), the bottoms of the inner housing (23) are all fixedly connected with the bottom wall (2412) of the outer housing (24), the structural reinforcement assembly comprises a middle layer reinforcement (51), and the middle layer reinforcement (51) comprises a plurality of second longitudinal auxiliary reinforcement strips (511) and second transverse auxiliary reinforcement strips (512) connected between the first side plates (231) and the second side walls (2411) which are oppositely arranged at the end to end, respectively.

8. The glass tempering apparatus according to claim 7, wherein the outer case (24) further comprises four Fang Tongzhu (242) respectively connected to four edges of the main case (241), the Fang Tongzhu (242) being covered by the corresponding second side wall (2411) such that only one vertical side of the Fang Tongzhu (242) is exposed to the case, four of the Fang Tongzhu (242) being located on opposite sides of the case in pairs, respectively, and two of the Fang Tongzhu (242) located on the same side of the case being directly opposite to the vertical side of the case; the structure reinforcing component comprises a top layer reinforcing piece (52) positioned on the upper side of the middle layer reinforcing piece (51), the top layer reinforcing piece (52) comprises two first longitudinal main reinforcing strips (521) which are opposite left and right and extend along the front-rear direction, two first transverse main reinforcing strips (522) which are spaced front and rear and extend along the left-right direction are connected between the two first longitudinal main reinforcing strips (521), and the inner side of the first longitudinal main reinforcing strips (521) and the inner side of the first transverse main reinforcing strips (522) are respectively in fit connection with the corresponding first side plates (231).

9. The glass tempering apparatus according to claim 8, wherein the top of the Fang Tongzhu (242) is connected with a second support connecting piece (2421), the bottom of the pillar (22) is provided with a third support connecting piece (222), and the corresponding Fang Tongzhu (242) and the pillar (22) are fastened and connected by the second support connecting piece (2421) and the third support connecting piece (222); -the top layer reinforcement (52) further comprises a plurality of first longitudinal auxiliary reinforcement strips (523) connected to the outside of the first transverse main reinforcement strips (522), the plurality of first longitudinal auxiliary reinforcement strips (523) being connected to the respective second side walls (2411); -the top layer reinforcement (52) further comprises a plurality of first transverse auxiliary reinforcement strips (524) connected to the outside of the first longitudinal main reinforcement strips (521), the plurality of first transverse auxiliary reinforcement strips (524) being connected to the corresponding second side walls (2411), respectively; the top layer reinforcement (52) further comprises a first reinforcement bar (525), a second reinforcement bar (526), a third reinforcement bar (527) and a fourth reinforcement bar (528), wherein the first reinforcement bar (525) is arranged at the front side of the box body, the first reinforcement bar (525) is respectively connected with the front ends of a plurality of first longitudinal auxiliary reinforcement bars (523) and two first longitudinal main reinforcement bars (521), the second reinforcement bar (526) is arranged at the rear side of the box body, the second reinforcement bar (526) is respectively connected with the first longitudinal auxiliary reinforcement bars (523) and the rear ends of the two first longitudinal main reinforcement bars (521), the third reinforcement bar (527) is arranged at the left side of the box body, the third reinforcement bar (527) is respectively connected with the left ends of a plurality of first transverse auxiliary reinforcement bars (524), the fourth reinforcement bar (528) is arranged at the right side of the box body, and the fourth reinforcement bar (528) is respectively connected with the right ends of the first transverse auxiliary reinforcement bars (524); the first two ends of the first reinforcement strip (525), the first two ends of the second reinforcement strip (526), the first two ends of the third reinforcement strip (527) and the first two ends of the fourth reinforcement strip (528) are respectively connected with two second support connecting pieces (2421) with opposite positions.

10. The glass tempering apparatus according to claim 8, wherein the structural reinforcement assembly comprises a bottom reinforcement (53) located at the lower side of the middle reinforcement (51), the bottom reinforcement (53) comprising a plurality of third longitudinal auxiliary reinforcement strips (531) and third transverse auxiliary reinforcement strips (532) having opposite ends respectively connecting the first side plate (231) and the second side wall (2411) which are oppositely disposed; the bottom layer reinforcement (53) further comprises a fifth reinforcing strip (533), a sixth reinforcing strip (534), a seventh reinforcing strip (535) and an eighth reinforcing strip (536); the fifth reinforcing strips (533) are arranged on the front side of the box body, the fifth reinforcing strips (533) are respectively connected with the front ends of a plurality of third longitudinal auxiliary reinforcing strips (531), the sixth reinforcing strips (534) are arranged on the rear side of the box body, the sixth reinforcing strips (534) are respectively connected with the rear ends of a plurality of third longitudinal auxiliary reinforcing strips (531), the seventh reinforcing strips (535) are arranged on the left side of the box body, the seventh reinforcing strips (535) are respectively connected with the left ends of a plurality of third transverse auxiliary reinforcing strips (532), the eighth reinforcing strips (536) are arranged on the right side of the box body, and the eighth reinforcing strips (536) are respectively connected with the right ends of a plurality of third transverse auxiliary reinforcing strips (532); the first two ends of the fifth reinforcing strip (533) are respectively connected with two Fang Tongzhu (242) which are positioned on the front side of the box body and are exposed out of the vertical side surface of the box body, the first two ends of the sixth reinforcing strip (534) are respectively connected with two Fang Tongzhu (242) which are positioned on the rear side of the box body and are exposed out of the vertical side surface of the box body, and the seventh reinforcing strip (535) and the eighth reinforcing strip (536) are respectively connected between two opposite front and rear second side walls (2411).