CN110966288B

CN110966288B - Gas-cooker panel components bonding frock

Info

Publication number: CN110966288B
Application number: CN201811149517.1A
Authority: CN
Inventors: 纵勉程
Original assignee: Ningbo Fotile Kitchen Ware Co Ltd
Current assignee: Ningbo Fotile Kitchen Ware Co Ltd
Priority date: 2018-09-29
Filing date: 2018-09-29
Publication date: 2021-04-16
Anticipated expiration: 2038-09-29
Also published as: CN110966288A

Abstract

The invention relates to a gas stove panel assembly bonding tool which comprises a working frame, a pressing cylinder, a pressing plate, a positioning groove, a rotary pressing cylinder, a mounting groove, a positioning boss and a positioning pushing assembly, wherein a buffer is arranged in the mounting groove and can be always supported on the side surface of the positioning boss, the positioning pushing assembly comprises a pushing cylinder, a piston rod of the pushing cylinder is fixedly provided with a pushing block, and the pushing block can counteract the acting force of the buffer on the positioning boss when the pushing block applies the pushing force of a glass panel and transmits the pushing force to the positioning boss. The invention can ensure that the glass panel and the liquid bearing disc can always keep correct relative positions in the process of positioning the glass panel and the decorative strip. After the glass panel, the liquid bearing disc and the decorative strip are positioned, the pressing block is driven to descend by the rotary pressing cylinder to press the corresponding short side edge of the glass panel and the bonding surface of the decorative strip, and the pressing plate moves downwards under the driving of the pressing cylinder to press the liquid bearing disc and the glass panel, so that the corresponding surfaces of the liquid bearing disc and the glass panel are bonded.

Description

Gas-cooker panel components bonding frock

Technical Field

The invention relates to the field of bonding tools for bonding a certain component to another component, in particular to a gas stove panel assembly bonding tool.

Background

The single-eye gas stove is a gas stove with only one burner, and a glass panel and a decorative strip are generally required to be bonded into a whole in the processing process. In recent years, in order to improve the aesthetic appearance of the gas stove and the user experience, aluminum alloy decorative strips are generally adopted. Before bonding, a double-sided adhesive tape for bonding is preset on the decorative strip, bonding is generally realized through manual operation, and the manual operation has low operation efficiency and is easy to be askew to cause the decorative strip to be scrapped. In addition, due to the structural and aesthetic requirements of the glass panel, the distance of 0.5mm is reserved between the decorative strip and the short side and the single side of the glass panel, and the bonding inaccuracy can be greatly increased by means of manual operation alone. In traditional gas-cooker processing mode, hold liquid dish snap-on the gas mixing chamber, can lead to holding the skew of liquid dish and glass panels mounted position like this to cause the influence to the product quality.

Therefore, at present, the liquid containing disc and the glass panel are pre-fixed by generally adopting double faced adhesive tapes, and the liquid containing disc and the gas mixing chamber are fixed by using screws during the assembly of the gas stove, so that the accuracy of the position of the liquid containing disc on the glass panel is required to be ensured, and the smoothness of subsequent assembly is ensured.

Disclosure of Invention

The first technical problem to be solved by the invention is to provide a gas stove panel assembly bonding tool capable of accurately positioning a liquid bearing disc and a glass panel.

The second technical problem to be solved by the invention is to provide a gas stove panel assembly bonding tool which can accurately position and bond a decorative strip and a glass panel.

The technical scheme adopted by the invention for solving the technical problems is as follows: a gas stove panel assembly bonding tool comprises a working frame, the top of the working frame is a worktable with a table top, the table-board is provided with a vertical frame, the vertical frame is provided with a pressing cylinder, a piston rod of the pressing cylinder is fixed with a pressing plate, the panel component comprises a glass panel, a decorative strip and a liquid bearing disc, the glass panel is provided with a mounting opening, the decorative strip comprises a first plate body and a second plate body which are mutually vertical, the second plate body is provided with an adhesive surface, the inner side of the liquid bearing disc is provided with at least three mounting holes at intervals along the circumferential direction, it is characterized in that one side of the table-board is provided with a positioning groove which is matched with the decorative strip and is used for placing the decorative strip, one side of the positioning groove is provided with a rotary compacting cylinder, when the decorative strip is placed in the positioning groove, the bonding surface is exposed on the table surface, and the pressing block of the rotary pressing cylinder can be opposite to the bonding surface;

the other side of the table top is provided with an installation groove with an upward opening and a positioning boss for positioning a liquid bearing disc below the pressure plate, the positioning boss is disc-shaped in appearance and matched with the installation opening in size, the positioning boss is movably installed in the installation groove in a clearance fit manner, the top surface of the positioning boss protrudes upwards out of the installation groove and is provided with positioning upright posts which are in one-to-one correspondence with the installation holes at intervals along the circumferential direction by taking the circle center of the top surface as the center, the groove wall of the installation groove is horizontally provided with a buffer, and the buffer is supported on the side surface of the positioning boss;

still be provided with the square bonding station and the location promotion subassembly that are used for placing glass panels on the mesa, above-mentioned location promotion subassembly enables glass panels location on above-mentioned bonding station to it is relative with the bonding face of ornamental strip to make glass panels correspond short side, and this location promotion subassembly is including setting up the push cylinder on bonding station side, is fixed with the ejector pad on this push cylinder's the piston rod, and when this ejector pad was applyed glass panels' thrust and was transmitted to the location boss, can offset the effort of buffer to the location boss.

In order to better offset the acting force of the buffer on the positioning boss by the thrust of the push block, the influence of the thrust on the relative positioning position of the glass panel and the liquid bearing disc can be better avoided, the buffer and the push cylinder are oppositely arranged on two sides of the positioning boss, and the push cylinder and the positioning groove are oppositely arranged.

Furthermore, the cross section of the mounting groove is circular, the buffer comprises a first buffer and a second buffer, the first buffer and the second buffer are respectively arranged along the radial direction of the mounting groove, and an included angle formed by the first buffer and the second buffer is 90 degrees; the pushing cylinder comprises a first pushing cylinder and a second pushing cylinder, the first pushing cylinder and the second pushing cylinder are arranged on two adjacent sides of the bonding station respectively, the first pushing cylinder is arranged right opposite to the first buffer and the mounting groove respectively, the second pushing cylinder is arranged right opposite to the second buffer, and the second pushing cylinder is arranged adjacent to the mounting groove and is provided with a 90-degree included angle.

Still further, the number of the first pushing cylinders and the number of the second pushing cylinders are two, the two first pushing cylinders are symmetrically arranged by taking the central axis of the first buffer as a center, and the two second pushing cylinders are symmetrically arranged by taking the central axis of the second buffer as a center.

The movable installation of location boss in the mounting groove can be realized through multiple specific modes, square socket has been seted up to the center department of the bottom surface of mounting groove, the vertical downwardly extending's of center department of the bottom surface of location boss square inserted block, the shape of this square inserted block and above-mentioned socket phase-match insert in this socket to the length and the width of inserted block all are less than above-mentioned socket, and above-mentioned first buffer is relative with one side of inserted block, and the second buffer is relative with the opposite side of inserted block. The installation of the positioning boss and the positioning groove can be facilitated, and the combined force of the acting force applied to the positioning boss by the corresponding buffer and the pushing cylinder can better drive the positioning boss to move along with the glass panel, so that the positioning boss and the glass panel can always keep the correct relative position in the positioning process of the glass panel.

Preferably, the positioning pushing assembly further comprises a first positioning block and a positioning blocking wall, the first positioning block is arranged on the other side of the bonding station, the number of the first positioning block is two, the two first positioning blocks are respectively opposite to the second pushing cylinder, the positioning grooves are arranged on the other side of the bonding station, the vertical and upward extending positioning blocking wall is arranged on the outer groove edge of each positioning groove along the length direction of the positioning groove, the height of each positioning blocking wall is at least higher than that of the first plate body of the decorating strip, the first plate body can lean against the positioning blocking wall, and the short side edge of the glass panel can abut against the first plate body. Therefore, the decorative strip can be more stably placed in the positioning groove, and the glass panel and the decorative strip can be positioned mutually more accurately and stably.

In order to make the panel assembly more attractive, the length of the decorative strip is shorter than the short side edge a of the glass panel, a second positioning block is arranged on one side of the positioning groove, a convex strip with the thickness of 1/2a is outwards convexly arranged on the side face, opposite to the positioning groove, of the second positioning block, and the convex strip can abut against the short side edge of the first plate body. This makes both ends of the trim strip 1/2a shorter than the corresponding short sides of the glass panel, thereby enabling the appearance of the panel assembly to be more aesthetically pleasing.

In order to avoid the bonding of the glass panel and the decorative strip in the positioning process and further influence the positioning effect, a floating roof assembly is further arranged on the table board and can be supported below the glass panel to enable the bonding surface of the glass panel and the decorative strip to keep a certain distance, and when the glass panel is pressed down by the pressing plate under the action of the pressing cylinder, the floating roof assembly can move downwards along with the glass panel to enable the corresponding position of the glass panel to be abutted against the bonding surface of the decorative strip.

Furthermore, the floating roof assembly is composed of four floating roof platforms uniformly distributed on the bonding station, each floating roof platform vertically penetrates through the table top where the bonding station is located and is respectively fixed on piston rods of four floating roof cylinders located on the bottom surface of the workbench, and each floating roof platform can be driven by the floating roof cylinders to lift up and down relative to the table top of the workbench. The floating roof assembly can not only avoid mistaken adhesion of the glass panel and the decorative strip before adhesion, but also jack up the adhered panel assembly after adhesion, thereby facilitating discharging.

In order to enable the pressing plate to better press the glass panel and the liquid bearing disc simultaneously, the middle part of the bottom surface of the pressing plate is upwards concavely provided with a pressing groove matched with the shape of the positioning boss for placing the liquid bearing disc, and the periphery of the pressing groove forms a pressing ring surface which is propped against the glass panel.

Compared with the prior art, the invention has the advantages that: according to the invention, the liquid bearing disc is positioned through the positioning boss, and the positioning upright columns are arranged at intervals along the circumferential direction by taking the circle center of the top surface of the positioning boss as the center, so that the liquid bearing disc and the positioning boss are concentrically arranged, the mounting port on the glass panel is matched with the positioning boss and sleeved on the positioning boss, the concentric arrangement of the liquid bearing disc and the mounting port is further realized, and then the positioning of the liquid bearing disc on the glass panel is realized; in addition, fix a position the ornamental strip through the constant head tank, promote the subassembly through the location and can promote the glass panels and make it fix a position on the bonding station, and make the short side that corresponds of glass panels and the face of bonding of ornamental strip relative, and, be provided with the buffer in the mounting groove for installing the location boss, the buffer can be held in the side of location boss all the time, and when the thrust that the ejector pad in the location promotes the subassembly applyed the glass panels transmits to the location boss, can offset the effort of buffer to the location boss, enable like this glass panels and ornamental strip location in-process, the glass panels can keep correct relative position with holding the liquid dish all the time. After the glass panel, the liquid bearing disc and the decorative strip are positioned, the pressing block is driven to descend by the rotary pressing cylinder to press the corresponding short side edge of the glass panel and the bonding surface of the decorative strip, and the pressing plate moves downwards under the driving of the pressing cylinder to press the liquid bearing disc and the glass panel, so that the corresponding surfaces of the liquid bearing disc and the glass panel are bonded.

Drawings

FIG. 1 is a schematic structural diagram of a gas stove panel assembly bonding tool in an embodiment of the invention;

FIG. 2 is a schematic view of the structure of FIG. 1 in another direction;

FIG. 3 is a schematic partial structural view of a gas cooker panel assembly bonding tool in an embodiment of the invention;

FIG. 4 is a partial exploded view of the gas cooker panel assembly bonding tool in an embodiment of the invention;

FIG. 5 is an enlarged view of section III of FIG. 4;

FIG. 6 is a schematic view of the structure of FIG. 4 in another direction;

FIG. 7 is a schematic structural diagram of a second positioning block according to an embodiment of the present invention;

FIG. 8 is a schematic view of a partial structure of an embodiment of the present invention in a state where a glass panel and a decorative strip are placed;

FIG. 9 is a schematic view of the structure of FIG. 8 in another direction;

FIG. 10 is a schematic view of a partial structure of the embodiment of the present invention in a state where a glass panel, a decorative strip, and a liquid-receiving tray are placed;

FIG. 11 is an enlarged view of section I of FIG. 8;

fig. 12 is an enlarged view of section ii in fig. 8.

Detailed Description

The invention is described in further detail below with reference to the accompanying examples.

As shown in fig. 1 to 12, in the embodiment, the gas stove is a single-hole gas stove, the panel assembly of the gas stove includes a glass panel 121, a decoration strip 122 and a liquid receiving disc 123, the glass panel 121 is provided with a mounting opening 121a, the decoration strip 122 includes a first plate body 122a and a second plate body 122b which are perpendicular to each other, the second plate body 122b is provided with a bonding surface, and four mounting holes 123a are formed in the inner side of the liquid receiving disc 123 at intervals along the circumferential direction.

The bonding tool comprises a working frame 1, wherein the top of the working frame 1 is a working table 10 with a table top 100, a vertical frame 6 is arranged on the table top 100, a pressing cylinder 61 is installed on the vertical frame 6, and a pressing plate 62 is fixed on a piston rod of the pressing cylinder 61.

Further, the table board 100 has a bonding station 11 for placing the glass panel 121, a positioning groove 2 matched with the decoration strip 122 and for placing the decoration strip 122 is opened on the rear side of the bonding station 11, a rotary pressing cylinder 3 is arranged on the rear side of the positioning groove 2, when the decoration strip 122 is placed in the positioning groove 2, the bonding surface of the decoration strip is exposed on the table board 100, and the pressing block 31 of the rotary pressing cylinder 3 can be directly opposite to the bonding surface, in this embodiment, the rotary pressing cylinders 3 are two and are respectively arranged at two ends of the positioning groove 2.

When the decorative strip 122 is placed in the positioning groove 2, the second plate body 122b is flat in the positioning groove 2, so that the bonding surface on the second plate body 122b is exposed on the bonding station 11 and is flush with the table top 100 at the bonding station 11. In order to enable the trim strip 122 to be placed in the positioning slot 2 more firmly, the rear slot edge of the positioning slot 2 is provided with the above-mentioned positioning blocking wall 21 extending vertically upwards along the length direction thereof, and the height of the positioning blocking wall 21 is at least equal to the height of the first plate body 122a of the trim strip 122 and can be leaned against by the first plate body 122 a. In addition, a second positioning block 5 is disposed on the right side of the positioning groove 2, a protruding strip 51 is disposed on the side surface of the second positioning block 5 opposite to the positioning groove 2 in an outward protruding manner, the protruding strip 51 can abut against the short side of the first plate 122a, the length of the decoration strip 122 is shorter than the short side a of the glass panel 121, and the thickness of the protruding strip 51 is 1/2a, so that both ends of the decoration strip 122 are shorter than the corresponding short side 1/2a of the glass panel 121, thereby enabling the appearance of the panel assembly to be more beautiful. In this embodiment, a is preferably 1 mm.

The bonding station 11 is provided with a mounting groove 8 and a positioning boss 7 below the pressing plate 62, the mounting groove 8 is circular and is opened upwards, the positioning boss 7 is disc-shaped, and four positioning upright posts 71 which are in one-to-one correspondence with the mounting holes 123a are arranged on the top surface of the positioning boss at intervals along the circumferential direction by taking the circle center as the center. In this embodiment, the positioning boss 7 is sized to fit the mounting opening 121a and is movably mounted in the mounting groove 8 with a clearance fit, and the top surface of the positioning boss 7 protrudes upward from the mounting groove 8. The groove wall of the mounting groove 8 is horizontally provided with a buffer which can be always supported on the side surface of the positioning boss 7.

Further, the table board 100 is further provided with a positioning pushing assembly 4, the positioning pushing assembly 4 can push the glass panel 121 to be positioned on the bonding station 11, and the corresponding short side of the glass panel 121 is opposite to the bonding surface of the decorative strip 122, the positioning pushing assembly 4 comprises a pushing cylinder arranged on the side of the bonding station 11, a pushing block is fixed on a piston rod of the pushing cylinder, and when the pushing block applies the pushing force of the glass panel 121 to be transmitted to the positioning boss 7, the action force of the buffer on the positioning boss 7 can be counteracted, so that the glass panel 121 and the decorative strip 122 can always keep a correct relative position in the positioning process of the glass panel 121 and the decorative strip 122.

As can be seen from the above, in the present invention, the positioning boss 7 is used to position the liquid bearing disc 123, and the positioning upright column 71 is circumferentially spaced around the center of the top surface of the positioning boss 7, so that the liquid bearing disc 123 and the positioning boss 7 are concentrically arranged, and the mounting port 121a on the glass panel 121 is matched with the positioning boss 7 and sleeved on the positioning boss 7, thereby realizing concentric arrangement of the liquid bearing disc 123 and the mounting port 121a, and further realizing positioning of the liquid bearing disc 123 on the glass panel 121; in addition, the decorative strip 122 is positioned through the positioning groove 2, the glass panel 121 can be pushed through the positioning pushing assembly 4 to be positioned on the bonding station 11, the corresponding short side edge of the glass panel 121 is opposite to the bonding surface of the decorative strip 122, a buffer is arranged in the mounting groove 8 for mounting the positioning boss 7 and can be always propped against the side surface of the positioning boss 7, and when the pushing block in the positioning pushing assembly 4 applies the pushing force of the glass panel 121 to the positioning boss 7, the acting force of the buffer on the positioning boss 7 can be counteracted, so that the glass panel 121 and the decorative strip 122 can always keep a correct relative position in the positioning process of the glass panel 121 and the liquid bearing disc 123. After the glass panel 121, the liquid bearing disc 123 and the decorative strip 122 are positioned, the pressing cylinder 3 is rotated to drive the pressing block 31 to descend to press the corresponding short side edge of the glass panel 121 and the bonding surface of the decorative strip 122, and the pressing plate 62 is driven by the pressing cylinder 61 to move downwards and press the liquid bearing disc 123 and the glass panel 121, so that the liquid bearing disc 123 and the corresponding surface of the glass panel 121 are bonded.

Further, the cross section of the mounting groove 8 is circular, the buffer comprises a first buffer 81 and a second buffer 82, the first buffer 81 and the second buffer 82 are respectively arranged along the radial direction of the mounting groove 8, and an included angle formed by the first buffer 81 and the second buffer 82 is 90 degrees; the pushing cylinders comprise a first pushing cylinder 41 and a second pushing cylinder 42, the first pushing cylinder 41 and the second pushing cylinder 42 are respectively arranged on two adjacent sides of the bonding station 11, specifically, the first pushing cylinder 41 is arranged on the front side of the bonding station 11, the second pushing cylinder 42 is arranged on the left side of the bonding station 11, the first pushing cylinder 41 is respectively arranged right opposite to the first buffer 81 and the positioning groove 2, the second pushing cylinder 42 is arranged right opposite to the second buffer 82, and the second pushing cylinder 42 is adjacent to the positioning groove 2 and is arranged at an included angle of 90 degrees. Still further, there are two first pushing cylinders 41 and two second pushing cylinders 42, respectively, and the two first pushing cylinders 41 are symmetrically disposed with the central axis of the first buffer 81 as the center, and the two second pushing cylinders 42 are symmetrically disposed with the central axis of the second buffer 82 as the center.

The positioning pushing assembly 4 further includes two first positioning blocks 43 disposed on the other side of the bonding station 11 and respectively opposite to the second pushing cylinders 42, so as to more accurately and stably position the glass panel 121 and the decorative strip 122.

The movable installation of the positioning boss 7 in the installation groove 8 can be realized in various specific ways, a square socket 80 is opened at the center of the bottom surface of the installation groove 8, a square insertion block 72 vertically extending downwards is arranged at the center of the bottom surface of the positioning boss 7, the shape of the square insertion block 72 is matched with that of the socket 80 and is inserted into the socket 80, the length and the width of the insertion block 72 are smaller than those of the socket 80, the first buffer 81 is opposite to one side surface of the insertion block 72, and the second buffer 81 is opposite to the other side surface of the insertion block 72. The installation of the positioning boss 7 and the installation groove 8 can be facilitated, and the resultant force of the acting force applied to the positioning boss 7 by the corresponding buffer 81 and the pushing cylinder can better drive the positioning boss 7 to move along with the glass panel 121, so that the positioning boss 7 and the glass panel 121 can always keep correct relative positions in the positioning process of the glass panel 121.

In addition, in order to avoid the adhesion between the glass panel 121 and the adhesion surface of the decorative strip 122 in the positioning process, thereby affecting the positioning effect, the table board 100 is further provided with a floating roof assembly 9, the floating roof assembly 9 can be supported below the glass panel 121 to keep a certain distance between the glass panel 121 and the adhesion surface of the decorative strip 122, and when the pressing plate 62 presses the glass panel 121 downwards under the action of the pressing cylinder 61, the floating roof assembly 9 can descend along with the glass panel 121 to enable the corresponding part of the glass panel 121 to be abutted against the adhesion surface of the decorative strip 122. Specifically, in this embodiment, the floating roof assembly 9 is four floating roof platforms 91 uniformly distributed on the bonding station 11, each floating roof platform 91 vertically penetrates through the table top 100 where the bonding station 11 is located, and is respectively fixed on the piston rods of four floating roof cylinders 92 located on the bottom surface of the working table 10, and each floating roof platform 91 can be driven by the floating roof cylinder 92 to move up and down relative to the table top 100 of the working table 10. The floating roof assembly 9 can not only avoid mistaken adhesion of the glass panel 121 and the decorative strip 122 before adhesion, but also jack up the adhered panel assembly after adhesion, thereby facilitating discharging.

In order to enable the pressing plate 62 to better press the glass panel 121 and the liquid bearing disc 123 simultaneously, the middle part of the bottom surface of the pressing plate 62 is provided with a pressing groove 621 which is matched with the shape of the positioning boss 7 on which the liquid bearing disc 123 is placed in an upward concave manner, and the periphery of the pressing groove 621 forms a pressing ring surface 622 which is abutted against the glass panel 121.

The working process of the invention is as follows:

connect good air supply, power before placing the work piece of treating bonding, guarantee the unblocked of gas circuit, press the start button, make the frock have no work piece operation, adjust the rate of motion of each cylinder, wherein guarantee the motion uniformity of four floating roof cylinders 92 to make four floating roof platforms 91 be higher than mesa 1003mm before the operation, in order to guarantee to compress tightly the pressurize time of cylinder 61.

1. Placing the decorative strip 122 in the positioning groove 8, and making the outer side surface of the second plate body 122b abut against the positioning baffle wall 21;

2. placing the glass panel 121 on the bonding station 11, so that the mounting opening 121a is sleeved on the positioning boss 7 and the glass panel 121 is positioned on the four floating platforms 91;

3. starting the four pushing cylinders, pushing the glass panel 121 to the right rear side by the four pushing blocks 40, so that the corresponding side edges of the glass panel 121 are respectively abutted against the first positioning block 43 and the second plate body 122b, and at the moment, each pushing cylinder offsets the supporting force of the buffer 81 to the positioning boss 7, so that the positioning boss 7 moves along with the glass panel 121;

4. placing the liquid bearing disc 123 on the positioning boss 7, and respectively sleeving the mounting holes 123a on the corresponding positioning upright posts 71, so that the liquid bearing disc 123 and the top surface of the positioning boss 7 are concentrically arranged, and the liquid bearing disc 123 and the mounting hole 121a of the glass panel 121 are concentrically positioned;

5. the four floating roof cylinders 92 reset, the rotary pressing cylinder 3 and the pressing cylinder 61 are started simultaneously, the rotary pressing cylinder 3 drives the pressing block 31 to descend to press the corresponding short side edge of the glass panel 121 and the bonding surface of the decorative strip 122, the pressing plate 62 moves downwards under the driving of the pressing cylinder 61 and presses the liquid bearing disc 123 and the glass panel 121, and the rotary pressing cylinder 3 and the pressing cylinder 61 reset after the pressure is maintained for 5 s;

6. and starting the four floating top cylinders 92 again to eject the bonded panel assembly.

Claims

1. A gas stove panel assembly bonding tool comprises a working frame (1), wherein the top of the working frame (1) is a working table (10) with a table top (100), a vertical frame (6) is arranged on the table top (100), a pressing cylinder (61) is installed on the vertical frame (6), a pressing plate (62) is fixed on a piston rod of the pressing cylinder (61), the panel assembly comprises a glass panel (121), a decorative strip (122) and a liquid bearing disc (123), a mounting hole (121a) is formed in the glass panel (121), the decorative strip (122) comprises a first plate body (122a) and a second plate body (122b) which are perpendicular to each other, a bonding surface is arranged on the second plate body (122b), at least three mounting holes (123a) are formed in the inner side of the liquid bearing disc (123) at intervals along the circumferential direction, and the gas stove panel assembly bonding tool is characterized in that a positioning groove (2) which is matched with the decorative strip (122) and used for placing the decorative strip (122) is formed in one side of, a rotary pressing cylinder (3) is arranged on one side of the positioning groove (2), when the decoration strip (122) is placed in the positioning groove (2), the bonding surface of the decoration strip is exposed on the table top (100), and a pressing block (31) of the rotary pressing cylinder (3) can be opposite to the bonding surface;

the other side of the table top (100) is provided with an installation groove (8) with an upward opening and a positioning boss (7) below the pressing plate (62), the positioning boss (7) is disc-shaped in appearance and matched with the installation opening (121a) in size, the positioning boss (7) is movably installed in the installation groove (8) in a clearance fit manner, the top surface of the positioning boss (7) protrudes upwards out of the installation groove (8) and is provided with positioning upright columns (71) which are in one-to-one correspondence with the installation holes (123a) at intervals along the circumferential direction by taking the circle center of the top surface as the center, a buffer (81) is horizontally arranged on the groove wall of the installation groove (8), and the buffer (81) can be always supported on the side surface of the positioning boss (7);

the table top (100) is also provided with a square bonding station (11) for placing the glass panel (121) and a positioning pushing assembly (4), the positioning pushing assembly (4) can push the glass panel (121) to be positioned on the bonding station (11), the corresponding short side edge of the glass panel (121) is opposite to the bonding surface of the decorative strip (122), the positioning pushing assembly (4) comprises a pushing cylinder arranged on the side edge of the bonding station (11), a push block (40) is fixed on a piston rod of the pushing cylinder, and when the pushing block (40) applies the pushing force of the glass panel (121) to be transmitted to the positioning boss (7), the acting force of the buffer (81) on the positioning boss (7) can be counteracted,

during bonding, the rotary pressing cylinder (3) drives the pressing block (31) to descend to press the corresponding short side edge of the glass panel (121) and the bonding surface of the decorative strip (122), and the pressing plate (62) descends under the driving of the pressing cylinder (61) and presses the liquid bearing disc (123) and the glass panel (121) to bond the corresponding surfaces of the liquid bearing disc (123) and the glass panel (121).

2. The gas range panel assembly bonding tool as set forth in claim 1, wherein the buffers (81) are disposed at both sides of the positioning bosses (7) opposite to the push cylinders, and the push cylinders are disposed opposite to the mounting grooves (8).

3. The gas stove panel assembly bonding tool set forth in claim 2, wherein the mounting groove (8) is circular in cross section, the buffer comprises a first buffer (81) and a second buffer (82), the first buffer (81) and the second buffer (82) are respectively arranged along the radial direction of the mounting groove (8), and an included angle formed by the first buffer (81) and the second buffer (82) is (90 °);

the push cylinder comprises a first push cylinder (41) and a second push cylinder (42), the first push cylinder (41) and the second push cylinder (42) are arranged on two adjacent sides of the bonding station (11) respectively, the first push cylinder (41) is arranged right opposite to the first buffer (81) and the positioning groove (2) respectively, the second push cylinder (42) is arranged right opposite to the second buffer (81), and the second push cylinder (42) is arranged adjacent to the positioning groove (2) and is arranged at a 90-degree included angle.

4. The gas cooker panel assembly bonding tool of claim 3, wherein the number of the first push cylinders (41) and the number of the second push cylinders (42) are two, and the two first push cylinders (41) are symmetrically disposed centering on a central axis of the first damper (81), and the two second push cylinders (42) are symmetrically disposed centering on a central axis of the second damper (81).

5. The gas cooker panel assembly bonding tool according to claim 3, wherein a square socket (80) is formed in the center of the bottom surface of the mounting groove (8), a square insert block (72) vertically extending downwards is formed in the center of the bottom surface of the positioning boss (7), the square insert block (72) is matched with the socket (80) in shape and inserted into the socket (80), the length and the width of the insert block (72) are smaller than those of the socket (80), the first buffer (81) is opposite to one side surface of the insert block (72), and the second buffer (82) is opposite to the other side surface of the insert block (72).

6. The gas cooker panel assembly bonding tool according to claim 3, wherein the positioning pushing assembly (4) further comprises a first positioning block (43) and a positioning blocking wall (21), the first positioning block (43) is arranged on the other side of the bonding station (11) and is divided into two parts, the two parts are respectively opposite to the second pushing cylinders (42), the positioning groove (2) is arranged on the other side of the bonding station (11), the positioning blocking wall (21) extending vertically and upwards is arranged on the outer groove edge of the positioning groove (2) along the length direction of the positioning groove, the height of the positioning blocking wall (21) is at least equal to the height of the first plate body (122a) of the decorative strip (122) and can be leaned against the first plate body (122a), and the short side of the glass panel (121) can be abutted against the first plate body (122 a).

7. The gas range panel assembly bonding tool as set forth in claim 6, wherein the decorative strip (122) has a length a shorter than the short side of the glass panel (121), a second positioning block (5) is disposed on one side of the positioning groove (2), a protruding strip (51) having a thickness of 1/2a is protruded outwardly from a side surface of the second positioning block (5) opposite to the positioning groove (2), and the protruding strip (51) can abut against the short side of the first plate body (122 a).

8. The gas stove panel assembly bonding tool as claimed in any one of claims 1 to 7, wherein a floating roof assembly (9) is further arranged on the table top (100), the floating roof assembly (9) can be supported below the glass panel (121) to keep a certain distance between the glass panel (121) and the bonding surface of the decoration strip (122), and when the pressing plate (62) presses down the glass panel (121) under the action of the pressing cylinder (61), the floating roof assembly (9) can move downwards along with the glass panel (121) to enable the corresponding part of the glass panel (121) to be abutted against the bonding surface of the decoration strip (122).

9. The gas stove panel assembly bonding tool according to claim 8, wherein the floating roof assembly (9) is four floating roof platforms (91) uniformly distributed on the bonding station (11), each floating roof platform (91) vertically penetrates through the table top (100) where the bonding station (11) is located, and is respectively fixed on piston rods of four floating roof cylinders (92) located on the bottom surface of the working table (10), and each floating roof platform (91) can be driven by the floating roof cylinder (92) to lift up and down relative to the table top (100) of the working table (10).

10. The gas stove panel assembly bonding tool according to any one of claims 1 to 7, wherein a pressing groove (621) matched with the shape of a positioning boss (7) on which a liquid receiving disc (123) is placed is formed in an upward concave manner in the middle of the bottom surface of the pressing plate (62), and a pressing ring surface abutting against the glass panel (121) is formed around the pressing groove (621).