CN112628810A - Manufacturing device and method for glass panel of multi-burner stove - Google Patents

Abstract

The utility model provides a manufacturing installation and method for many kitchen range cooking utensils glass panels, include the manufacturing installation body that is used for many kitchen range cooking utensils glass panels to take shape, set up in the manufacturing installation and be used for carrying conveyer (1) of many kitchen range cooking utensils glass panels, set up in the manufacturing installation and be used for carrying the device (2) of moving of many kitchen range cooking utensils glass panels, through the manufacturing installation body, realized processing shaping to many kitchen range cooking utensils glass panels, through conveyer (1) and moving device (2), realized carrying out the net to many kitchen range cooking utensils glass panels and shifted, consequently, the manufacturing efficiency of many kitchen range cooking utensils glass panels has been improved.

Description

Manufacturing device and method for glass panel of multi-burner stove

Technical Field

The invention relates to a manufacturing device and a manufacturing method, in particular to a manufacturing device and a manufacturing method for a glass panel of a multi-burner kitchen range.

Background

The range is divided into the following parts according to the used gas species: natural gas stove, artifical gas range, liquefied petroleum gas kitchen, electromagnetism kitchen divide into according to the material: there are cast iron stove, stainless steel stove, enamel stove. The method is divided into the following steps according to cooking range: single-hole range, double-hole range and multi-hole range. The ignition method comprises the following steps: electric pulse dissects ignition stove, piezoceramics ignition stove divide into according to the mounting means: the glass panel of the table type kitchen range and the embedded type kitchen range is taken as an important part of the multi-cooking range, which is convenient for cleaning the kitchen range, so the manufacturing device and the method for the glass panel of the multi-cooking range are important glass manufacturing devices, and the multi-station step-by-step manufacturing is also carried out in the existing manufacturing device and the method for the glass panel of the multi-cooking range, thereby influencing the manufacturing efficiency of the glass panel of the multi-cooking range,

the technical scheme of the invention is made based on the technical problems, technical features and technical effects in the technical background of the applicant.

Disclosure of Invention

The object of the invention is a manufacturing device for a glass panel of a multi-cooking-range cooker,

the invention aims to provide a method for manufacturing a glass panel of a multi-burner kitchen range.

In order to overcome the technical drawbacks mentioned above, it is an object of the present invention to provide a manufacturing apparatus and method for a glass panel of a multiple-burner cooking appliance, thereby improving the manufacturing efficiency of the glass panel of the multiple-burner cooking appliance.

In order to achieve the purpose, the invention adopts the technical scheme that: a manufacturing device for a glass panel of a multi-range cooker comprises a manufacturing device body used for forming the glass panel of the multi-range cooker, a conveying device arranged in the manufacturing device and used for conveying the glass panel of the multi-range cooker, and a moving device arranged in the manufacturing device and used for conveying the glass panel of the multi-range cooker.

Due to the fact that the conveying device, the moving device and the manufacturing device body are designed, machining and forming of the glass panel of the multi-cooking-range stove are achieved through the manufacturing device body, grid displacement of the glass panel of the multi-cooking-range stove is achieved through the conveying device and the moving device, and therefore manufacturing efficiency of the glass panel of the multi-cooking-range stove is improved.

The invention designs that a conveying device, a moving device and a manufacturing device body are connected with each other in a mode of carrying out grid displacement on a glass panel of a multi-burner kitchen range.

The invention designs that a conveying device and a moving device are connected with a manufacturing device body in a mode of intersecting and distributing vertical displacement and horizontal displacement.

The invention designs that the manufacturing device body comprises a glass cutting device, an edge chamfering device and a drilling device.

The invention also provides a first accessory device which is arranged in the manufacturing device body and is set as a glass storage rack.

The invention designs that the printing and drying device further comprises a second accessory device, the second accessory device is arranged in the manufacturing device body, and the second accessory device is arranged as the printing and drying device.

The invention contemplates that a third accessory device is included and disposed in the manufacturing device body, the third accessory device being configured as a transfer device.

The invention designs that moving devices are respectively arranged between a glass storage rack and a glass cutting device, between the glass cutting device and a conveying device, between an edge chamfering device and the conveying device, between a drilling device and the conveying device and between a printing drying device and the conveying device, and the moving devices are arranged to be distributed corresponding to the printing drying device.

The invention designs a conveying device which comprises a frame, a conveying pipe belt, a driven rotating shaft, a power rotating shaft, a guiding rotating shaft, a tensioning rotating shaft, a disk wheel, a tensioning screw rod, a tensioning nut group and a power motor, wherein the upper end part of one end of the frame is rotatably connected with the driven rotating shaft, the upper end part of the other end of the frame is rotatably connected with the power rotating shaft, the lower end part of the other end of the frame is connected with the power motor, the upper end part of the middle of the frame is rotatably connected with the guiding rotating shaft, the lower end part of the middle of the frame is connected with the tensioning screw rod in a penetrating manner, the lower end part of the tensioning screw rod is rotatably connected with the tensioning rotating shaft, the tensioning screw rod is in threaded connection with the upper nut and the lower nut of the tensioning nut group, the upper nut and the lower nut of the tensioning nut group are in clamping connection with the frame, and the power, the plate wheels are respectively connected with the driven rotating shaft, the power rotating shaft, the guide rotating shaft and the tension rotating shaft in a sleeved mode, the conveying pipe belts are respectively connected with the plate wheels positioned on the driven rotating shaft, the plate wheels positioned on the power rotating shaft, the plate wheels positioned on the guide rotating shaft and the plate wheels positioned on the tension rotating shaft in a surrounding mode, the conveying pipe belts are distributed corresponding to the moving device, the rack is arranged to be a rectangular three-dimensional rack body, the conveying pipe belts are arranged to be pipe annular bodies filled with water media, the driven rotating shaft, the power rotating shaft, the guide rotating shaft and the tension rotating shaft are respectively arranged to be circular rod-shaped bodies, the plate wheels are arranged to be wheel-shaped bodies with grooves on the periphery, the tension screw rods are arranged to be P-shaped bolts, the tension nut group is an aggregate with two hexagon nuts, and one conveying pipe belt and four plate wheels, at least a group of pipe belt components are respectively arranged on the driven rotating shaft, the power rotating shaft, the guide rotating shaft and the tensioning rotating shaft.

The invention designs a moving device which comprises a stretching beam, a transverse stretching cylinder, a moving seat, a rolling roller, a vertical stretching cylinder, a plate seat and a sucker, wherein an upper transverse through hole body, a lower transverse through hole body and a vertical through hole body are respectively arranged on the moving seat, the upper end opening part of the vertical through hole body is arranged on the lower inner wall of the lower transverse through hole body, the lower end opening part of the vertical through hole body is arranged on the lower end surface of the moving seat, the inner side wall of the upper transverse through hole body is rotatably connected with the rolling roller, the rolling roller is in contact connection with the upper end surface part of the stretching beam, the upper inner wall of the lower transverse through hole body is connected with the outer shell part of the vertical stretching cylinder, the vertical through hole body is connected with the stretching part of the vertical stretching cylinder, the stretching end part of the vertical stretching cylinder is connected with the upper end surface part of the plate seat, the lower end surface part of the plate seat is connected with the sucker, one end part of the transverse stretching cylinder is connected with the stretching beam, and the utility model discloses a glass storage rack, glass cutting device, the device of falling limit, drilling equipment and printing drying device, the connection of individual end sets up to with removing the seat, it sets up to the rectangle clavate and horizontal telescoping cylinder and vertical telescoping cylinder set up respectively to two section formula telescoping cylinders to visit the roof beam, the hydraulic pressure port of horizontal telescoping cylinder and the hydraulic pressure port of vertical telescoping cylinder set up respectively to be connected and the roll roller sets up to well font rodlike body with hydraulic means and, the plate seat sets up to the rectangle platelike body and the sucking disc sets up to vacuum suction dish, it sets up to the rectangular block body and go up horizontal through-hole body and horizontal through-hole body down and set up to be the T font and distribute to remove the seat, it sets up respectively to and conveyer to remove the seat and go up horizontal through-hole body and horizontal through-hole body down and erect the.

The invention designs that the glass storage rack is a rectangular bed-shaped body and the upper end surface part of the glass storage rack is distributed corresponding to the moving device.

The invention designs that the glass cutting device is a gantry type glass cutting machine and the upper end surface part of the glass cutting device is distributed corresponding to the moving device.

The invention designs that the chamfering device comprises a frame, a front roller transmission device, an upper pressing frame, an upper bracket, an upper thrust telescopic cylinder, a lower thrust telescopic cylinder, an edge grinding device, a position adjusting screw nut, a rotary disc and a rear roller transmission device, wherein the front end part in the middle of the frame is connected with the front roller transmission device, the rear end part in the middle of the frame is connected with the rear roller transmission device, the rotary disc is arranged between the rear end head of the front roller transmission device and the front end head of the rear roller transmission device, the rotary disc is connected with the frame, one end head of the upper thrust telescopic cylinder is connected with the upper end surface part of the frame, the other end head of the upper thrust telescopic cylinder is connected with the upper pressing frame, one end head of the lower thrust telescopic cylinder is connected with the lower end surface part of the frame, the other end head of the lower thrust telescopic cylinder is connected with the upper bracket, and a screw rod of the position adjusting screw nut is respectively connected with the upper pressing frame and the upper bracket The nuts of the position-adjusting screw nuts are respectively connected with the upper pressure frame and the upper bracket in a clamping way, the screw ends of the position-adjusting screw nuts are connected with the motor of the edge grinding device, the grinding wheel of the edge grinding device on the upper pressure frame is arranged and distributed with the grinding wheel of the edge grinding device on the upper bracket in an up-and-down arrangement, one upper pressure frame, one upper bracket, one upper thrust telescopic cylinder, one lower thrust telescopic cylinder, two edge grinding devices and two position-adjusting screw nuts are arranged to form a group of edge-making parts, one group of edge-making parts is arranged between the frame and the front roller transmission device, the other group of edge-making parts is arranged between the frame and the rear roller transmission device, the frame is arranged into a Chinese character 'wang' shaped body, the front roller transmission device and the rear roller transmission device are respectively arranged into a roller conveying device, the upper pressure frame and the upper bracket are respectively arranged into a rake-shaped body with outer rods, and the upper thrust telescopic cylinder and the lower thrust telescopic cylinder, the hydraulic port of the upper thrust telescoping cylinder and the hydraulic port of the lower thrust telescoping cylinder are respectively connected with a hydraulic device, the edge grinding device is provided with a motor with a conical grinding wheel, the rotating disc is provided with a 90-degree clearance shifting disc, and the front roller transmission device and the rear roller transmission device are correspondingly distributed with the moving device.

The invention designs that the drilling device is a gantry drilling machine, a drill bit of the drilling device is arranged to comprise a three-jaw gripping disk, a blade head, a base disk, a pressure disk and a fastening nut, a mounting hole body is arranged on the transverse part of the base disk, the mounting hole body of the base disk is arranged to be connected with the blade head, the inner end head of the blade head is arranged to be in contact connection with the inner end surface part of the pressure disk, the outer end surface part of the pressure disk is arranged to be in contact connection with the fastening nut, the fastening nut is arranged to be in threaded connection with the vertical part of the base disk, a groove body is arranged on the periphery of the transverse part of the base disk, the groove body of the base disk is arranged to be connected with the three-jaw gripping disk, the three-jaw gripping disk is arranged to be connected with a power shaft of the drilling device and is arranged to be a three-jaw gripping disk, the blade head is arranged to be a right-angled triangle block-shaped, the fastening nut is arranged to be a hexagon nut and the working table of the drilling device is arranged to be distributed corresponding to the moving device.

The invention relates to a printing and drying device which is designed as a screen printing and drying machine and the conveying belt of the printing and drying device is arranged to be distributed corresponding to the moving device.

The invention designs that a transfer device is arranged to comprise a moving vehicle, a fork frame, a swinging rod, a connecting screw rod, a pressure rod, a string rod, a spring and a supporting leg, a sliding hole body is arranged at the rear end surface part of the transverse part of the moving vehicle, a connecting lug seat is arranged at the front end surface part of the transverse part of the moving vehicle, the fork frame is arranged to comprise a fork rod, a front connecting beam, a rear connecting lower beam and a rear connecting upper beam, a threaded hole body is arranged at the front end of the fork rod, the end head of the front connecting beam, the end head of the rear connecting lower beam and the end head of the rear connecting upper beam are respectively arranged to be connected with the inner side surface part of the fork rod, the threaded hole body is arranged to be connected with the supporting leg, the sliding hole body is arranged to be connected with the string rod, the string rod is arranged to be connected with the spring in a penetrating manner, the upper end head of the string rod is arranged to be connected with the pressure rod, one, the depression bar sets up to be connected the underbeam with the back and the horizontal portion end of swinging arms sets up to be in hookup with connection ear seat rotary type, the perpendicular portion end of swinging arms sets up to be connected the roof beam hookup and the locomotive sets up to the vehicle-shaped body that has the biax through connecting screw with preceding tie-beam, the swinging arms sets up to pi font frame body and connecting screw sets up to hexagon bolt, the depression bar, preceding tie-beam and back are connected the upper beam and are set up respectively to the rectangle barred body and cluster pole and supporting leg set up to T font barred body, the spring sets up to compression spring and the slip hole body sets up to the circular port body, the connection ear seat sets up to the doublet seat body and the fork lever sets up to L font plate body, it sets up to U font.

The invention designs that a conveying device, a moving device, a glass cutting device, an edge chamfering device and a drilling device are distributed according to the way of chamfering and drilling step-by-step processing, the conveying device, the moving device, the glass cutting device, the edge chamfering device, the drilling device and a glass storage rack are distributed according to the way of end supply, the conveying device, the moving device, the glass cutting device, the edge chamfering device, the drilling device and a printing and drying device are distributed according to the way of end printing, a first moving device is arranged between the glass storage rack and the glass cutting device, a second moving device is arranged between the glass cutting device and the moving device, a third moving device and a fourth moving device are arranged between the edge chamfering device and the moving device, a fifth moving device and a sixth moving device are arranged between the drilling device and the moving device, the seventh carrying device is arranged between the printing and drying device and the carrying device.

The invention designs a manufacturing method for a glass panel of a multi-cooking-range cooker, which comprises the following steps: the manufacturing device body realizes the processing and forming of the glass panel of the multi-cooking-range kitchen range, and the conveying device and the moving device realize the grid displacement of the glass panel of the multi-cooking-range kitchen range.

The invention designs that the method comprises the following steps: the power motor is started to drive the power rotating shaft to rotate on the frame, the plate wheel positioned on the power rotating shaft is rotated, the driven rotating shaft and the guide rotating shaft are rotated on the frame through the conveying pipe belt, the tensioning rotating shaft is rotated on the tensioning screw rod, the conveying pipe belt is rotated through the plate wheel positioned on the driven rotating shaft, the plate wheel positioned on the guide rotating shaft and the plate wheel positioned on the tensioning rotating shaft, the positions of the tensioning screw rod and the frame are adjusted through the adjustment of the tensioning nut group, the height of the tensioning rotating shaft is adjusted, and the tensioning degree of the conveying pipe belt is adjusted,

adjusting the extension length of the vertical telescopic cylinder, descending the plate base to enable the sucker to act on the glass panel of the multi-cooking range, lifting the plate base through the vertical telescopic cylinder after the sucker finishes the adsorption of the glass panel of the multi-cooking range, adjusting the extension length of the transverse telescopic cylinder to enable the rolling roller to roll on the extension beam, adjusting the transverse position of the movable base,

carrying raw material plates of multi-range stove glass panels on a glass storage rack to be placed on a workbench of a glass cutting device through the work of a first moving device, cutting the raw material plates of the multi-range stove glass panels according to the sizes of the multi-range stove glass panels through the work of the glass cutting device to obtain multi-range stove glass panels I, placing the multi-range stove glass panels I on a conveying pipe belt through the work of a second moving device, placing the multi-range stove glass panels I on a front roller transmission device through the work of a third moving device when the multi-range stove glass panels I move to the front roller transmission device, enabling an edge grinding device to work, enabling the front roller transmission device to move the multi-range stove glass panels I to one group of edge making components, and enabling an upper thrust telescopic cylinder and a lower thrust telescopic cylinder to be in an extension state, the glass panel I of the multi-burner kitchen range is clamped and moves in a speed reduction manner, the first side part and the second side part of the glass panel I of the multi-burner kitchen range are edged through an edging device of an upper pressing frame and an edging device of an upper bracket, after the edging of the first side part and the second side part of the glass panel I of the multi-burner kitchen range is finished, the glass panel I of the multi-burner kitchen range is placed on a rotating disc, the rotating disc drives the glass panel I of the multi-burner kitchen range to rotate for 90 degrees, the glass panel I of the multi-burner kitchen range is moved to a rear roller transmission device, the rear roller transmission device moves the glass panel I of the multi-burner kitchen range to another group of edge-making components, and the third side part and the fourth side part of the glass panel I of the multi-burner kitchen range are edged through the linkage work of the upper pressing frame, the upper bracket, the upper thrust telescopic cylinder, the lower thrust telescopic cylinder and the edging device of the other group of edge-making components, after the edge grinding treatment is finished on the third side portion and the fourth side portion of the multi-burner kitchen range glass panel I, a multi-burner kitchen range glass panel II is manufactured, the distance between a grinding wheel of an edge grinding device on the upper pressure frame and a grinding wheel of an edge grinding device on the upper bracket is adjusted through the position adjusting screw rod nut, the multi-burner kitchen range glass panel II is placed on a conveying pipe belt through the work of a fourth moving device, when the multi-burner kitchen range glass panel II moves to a drilling device, the multi-burner kitchen range glass panel II is placed on a workbench of the drilling device through the work of a fifth moving device, a cutting edge head is installed on a base plate according to the sizes of a first hole body and a second hole body, a pressure plate is installed on the base plate, a fastening nut is installed on the base plate, the drilling head of the first hole body and the drilling head of the second hole body are obtained, the base plate is installed in a three-jaw chuck, installing a three-jaw gripping disk on a power shaft of a drilling device, performing first hole body and second hole body operation on a multi-burner stove glass panel II to obtain a multi-burner stove glass panel III, placing the multi-burner stove glass panel III on a conveying pipe belt through the operation of a sixth moving device, performing identification printing on the multi-burner stove glass panel III to obtain a multi-burner stove glass panel finished product when the multi-burner stove glass panel III moves onto a printing and drying device through the operation of a seventh moving device and placing the multi-burner stove glass panel III on a conveying belt of the printing and drying device, performing turnover movement through a moving vehicle after the multi-burner stove glass panel finished product is stored on a fork rod, and performing elastic energy storage through a spring to enable a string rod to slide on a sliding hole body, the stability of the fork frame is kept through the swing of the swing rod in the connecting lug seat, after the fork frame arrives at a turnover place, the connecting screw rod is loosened from the front connecting beam, the swing rod is separated from the front connecting beam, the fork frame is hoisted, the rear connecting lower beam is separated from the press rod, the rear connecting lower beam is placed on the ground, the fork rod is horizontally adjusted through the rotation of the supporting leg in the threaded hole, another fork frame is installed on the mobile vehicle, the rear connecting lower beam of the other fork frame is connected with the press rod, and the front connecting beam of the other fork frame is connected with the swing rod through the connecting screw rod.

In the technical scheme, the conveying device and the moving device are basic components and are also necessary technical characteristics of the invention, the glass storage rack, the glass cutting device, the chamfering device, the drilling device, the printing and drying device and the transferring device are functional components, and the invention is characterized by realizing other technical effects of the invention, and comprises a frame, a conveying pipe belt, a driven rotating shaft, a power rotating shaft, a guide rotating shaft, a tensioning rotating shaft, a disk wheel, a tensioning screw rod, a tensioning nut group, a power motor, a stretching beam, a transverse telescopic cylinder, a moving seat, a rolling roller, a vertical telescopic cylinder, a plate seat, a sucker, an upper transverse through hole body, a lower transverse through hole body, a vertical through hole body, a frame, a front roller transmission device, an upper pressing rack, an upper bracket, an upper thrust telescopic cylinder, a lower thrust telescopic cylinder, an edge grinding device, a positioning screw rod nut, a rotating disk, a rear roller transmission device, a three-jaw grasping disk, a cutter blade head, a base disk, the design of the technical characteristics of the pressure plate, the fastening nut, the moving vehicle, the fork frame, the swinging rod, the connecting screw rod, the pressure rod, the string rod, the spring, the supporting leg, the sliding hole body, the connecting lug seat, the fork rod, the front connecting beam, the rear connecting lower beam, the rear connecting upper beam and the threaded hole body is in accordance with the technical characteristics of patent laws and implementation rules thereof.

In the technical scheme, the conveying device, the moving device and the manufacturing device body for carrying out grid displacement on the glass panel of the multi-burner stove are important technical characteristics, and have novelty, creativity and practicability in the technical field of the manufacturing device and method for the glass panel of the multi-burner stove, and terms in the technical scheme can be explained and understood by patent documents in the technical field.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Figure 1 is a schematic view of the present invention,

figure 2 is a schematic view of the structure of the transfer device 1,

figure 3 is a schematic cross-sectional view of the conveyor belt 12,

FIG. 4 is a schematic view of the structure of the moving device 2,

figure 5 is a schematic structural view of the beveling device 5,

figure 6 is a schematic view of the construction of the drilling device 6,

figure 7 is a schematic view of the transfer device 8,

FIG. 8 is a schematic structural view of a glass panel of a multi-burner cooker,

a conveying device-1, a moving device-2, a glass storage rack-3, a glass cutting device-4, a beveling device-5, a drilling device-6, a printing and drying device-7, a transfer device-8, a frame-11, a conveying pipe belt-12, a driven rotating shaft-13, a power rotating shaft-14, a guide rotating shaft-15, a tensioning rotating shaft-16, a disc wheel-17, a tensioning screw-18, a tensioning nut set-19, a power motor-10, a stretching beam-21, a transverse stretching cylinder-22, a moving seat-23, a rolling roller-24, a vertical stretching cylinder-25, a plate seat-26, a sucking disc-27, an upper transverse through hole body-232, a lower transverse through hole body-233, a vertical through hole body-234, a frame-51, a lower transverse through hole body-234, a lower transverse through hole body, a lower, The device comprises a front roller transmission device-52, an upper pressing frame-53, an upper bracket-54, an upper thrust telescopic cylinder-55, a lower thrust telescopic cylinder-56, an edge grinding device-57, a positioning screw nut-58, a rotating disc-59, a rear roller transmission device-50, a three-jaw gripping disc-61, a blade head-62, a base disc-63, a pressure disc-64, a fastening nut-65, a moving vehicle-81, a fork frame-82, a swinging rod-83, a connecting screw rod-84, a pressure rod-85, a string rod-86, a spring-87, a supporting leg-88, a sliding hole body-811, a connecting lug seat-812, a fork rod-821, a front connecting beam-822, a rear connecting lower beam-823, a rear connecting upper beam-824 and a threaded hole body-825.

Detailed Description

Terms such as "having," "including," and "comprising," as used with respect to the present invention, are to be understood as not specifying the presence or addition of one or more other elements or combinations thereof, in accordance with the examination guidelines.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In addition, the technical features mentioned in the different embodiments of the present invention described below can be combined with each other as long as they do not conflict with each other, and further, unless otherwise specified, the equipments and materials used in the following examples are commercially available, and if the processing conditions are not explicitly specified, please refer to the commercially available product specifications or follow the conventional method in the art.

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Fig. 1 is one of first embodiments of the present invention, and the present embodiment is specifically described with reference to the accompanying drawings, and includes a conveying device 1, a moving device 2, a glass storage rack 3, a glass cutting device 4, an edge chamfering device 5, a drilling device 6, a printing and drying device 7, and a transferring device 8, wherein the moving device 2 is respectively arranged between the glass storage rack 3 and the glass cutting device 4, between the glass cutting device 4 and the conveying device 1, between the edge chamfering device 5 and the conveying device 1, between the drilling device 6 and the conveying device 1, and between the printing and drying device 7 and the conveying device 1, and the transferring device 8 is arranged to be distributed corresponding to the printing and drying device 7.

In this embodiment, the conveying device 1 is configured to include a frame 11, a conveying belt 12, a passive rotating shaft 13, a power rotating shaft 14, a guiding rotating shaft 15, a tensioning rotating shaft 16, a plate wheel 17, a tensioning screw 18, a tensioning nut set 19 and a power motor 10, wherein an upper end of one end of the frame 11 is configured to be rotatably coupled to the passive rotating shaft 13, an upper end of the other end of the frame 11 is configured to be rotatably coupled to the power rotating shaft 14, a lower end of the other end of the frame 11 is configured to be coupled to the power motor 10, an upper middle end of the frame 11 is configured to be rotatably coupled to the guiding rotating shaft 15, a lower middle end of the frame 11 is configured to be serially coupled to the tensioning screw 18, a lower end of the tensioning screw 18 is configured to be rotatably coupled to the tensioning rotating shaft 16, and the tensioning screw 18 is configured to be threadedly coupled to upper and lower nuts of the, the upper nut and the lower nut of the tensioning nut group 19 are connected with the frame 11 in a clamping manner, the power motor 10 is connected with the power rotating shaft 14 through belt pulley transmission, the plate wheels 17 are respectively connected with the driven rotating shaft 13, the power rotating shaft 14, the guide rotating shaft 15 and the tensioning rotating shaft 16 in a sleeved manner, the conveying pipe belts 12 are respectively connected with the plate wheels 17 positioned on the driven rotating shaft 13, the plate wheels 17 positioned on the power rotating shaft 14, the plate wheels 17 positioned on the guide rotating shaft 15 and the plate wheels 17 positioned on the tensioning rotating shaft 16 in a surrounding manner, the conveying pipe belts 12 are distributed corresponding to the moving device 2, the frame 11 is a rectangular three-dimensional frame body, the conveying pipe belts 12 are arranged into a pipe ring body filled with water medium, the driven rotating shaft 13, the power rotating shaft 14, the guide rotating shaft 15 and the tensioning rotating shaft 16 are respectively arranged into a circular rod body, the plate wheels 17 are arranged into a wheel body with grooves on the periphery, and the, the tensioning nut group 19 is provided as an aggregate with two hexagon nuts and one conveying pipe belt 12 and four disk wheels 17 are provided to form a group of pipe belt parts, at least the group of pipe belt parts are respectively arranged on the driven rotating shaft 13, the power rotating shaft 14, the guide rotating shaft 15 and the tensioning rotating shaft 16.

Through conveyer 1, formed the support tie point to conveyer 2, by conveyer belt 12, realized being connected with conveyer 2, by frame 11, passive axis of rotation 13, power axis of rotation 14, direction axis of rotation 15, tight axis of rotation 16 that rises, plate wheel 17, tight screw rod 18 that rises, tight nut group 19 and power motor 1, realized driving conveyer belt 12 and rotated the processing, its technical aim at: the glass panel is used as a part for turnover of the glass panel of the multi-burner kitchen range.

In this embodiment, the moving device 2 is configured to include the detecting beam 21, the horizontal telescopic cylinder 22, the moving base 23, the rolling roller 24, the vertical telescopic cylinder 25, the plate base 26 and the suction cup 27, and the moving base 23 is respectively provided with the upper horizontal through hole body 232, the lower horizontal through hole body 233 and the vertical through hole body 234, the upper end opening of the vertical through hole body 234 is disposed on the lower inner wall of the lower horizontal through hole body 233 and the lower end opening of the vertical through hole body 234 is disposed on the lower end surface of the moving base 23, the inner side wall of the upper horizontal through hole body 232 is configured to be rotatably coupled with the rolling roller 24 and the rolling roller 24 is configured to be in contact coupling with the upper end surface of the detecting beam 21, the upper inner wall of the lower horizontal through hole body 233 is configured to be coupled with the outer shell of the vertical telescopic cylinder 25 and the vertical through hole body 234 is configured to be coupled with the telescopic part of the vertical telescopic cylinder 25, the telescopic end of the vertical telescopic cylinder 25 is configured to be coupled with the upper end surface of the plate base 26, one end of the transverse telescopic cylinder 22 is connected with the extension beam 21, the other end of the transverse telescopic cylinder 22 is connected with the movable seat 23, the extension beam 21 is a rectangular rod-shaped body, the transverse telescopic cylinder 22 and the vertical telescopic cylinder 25 are respectively two-section telescopic cylinders, a hydraulic port of the transverse telescopic cylinder 22 and a hydraulic port of the vertical telescopic cylinder 25 are respectively connected with a hydraulic device, the rolling roller 24 is a middle-shaped rod-shaped body, the plate seat 26 is a rectangular sheet-shaped body, the suction cups 27 are arranged to be vacuum suction cups, the movable seat 23 is a rectangular block-shaped body, the upper transverse through hole body 232 and the lower transverse through hole body 233 are rectangular hole-shaped bodies, the vertical through hole body 234 is a circular hole-shaped body, the lower transverse through hole body 233 and the vertical through hole body 234 are arranged to be distributed in a T shape, and the plate seat 26 and the suction cups 27 are respectively arranged to be connected with, The glass storage rack 3, the glass cutting device 4, the chamfering device 5, the drilling device 6 and the printing and drying device 7 are distributed correspondingly.

Through moving device 2, formed and stored frame 3 to conveyer 1, glass-cutting device 4, chamfering device 5, drilling equipment 6 and printing drying device 7's support tie point, by plate seat 26 and sucking disc 27, realized being connected with conveyer 1, realized storing being connected of frame 3 with glass, realized being connected with glass-cutting device 4, realized being connected with chamfering device 5, realized being connected with drilling equipment 6, realized being connected with printing drying device 7, by exploring roof beam 21, horizontal telescoping cylinder 22, remove seat 23, roll roller 24 and vertical telescoping cylinder 25, realized driving plate seat 26 and sucking disc 27 and carried out horizontal and vertical motion, its technical purpose lies in: the glass panel moving device is used as a component for moving and shifting the glass panel of the multi-burner kitchen range.

In the present embodiment, the glass storage shelf 3 is provided as a rectangular bed-like body and the upper end surface portion of the glass storage shelf 3 is provided so as to be distributed in correspondence with the conveying device 2.

Store the frame 3 through glass, formed the support tie point to moving device 2, store frame 3 by glass, realized with moving device 2's being connected, its technical aim at: the component is used for storing raw material plates of glass panels of multi-burner cookers.

In the present embodiment, the glass cutting device 4 is provided as a gantry type glass cutting machine and the upper end surface portion of the glass cutting device 4 is provided so as to be distributed in correspondence with the carrying device 2.

Through glass-cutting device 4, formed the support tie point to moving device 2, by glass-cutting device 4, realized being connected with moving device 2, its technical aim at: the cutting tool is used as a part for cutting a raw material plate of a glass panel of a multi-burner kitchen range.

In the present embodiment, the beveling apparatus 5 is configured to include a frame 51, a front roller gear 52, an upper press frame 53, an upper bracket 54, an upper thrust cylinder 55, a lower thrust cylinder 56, an edge grinding device 57, a positioning screw nut 58, a rotary disk 59, and a rear roller gear 50, and a middle front end portion of the frame 51 is configured to be coupled to the front roller gear 52, a middle rear end portion of the frame 51 is configured to be coupled to the rear roller gear 50, and the rotary disk 59 is disposed between a rear end of the front roller gear 52 and a front end of the rear roller gear 50, the rotary disk 59 is configured to be coupled to the frame 51 and one end of the upper thrust cylinder 55 is configured to be coupled to an upper end surface portion of the frame 51, another end of the upper thrust cylinder 55 is configured to be coupled to the upper press frame 53 and one end of the lower thrust cylinder 56 is configured to be coupled to a lower end surface portion of the frame 51, the other end of the lower telescopic thrust cylinder 56 is connected with the upper bracket 54, the screw of the positioning screw nut 58 is connected with the upper pressing frame 53 and the upper bracket 54 in a penetrating way, the nut of the positioning screw nut 58 is connected with the upper pressing frame 53 and the upper bracket 54 in a clamping way, the screw end of the positioning screw nut 58 is connected with the motor of the edge grinding device 57, the grinding wheel of the edge grinding device 57 on the upper pressing frame 53 is connected with the grinding wheel of the edge grinding device 57 on the upper bracket 54 in an up-and-down arrangement way, one upper pressing frame 53, one upper bracket 54, one upper telescopic thrust cylinder 55, one lower telescopic thrust cylinder 56, two edge grinding devices 57 and two positioning screw nuts 58 are arranged to form a group of edge manufacturing parts, one group of edge manufacturing parts is arranged between the frame 51 and the front roller transmission device 52, and the other group of edge manufacturing parts is arranged between the frame 51 and the rear roller transmission device 50, the frame 51 is provided as a body of a queen letter shape and the front roller gear 52 and the rear roller gear 50 are respectively provided as roller conveyors, the upper pressure frame 53 and the upper bracket 54 are respectively provided as rake teeth having outer bars and the upper thrust cylinder 55 and the lower thrust cylinder 56 are respectively provided as two-stage cylinders, the hydraulic port of the upper thrust cylinder 55 and the hydraulic port of the lower thrust cylinder 56 are respectively provided to be coupled with a hydraulic device and the edge grinding device 57 is provided as a motor having a tapered grinding wheel, the rotary disc 59 is provided as a 90 ° clearance index disc and the front roller gear 52 and the rear roller gear 50 are provided to be distributed correspondingly to the carrying device 2.

Through beveling device 5, formed the support tie point to handling device 2, by preceding roller transmission 52 and back roller transmission 50, realized being connected with handling device 2, by frame 51, last pressure frame 53, upper bracket 54, go up thrust telescoping cylinder 55, lower thrust telescoping cylinder 56, edging device 57, positioning screw nut 58 and rolling disc 59, realized carrying out the edging to many kitchen range glass panels and handled, its technical aim at: the chamfering device is used as a component for chamfering the glass panel of the multi-burner kitchen range.

In the present embodiment, the drilling device 6 is provided as a gantry type drilling machine and the drill of the drilling device 6 is provided to include a three-jaw chuck 61, a blade head 62, a base plate 63, a pressure plate 64 and a fastening nut 65 and a mounting hole body is provided on a lateral portion of the base plate 63, the mounting hole body of the base plate 63 is provided to be coupled with the blade head 62 and an inner end of the blade head 62 is provided to be coupled with an inner end surface portion of the pressure plate 64 in contact, an outer end surface portion of the pressure plate 64 is provided to be coupled with the fastening nut 65 in contact and the fastening nut 65 is provided to be screw-coupled with a vertical portion of the base plate 63, a groove body is provided on a lateral portion peripheral portion of the base plate 63 and the groove body of the base plate 63 is provided to be coupled with the three-jaw chuck 61, the three-jaw chuck 61 is provided to be coupled with a power shaft of the drilling device 6 and the three-jaw chuck 61 is provided as a three-jaw chuck, the, the base plate 63 is provided as a T-shaped block body and the pressure plate 64 is provided as a circular plate body, the fastening nuts 65 are provided as hexagonal nuts and the work tables of the drilling device 6 are provided so as to be distributed correspondingly to the carrying device 2.

Through drilling equipment 6, formed the support tie point to moving device 2, by drilling equipment 6, realized being connected with moving device 2, by three-jaw catch tray 61, cutting edge head 62, base plate 63, pressure disk 64 and fastening nut 65, realized carrying out drilling to many kitchen range cooking utensils glass panels and handled, its technical aim at: the hole forming component is used for forming holes in the glass panel of the multi-burner kitchen range.

In the present embodiment, the print drying device 7 is provided as a screen printing and drying machine and the conveyor belts of the print drying device 7 are provided so as to be distributed in correspondence with the conveying device 2.

Through printing drying device 7, formed the support tie point to moving device 2, by printing drying device 7, realized being connected with moving device 2, its technical aim at: the printing device is used as a component for carrying out identification printing on the glass panel of the multi-burner kitchen range.

In the present embodiment, the transfer device 8 is configured to include the traveling carriage 81, the fork 82, the swing lever 83, the connection screw 84, the press lever 85, the string lever 86, the spring 87, and the support leg 88 and is provided with the slide hole body 811 at the lateral rear end portion of the traveling carriage 81, the connection lug 812 is provided at the lateral front end portion of the traveling carriage 81 and the fork 82 is configured to include the fork 821, the front connection beam 822, the rear connection lower beam 823, and the rear connection upper beam 824, the threaded hole body 825 is provided at the front end of the fork 821 and the end of the front connection beam 822, the end of the rear connection lower beam 823, and the end of the rear connection upper beam 824 are respectively configured to be coupled to the inner side surface portion of the fork 821, the threaded hole body 825 is configured to be coupled to the support leg 88 and the slide hole body 811 is configured to be coupled to the string lever 86, the string lever 86 is configured to be coupled to the spring 87 in series and the upper end of the, one of the ends of the spring 87 is provided to be contact-coupled with the pressing lever 85 and the other end of the spring 87 is provided to be contact-coupled with the lateral upper end surface portion of the traveling carriage 81, the pressing lever 85 is provided to be plunge-coupled with the rear connection lower beam 823 and the lateral end of the swing lever 83 is provided to be rotatably coupled with the connection lug 812, the vertical end of the swing lever 83 is provided to be coupled with the front connection beam 822 through the connection screw 84 and the traveling carriage 81 is provided as a vehicle-shaped body having two shafts, the swing lever 83 is provided as a pi-shaped frame-shaped body and the connection screw 84 is provided as a hexagonal bolt, the pressing lever 85, the front connection beam 822 and the rear connection upper beam 824 are respectively provided as rectangular rod-shaped bodies and the string lever 86 and the support leg 88 are provided as T-shaped rod-shaped bodies, the spring 87 is provided as a compression spring and the slide hole body 811 is provided as a, the lower connecting beam 823 is formed of U-shaped channel steel, and the fork 82 is formed to be distributed corresponding to the printing and drying apparatus 7.

Through transfer device 8, formed the support tie point to print drying device 7, by crotch 82, realized being connected with print drying device 7, by locomotive 81, swinging arms 83, connecting screw 84, depression bar 85, cluster pole 86, spring 87 and supporting leg 88, realized supporting the carrier to crotch 82, its technical aim at: the glass panel storage and transportation device is used as a part for storing and transporting glass panels of multi-burner cookers.

In the present embodiment, the conveying device 1 and the moving device 2 are arranged to be distributed with the glass cutting device 4, the chamfering device 5 and the drilling device 6 in a chamfering and drilling step-by-step manner and the conveying device 1, the moving device 2, the glass cutting device 4, the chamfering device 5 and the drilling device 6 are arranged to be distributed with the glass storage rack 3 in an end supply manner, the conveying device 1, the moving device 2, the glass cutting device 4, the chamfering device 5 and the drilling device 6 are arranged to be distributed with the printing and drying device 7 in an end printing manner, the first moving device 2 is arranged between the glass storage rack 3 and the glass cutting device 4, the second moving device 2 is arranged between the glass cutting device 4 and the moving device 2, the third moving device 2 and the fourth moving device 2 are arranged between the chamfering device 5 and the moving device 2, the fifth moving device 2 and the sixth moving device 2 are arranged between the drilling device 6 and the moving device 2, the seventh carrying device 2 is arranged between the print drying device 7 and the carrying device 2.

In a second embodiment of the invention, the acute angle of the blade head 62 is set at 18 °.

In a third embodiment of the present invention, the acute angle of the blade head 62 is set at 26 °.

In the fourth embodiment of the present invention, the acute angle of the blade head 62 is set to 22 °.

The invention is further described below with reference to the following examples, which are intended to illustrate the invention but not to limit it further.

A manufacturing method for a glass panel of a multi-burner kitchen range comprises the following steps: the power motor 10 is started to drive the power rotating shaft 14 to rotate on the rack 11, so that the disk wheel 17 positioned on the power rotating shaft 14 rotates, the driven rotating shaft 13 and the guide rotating shaft 15 rotate on the rack 11 through the conveying pipe belt 12, so that the tensioning rotating shaft 16 rotates on the tensioning screw 18, the conveying pipe belt 12 rotates through the disk wheel 17 positioned on the driven rotating shaft 13, the disk wheel 17 positioned on the guide rotating shaft 15 and the disk wheel 17 positioned on the tensioning rotating shaft 16, the positions of the tensioning screw 18 and the rack 11 are adjusted through the adjustment of the tensioning nut group 19, the height of the tensioning rotating shaft 16 is adjusted, and the tensioning degree of the conveying pipe belt 12 is adjusted,

the extension length of the vertical telescopic cylinder 25 is adjusted, the plate base 26 is descended, the sucker 27 acts on the glass panel of the multi-cooking stove, after the sucker 27 finishes the adsorption of the glass panel of the multi-cooking stove, the plate base 26 is lifted through the vertical telescopic cylinder 25, the extension length of the transverse telescopic cylinder 22 is adjusted, the rolling roller 24 rolls on the extension beam 21, the transverse position of the movable base 23 is adjusted,

through the work of the first moving device 2, the raw material plates of the glass panels of the multi-range kitchen range on the glass storage rack 3 are carried and placed on the workbench of the glass cutting device 4, through the work of the glass cutting device 4, the raw material plates of the glass panels of the multi-range kitchen range are cut according to the size of the glass panels of the multi-range kitchen range to obtain the glass panels I of the multi-range kitchen range, through the work of the second moving device 2, the glass panels I of the multi-range kitchen range are placed on the conveying pipe belt 12, when the glass panels I of the multi-range kitchen range move to the front roller transmission device 52, through the work of the third moving device 2, the glass panels I of the multi-range kitchen range are placed on the front roller transmission device 52 to enable the edge grinding device 57 to work, the front roller transmission device 52 moves the glass panels I of the multi-range kitchen range to one group of edge grinding components, and enables the upper thrust cylinder 55 and the lower thrust cylinder 56 to be in an extension state, the glass panel I of the multi-burner kitchen range is clamped and moves in a speed reduction mode, the first side part 91 and the second side part 95 of the glass panel I of the multi-burner kitchen range are subjected to edging processing through the edging device 57 of the upper pressing frame 53 and the edging device 57 of the upper bracket 54, after the edging processing is finished on the first side part 91 and the second side part 95 of the glass panel I of the multi-burner kitchen range, the glass panel I of the multi-burner kitchen range is placed on the rotating disc 59, the rotating disc 59 drives the glass panel I of the multi-burner kitchen range to rotate for 90 degrees, the glass panel I of the multi-burner kitchen range is moved to the rear roller transmission device 50, the rear roller transmission device 50 moves the glass panel I of the multi-burner kitchen range to the other group of edge-making components, and the glass panel I of the multi-burner kitchen range is moved to the other group of edge-making components through the linkage work of the upper pressing frame 53, the upper bracket 54, the upper thrust expansion, edging the third side 92 and the fourth side 96 of the glass panel I of the multi-burner kitchen range, after edging the third side 92 and the fourth side 96 of the glass panel I of the multi-burner kitchen range, obtaining the glass panel II of the multi-burner kitchen range, adjusting the distance between the grinding wheel of the grinding device 57 on the upper pressure frame 53 and the grinding wheel of the grinding device 57 on the upper bracket 54 through the positioning screw nut 58, putting the glass panel II of the multi-burner kitchen range on the conveying pipe belt 12 through the operation of the fourth moving device 2, when the glass panel II of the multi-burner kitchen range is moved to the drilling device 6, putting the glass panel II of the multi-burner kitchen range on the worktable of the drilling device 6 through the operation of the fifth moving device 2, installing the cutting edge 62 on the base plate 63 according to the sizes of the first hole body 93 and the second hole body 94, installing the pressure plate 64 on the base plate 63, installing a fastening nut 65 on a base plate 63 to obtain a drilling head of a first hole body 93 and a drilling head of a second hole body 94, installing the base plate 63 in a three-jaw gripping disk 61, installing the three-jaw gripping disk 61 on a power shaft of a drilling device 6, performing operation of the first hole body 93 and the second hole body 94 on a multi-burner stove glass panel II to obtain a multi-burner stove glass panel III, placing the multi-burner stove glass panel III on a conveying pipe belt 12 through operation of a sixth moving device 2, performing identification printing on the multi-burner stove glass panel III to obtain a multi-burner stove glass panel finished product when the multi-burner stove glass panel III moves to a printing and drying device 7 through operation of a seventh moving device 2, placing the multi-burner stove glass panel III on a conveying belt of the printing and drying device 7, performing identification printing on the multi-burner stove glass panel III through operation of the printing and drying device 7 to obtain the multi-burner stove glass panel finished product, placing the multi-burner stove glass panel finished product on a fork lever 821, after the finished product of the glass panel of the multi-burner kitchen range is stored in the fork 821, the transfer vehicle 81 performs a transfer motion, the elastic energy storage of the spring 87 is used for storing, the string rod 86 slides in the sliding hole body 811, the fork 82 is kept stable through the swing of the swing rod 83 in the connecting lug seat 812, after the transfer place is reached, the connecting screw 84 is loosened from the front connecting beam 822, the swing rod 83 is separated from the front connecting beam 822, the fork 82 is hoisted, the rear connecting lower beam 823 is separated from the pressure rod 85, the rear connecting lower beam 823 is placed on the ground, the supporting leg 88 rotates in the threaded hole body 825 to horizontally adjust the fork 821, another fork 82 is installed on the transfer vehicle 81, the rear connecting lower beam 823 of another fork 82 is connected with the pressure rod 85, and the front connecting beam 822 of another fork 82 is connected with the swing rod 83 through the connecting screw 84.

When the invention is verified, the station transferring efficiency of the glass panels of the multi-burner kitchen range is realized through the conveying device 1 and the moving device 2, the chamfering quality of the glass panels of the multi-burner kitchen range is improved through the speed reduction and edging of the chamfering device 5, the installation precision of the cutter blade head 62 is improved through the drilling device 6, the drilling efficiency of the glass panels of the multi-burner kitchen range is realized through the acute angle of the cutter blade head 62, and the storage and the integral transportation of the glass panels of the multi-burner kitchen range are realized through the transferring device 8.

In the second embodiment of the present invention, the conveyor 1, the moving device 2, and the manufacturing apparatus body are connected to each other in such a manner that the glass panel of the multiple-burner cooker is subjected to grid displacement.

In the present embodiment, the conveying device 1 and the handling device 2 are coupled to the manufacturing apparatus body in such a manner that the vertical displacement and the lateral displacement are distributed in a meeting manner.

In the present embodiment, the manufacturing apparatus body is provided to include a glass cutting apparatus 4, a chamfering apparatus 5, and a drilling apparatus 6.

In the present embodiment, a first attachment device is further included and provided in the manufacturing apparatus body, the first attachment device being provided as the glass storage rack 3.

In the present embodiment, a second accessory device is further included and provided in the manufacturing apparatus body, the second accessory device being provided as the print drying apparatus 7.

In this embodiment, a third accessory device is also included and is provided in the manufacturing device body, the third accessory device being provided as a transfer device 8.

A second embodiment of the invention is based on the first embodiment,

the second embodiment of the present invention comprises the steps of: the manufacturing device body realizes the processing and forming of the glass panel of the multi-cooking-range stove, and the conveying device 1 and the moving device 2 realize the grid displacement of the glass panel of the multi-cooking-range stove.

A second embodiment of the invention is based on the first embodiment,

the invention has the following characteristics:

1. due to the design of the conveying device 1, the moving device 2 and the manufacturing device body, the processing and forming of the glass panel of the multi-cooking-range stove are realized through the manufacturing device body, and the grid displacement of the glass panel of the multi-cooking-range stove is realized through the conveying device 1 and the moving device 2, so that the manufacturing efficiency of the glass panel of the multi-cooking-range stove is improved.

2. Due to the design of the glass cutting device 4, the chamfering device 5 and the drilling device 6, the cutting, chamfering and drilling operations are realized.

3. Due to the design of the glass storage rack 3, the centralized storage of the raw material plates of the glass panels of the multi-cooking range is realized.

3. Due to the design of the printing and drying device 7, the screen printing is realized.

4. Due to the design of the transfer device 8, buffer transfer is realized.

5. Due to the design of the conveyor belt 12, a cushioned support is achieved.

6. Because the structural shape is limited by the numerical range, the numerical range is the technical characteristic of the technical scheme of the invention, and is not the technical characteristic obtained by formula calculation or limited tests, and tests show that the technical characteristic of the numerical range achieves good technical effect.

7. Due to the design of the technical characteristics of the invention, tests show that each performance index of the invention is at least 1.7 times of the existing performance index under the action of the single and mutual combination of the technical characteristics, and the invention has good market value through evaluation.

Still other technical features associated with the conveyor 1, the handling device 2 and the manufacturing device body for grid shifting of glass panels of a multiple burner cooker are all one of the embodiments of the present invention, and the technical features of the above-described embodiments can be arbitrarily combined, and in order to meet the requirements of patent laws, patent implementation rules and examination guidelines, all possible combinations of the technical features of the above-described embodiments will not be described again.

The above embodiment is just one implementation form of the manufacturing device and method for a glass panel of a multi-burner cooking range provided by the present invention, and other variations of the solution provided by the present invention, increasing or decreasing components or steps therein, or applying the present invention to other technical fields close to the present invention, are within the protection scope of the present invention.

Claims (10)

1. A manufacturing installation for many kitchen range cooking utensils glass panels, characterized by: comprises a manufacturing device body used for forming the glass panel of the multi-burner stove, a conveying device (1) arranged in the manufacturing device and used for conveying the glass panel of the multi-burner stove, and a conveying device (2) arranged in the manufacturing device and used for conveying the glass panel of the multi-burner stove.

2. The manufacturing device for glass panels for multi-burner cooktops according to claim 1, characterized in that: the conveying device (1), the moving device (2) and the manufacturing device body are connected with each other in a mode of carrying out grid displacement on the glass panel of the multi-burner kitchen range.

3. The manufacturing device for glass panels for multi-burner cooktops according to claim 2, characterized in that: the conveying device (1) and the moving device (2) are connected with the manufacturing device body in a mode of intersecting and distributing vertical displacement and transverse displacement.

4. The manufacturing device for glass panels for multi-burner cooktops according to claim 1, characterized in that: the manufacturing device body is arranged to comprise a glass cutting device (4), a chamfering device (5) and a drilling device (6),

or, a first accessory device is also included and is arranged in the manufacturing device body, the first accessory device is arranged as a glass storage rack (3),

or, a second accessory device is also included and arranged in the manufacturing device body, the second accessory device is arranged as a printing and drying device (7),

or, a third accessory device is also included and is arranged in the manufacturing device body, the third accessory device being arranged as a transfer device (8).

5. The manufacturing device for a glass panel of a multi-burner cooktop according to claim 4, characterized in that: moving devices (2) are respectively arranged between the glass storage rack (3) and the glass cutting device (4), between the glass cutting device (4) and the conveying device (1), between the chamfering device (5) and the conveying device (1), between the drilling device (6) and the conveying device (1) and between the printing drying device (7) and the conveying device (1), and the transferring devices (8) are arranged to be distributed corresponding to the printing drying device (7).

6. The manufacturing device for glass panels for multi-burner hobs according to claim 5, characterized in that: conveyer (1) sets up to including frame (11), conveyer belt (12), passive axis of rotation (13), power axis of rotation (14), direction axis of rotation (15), rise tight axis of rotation (16), plate wheel (17), rise tight screw rod (18), rise tight nut group (19) and motor power (10) and one of them end upper end of frame (11) sets up to coupleing with passive axis of rotation (13) rotary type, wherein another end upper end of frame (11) sets up to coupleing and the wherein another end lower extreme of frame (11) sets up to coupleing with motor power (10) with power axis of rotation (14) rotary type, the middle upper end of frame (11) sets up to coupleing and passes through the cluster with rise tight screw rod (18) with direction axis of rotation (15) rotary type hookup and the middle lower extreme of frame (11) sets up to and passes through the cluster hookup with rise tight screw rod (18), the lower extreme of rise tight screw rod (18) sets up to coupleing and the tight screw rod (18 The device is in threaded connection with upper and lower nuts of a tensioning nut group (19), the upper and lower nuts of the tensioning nut group (19) are in clamping connection with a rack (11), a power motor (10) is in connection with a power rotating shaft (14) through belt pulley transmission, disc wheels (17) are respectively in sleeve connection with a driven rotating shaft (13), the power rotating shaft (14), a guide rotating shaft (15) and a tensioning rotating shaft (16), a conveying pipe belt (12) is respectively in surrounding connection with the disc wheels (17) positioned on the driven rotating shaft (13), the disc wheels (17) positioned on the power rotating shaft (14), the disc wheels (17) positioned on the guide rotating shaft (15) and the disc wheels (17) positioned on the tensioning rotating shaft (16), the conveying pipe belt (12) is arranged to be distributed corresponding to the moving device (2) and the rack (11) is arranged to be a rectangular three-dimensional rack body, conveyer belt (12) set up to be full of the tubular ring body of aqueous medium and driven axis of rotation (13), power axis of rotation (14), direction axis of rotation (15) and tight axis of rotation (16) set up to circular rod-shaped body respectively, disk wheel (17) set up to the wheel-shaped body that the periphery has the recess and tight screw rod (18) set up to P font bolt, tight nut group (19) set up to the aggregate that has two hexagon nuts and a conveyer belt (12) and four disk wheels (17) set up to constitute a set of pipe belt part, at least group pipe belt part sets up respectively on driven axis of rotation (13), power axis of rotation (14), direction axis of rotation (15) and tight axis of rotation (16) rise.

7. The manufacturing device for glass panels for multi-burner hobs according to claim 5, characterized in that: the moving device (2) is arranged to comprise a stretching beam (21), a transverse telescopic cylinder (22), a moving seat (23), a rolling roller (24), a vertical telescopic cylinder (25), a plate seat (26) and a sucker (27), wherein an upper transverse through hole body (232), a lower transverse through hole body (233) and a vertical through hole body (234) are respectively arranged on the moving seat (23), the upper end opening part of the vertical through hole body (234) is arranged on the lower inner wall of the lower transverse through hole body (233) and the lower end opening part of the vertical through hole body (234) is arranged on the lower end surface of the moving seat (23), the inner side wall of the upper transverse through hole body (232) is rotatably connected with the rolling roller (24) and the rolling roller (24) is arranged to be in contact connection with the upper end surface part of the stretching beam (21), the upper inner wall of the lower transverse through hole body (233) is arranged to be connected with the outer shell part of the vertical telescopic cylinder (25) and the vertical through hole body (234) is arranged to be connected with the telescopic part of the vertical telescopic cylinder (25), the end of the telescopic part of the vertical telescopic cylinder (25) is connected with the end surface of the upper end of the plate seat (26) and the end surface of the lower end of the plate seat (26) is connected with the sucking disc (27), one end of the horizontal telescopic cylinder (22) is connected with the extension beam (21) and the other end of the horizontal telescopic cylinder (22) is connected with the moving seat (23), the extension beam (21) is a rectangular rod-shaped body, the horizontal telescopic cylinder (22) and the vertical telescopic cylinder (25) are respectively connected with two-section telescopic cylinders, the hydraulic port of the horizontal telescopic cylinder (22) and the hydraulic port of the vertical telescopic cylinder (25) are respectively connected with a hydraulic device and the rolling roller (24) is a middle-shaped rod-shaped body, the plate seat (26) is a rectangular plate-shaped body and the sucking disc (27) is a vacuum sucking disc, the moving seat (23) is a rectangular block-shaped body, the upper transverse through hole body (232) and the lower transverse through hole body (233) are rectangular hole-shaped bodies, the vertical through hole body (234) is set to be a circular hole body, the lower transverse through hole body (233) and the vertical through hole body (234) are set to be distributed in a T shape, and the plate seat (26) and the suction disc (27) are respectively set to be distributed correspondingly with the conveying device (1), the glass storage rack (3), the glass cutting device (4), the chamfering device (5), the drilling device (6) and the printing and drying device (7).

8. The manufacturing device for glass panels for multi-burner hobs according to claim 5, characterized in that: the glass storage rack (3) is arranged into a rectangular bed-shaped body, the end surface part of the upper end of the glass storage rack (3) is arranged to be distributed corresponding to the moving device (2),

or the glass cutting device (4) is a gantry type glass cutting machine, the end surface part of the upper end of the glass cutting device (4) is distributed corresponding to the moving device (2),

or, the chamfering device (5) is arranged to comprise a frame (51), a front roller transmission device (52), an upper pressing frame (53), an upper bracket (54), an upper thrust telescopic cylinder (55), a lower thrust telescopic cylinder (56), an edge grinding device (57), a positioning screw nut (58), a rotating disc (59) and a rear roller transmission device (50), the middle front end part of the frame (51) is connected with the front roller transmission device (52), the middle rear end part of the frame (51) is connected with the rear roller transmission device (50), the rotating disc (59) is arranged between the rear end head of the front roller transmission device (52) and the front end head of the rear roller transmission device (50), the rotating disc (59) is connected with the frame (51), one end head of the upper thrust telescopic cylinder (55) is connected with the upper end surface part of the frame (51), the other end head of the upper thrust telescopic cylinder (55) is connected with the upper pressing frame (53) and the lower thrust telescopic cylinder (56) One end of the upper pressure frame is connected with the lower end face of the frame (51), the other end of the lower thrust telescopic cylinder (56) is connected with the upper bracket (54), the screw rods of the positioning screw nuts (58) are respectively connected with the upper pressure frame (53) and the upper bracket (54) in a penetrating manner, the nuts of the positioning screw nuts (58) are respectively connected with the upper pressure frame (53) and the upper bracket (54) in a clamping manner, the screw rod ends of the positioning screw nuts (58) are connected with the motor of the edge grinding device (57), the grinding wheels of the edge grinding device (57) positioned on the upper pressure frame (53) are arranged and distributed up and down with the grinding wheels of the edge grinding device (57) positioned on the upper bracket (54), and the upper pressure frame (53), the upper bracket (54), the upper thrust telescopic cylinder (55), the lower thrust cylinder (56), the two edge grinding devices (57) and the two positioning screw nuts (58) are arranged to form a group of edge grinding parts, wherein one set of edge-making parts is arranged between the frame (51) and the front roller transmission device (52) and the other set of edge-making parts is arranged between the frame (51) and the rear roller transmission device (50), the frame (51) is arranged into a shape of a Chinese character 'wang' and the front roller transmission device (52) and the rear roller transmission device (50) are respectively arranged into roller conveying devices, the upper pressure frame (53) and the upper bracket (54) are respectively arranged into rake teeth bodies with outer rods and the upper thrust telescopic cylinder (55) and the lower thrust telescopic cylinder (56) are respectively arranged into two-joint telescopic cylinders, the hydraulic port of the upper thrust telescopic cylinder (55) and the hydraulic port of the lower thrust telescopic cylinder (56) are respectively arranged into connection with the hydraulic devices and the edge grinding device (57) is arranged into a motor with a conical grinding wheel, the rotating disc (59) is arranged into a 90-degree gap transposition disc and the front roller transmission device (52) and the rear roller transmission device (50) are arranged into corresponding distribution with the handling device (2),

or, the drilling device (6) is set as a gantry drilling machine and the drill of the drilling device (6) is set as a three-jaw chuck (61), a cutting edge head (62), a base plate (63), a pressure plate (64) and a fastening nut (65) and a mounting hole body is arranged on the transverse part of the base plate (63), the mounting hole body of the base plate (63) is set to be connected with the cutting edge head (62) and the inner end head of the cutting edge head (62) is set to be connected with the inner end surface part of the pressure plate (64) in a contact way, the outer end surface part of the pressure plate (64) is set to be connected with the fastening nut (65) in a contact way and the fastening nut (65) is set to be connected with the vertical part of the base plate (63) in a thread way, a groove body is arranged on the peripheral part of the transverse part of the base plate (63) and the groove body of the base plate (63) is set to be connected with the three-jaw chuck (61), the three-jaw chuck (61) is set to be connected with the, the knife edge head (62) is arranged into a right-angled triangle block body, the acute angle of the knife edge head (62) is 18-26 degrees, the base disc (63) is arranged into a T-shaped block body, the pressing disc (64) is arranged into a circular plate body, the fastening nut (65) is arranged into a hexagon nut, the workbench of the drilling device (6) is arranged to be distributed corresponding to the moving device (2),

or the printing and drying device (7) is set as a screen printing and drying machine and the conveyer belt of the printing and drying device (7) is set to be distributed corresponding to the moving device (2),

or, the transfer device (8) is set to include a moving vehicle (81), a fork frame (82), a swing rod (83), a connecting screw rod (84), a pressure rod (85), a string rod (86), a spring (87) and a support leg (88) and is provided with a sliding hole body (811) at the transverse rear end face of the moving vehicle (81), a connecting lug seat (812) is provided at the transverse front end face of the moving vehicle (81) and the fork frame (82) is set to include a fork rod (821), a front connecting beam (822), a rear connecting lower beam (823) and a rear connecting upper beam (824), a threaded hole body (825) is provided at the front end of the fork rod (821) and the end of the front connecting beam (822), the end of the rear connecting lower beam (823) and the end of the rear connecting upper beam (824) are respectively set to be coupled with the inner side face of the fork rod (821), the threaded hole body (825) is set to be coupled with the support leg (88) and the sliding hole body (811) is set to be coupled with the string rod (, the string rod (86) is connected with the spring (87) in a penetrating and serial mode, the upper end head of the string rod (86) is connected with the pressure rod (85), one end head of the spring (87) is connected with the pressure rod (85) in a contact mode, the other end head of the spring (87) is connected with the upper end face of the transverse portion of the moving trolley (81) in a contact mode, the pressure rod (85) is connected with the rear connecting lower beam (823) in a sinking mode, the transverse end head of the swing rod (83) is connected with the connecting lug seat (812) in a rotating mode, the vertical end head of the swing rod (83) is connected with the front connecting beam (822) through the connecting screw rod (84) and the moving trolley (81) is provided with a double-shaft vehicle-shaped body, the swing rod (83) is provided with a pi-shaped frame-shaped body, the connecting screw rod (84) is provided with a hexagonal bolt, the pressure rod (85), the front connecting beam (822) and the rear connecting upper beam (824) are respectively provided with ) Is arranged into a T-shaped rod-shaped body, the spring (87) is arranged into a compression spring, the sliding hole body (811) is arranged into a circular hole-shaped body, the connecting lug seat (812) is arranged into a double-plate seat-shaped body, the fork rod (821) is arranged into an L-shaped plate-shaped body, the connecting lower beam (823) is arranged into a U-shaped channel steel, the fork frame (82) is arranged to be distributed corresponding to the printing and drying device (7),

or the conveying device (1), the moving device (2), the glass cutting device (4), the chamfering device (5) and the drilling device (6) are distributed according to a chamfering and drilling step-by-step processing mode, the conveying device (1), the moving device (2), the glass cutting device (4), the chamfering device (5), the drilling device (6) and the glass storage rack (3) are distributed according to an end supply mode, the conveying device (1), the moving device (2), the glass cutting device (4), the chamfering device (5), the drilling device (6) and the printing and drying device (7) are distributed according to an end printing mode, the first moving device (2) is arranged between the glass storage rack (3) and the glass cutting device (4), the second moving device (2) is arranged between the glass cutting device (4) and the moving device (2), the third moving device (2) and the fourth moving device (2) are arranged between the chamfering device (5) and the moving device (2), the fifth moving device (2) and the sixth moving device (2) are arranged between the drilling device (6) and the moving device (2), and the seventh moving device (2) is arranged between the printing and drying device (7) and the moving device (2).

9. A manufacturing method for a glass panel of a multi-burner kitchen range is characterized by comprising the following steps: the method comprises the following steps: the manufacturing device body realizes the processing and forming of the glass panel of the multi-cooking-range stove, and the conveying device (1) and the moving device (2) realize the grid displacement of the glass panel of the multi-cooking-range stove.

10. The manufacturing method for a glass panel of a multi-burner kitchen range according to claim 5, characterized in that: the method comprises the following steps: the power motor (10) is started, the power rotating shaft (14) is driven to rotate on the rack (11), the plate wheel (17) positioned on the power rotating shaft (14) is enabled to rotate, the driven rotating shaft (13) and the guide rotating shaft (15) are enabled to rotate on the rack (11) through the conveying pipe belt (12), the tensioning rotating shaft (16) is enabled to rotate on the tensioning screw rod (18), the conveying pipe belt (12) is enabled to rotate through the plate wheel (17) positioned on the driven rotating shaft (13), the plate wheel (17) positioned on the guide rotating shaft (15) and the plate wheel (17) positioned on the tensioning rotating shaft (16), the positions of the tensioning screw rod (18) and the rack (11) are adjusted through the adjustment of the tensioning nut group (19), the height of the tensioning rotating shaft (16) is adjusted, and the tensioning degree of the conveying pipe belt (12) is adjusted,

the extension length of the vertical telescopic cylinder (25) is adjusted, the plate base (26) is descended, the sucker (27) acts on the glass panel of the multi-stove, after the sucker (27) finishes the adsorption of the glass panel of the multi-stove, the plate base (26) is lifted through the vertical telescopic cylinder (25), the extension length of the transverse telescopic cylinder (22) is adjusted, the rolling roller (24) rolls on the extension beam (21), and the transverse position of the moving base (23) is adjusted,

through the work of the first moving device (2), a raw material plate of a glass panel of a multi-burner kitchen range on a glass storage rack (3) is carried and placed on a workbench of a glass cutting device (4), through the work of the glass cutting device (4), the raw material plate of the glass panel of the multi-burner kitchen range is cut according to the size of the glass panel of the multi-burner kitchen range to prepare a glass panel I of the multi-burner kitchen range, through the work of the second moving device (2), the glass panel I of the multi-burner kitchen range is placed on a conveying pipe belt (12), when the glass panel I of the multi-burner kitchen range moves to a front roller transmission device (52), through the work of a third moving device (2), the glass panel I of the multi-burner kitchen range is placed on the front roller transmission device (52), an edge grinding device (57) works, the front roller transmission device (52) moves the glass panel I of the multi-burner range to one group of edge manufacturing components, the upper thrust telescopic cylinder (55) and the lower thrust telescopic cylinder (56) are in an extension state, a multi-burner stove glass panel I is clamped and moves in a speed reduction mode, a first side edge part (91) and a second side edge part (95) of the multi-burner stove glass panel I are subjected to edge grinding processing through an edge grinding device (57) of an upper pressing frame (53) and an edge grinding device (57) of an upper bracket (54), after the edge grinding processing of the first side edge part (91) and the second side edge part (95) of the multi-burner stove glass panel I is completed, the multi-burner stove glass panel I is placed on a rotating disc (59), the rotating disc (59) drives the multi-burner stove glass panel I to rotate for 90 degrees, the multi-burner stove glass panel I moves onto a rear roller transmission device (50), the rear roller transmission device (50) moves the multi-burner stove glass panel I onto another group of edge manufacturing components, through the linkage work of an upper pressing frame (53), an upper bracket (54), an upper thrust telescopic cylinder (55), a lower thrust telescopic cylinder (56) and an edge grinding device (57) of another group of edge manufacturing components, the edge grinding treatment is carried out on a third side part (92) and a fourth side part (96) of a multi-range-head stove glass panel I, when the edge grinding treatment is completed on the third side part (92) and the fourth side part (96) of the multi-range-head stove glass panel I, a multi-range-head stove glass panel II is manufactured, the distance between a grinding wheel of the edge grinding device (57) on the upper pressing frame (53) and a grinding wheel of the edge grinding device (57) on the upper bracket (54) is adjusted through a positioning screw nut (58), through the work of a fourth moving device (2), the multi-range-head stove glass panel II is placed on a conveying pipe belt (12), and when the multi-range-head stove glass panel II moves to a drilling device (6), putting a multi-burner stove glass panel II on a workbench of a drilling device (6) through the operation of a fifth moving device (2), installing a cutter head (62) on a base plate (63) according to the sizes of a first hole body (93) and a second hole body (94), installing a pressure plate (64) on the base plate (63), installing a fastening nut (65) on the base plate (63) to obtain a drilling head of the first hole body (93) and a drilling head of the second hole body (94), installing the base plate (63) in a three-jaw gripping disk (61), installing the three-jaw gripping disk (61) on a power shaft of the drilling device (6), performing the operation of the first hole body (93) and the second hole body (94) on the multi-burner stove glass panel II to obtain a multi-burner stove glass panel III, putting the multi-burner stove glass panel II on a conveying pipe belt (12) through the operation of the sixth moving device (2), when the multi-burner kitchen range glass panel III moves to the printing and drying device (7), the multi-burner kitchen range glass panel III is placed on a conveying belt of the printing and drying device (7) through the operation of the seventh moving device (2), the multi-burner kitchen range glass panel III is subjected to identification printing through the operation of the printing and drying device (7), a multi-burner kitchen range glass panel finished product is prepared, the multi-burner kitchen range glass panel finished product is placed on a fork rod (821), when the multi-burner kitchen range glass panel finished product is stored in the fork rod (821), the circulation movement is carried out through a moving vehicle (81), through the elastic energy storage of a spring (87), a string rod (86) slides in a sliding hole body (811), the stability of the fork frame (82) is kept through the swinging of a swinging rod (83) in a connecting lug seat (812), and when the multi-burner range kitchen range glass panel finished product reaches a circulation place, a connecting screw rod (84) is loosened from a front connecting beam (822), the swing rod (83) is separated from the front connecting beam (822), the fork frame (82) is hoisted, the rear connecting lower beam (823) is separated from the pressure rod (85), the rear connecting lower beam (823) is placed on the ground, the fork rod (821) is horizontally adjusted through rotation of the supporting leg (88) in the threaded hole body (825), another fork frame (82) is installed on the moving vehicle (81), the rear connecting lower beam (823) of the other fork frame (82) is connected with the pressure rod (85), and the front connecting beam (822) of the other fork frame (82) is connected with the swing rod (83) through the connecting screw rod (84).

Images