CN113561500B

CN113561500B - Hot melt riveting machine

Info

Publication number: CN113561500B
Application number: CN202010348552.7A
Authority: CN
Inventors: 黄志祥; 张�成; 简双军; 葛卫民; 刘春笋; 王治民
Original assignee: Fu Ding Electronical Technology Jiashan Co Ltd
Current assignee: Fu Ding Electronical Technology Jiashan Co Ltd
Priority date: 2020-04-28
Filing date: 2020-04-28
Publication date: 2023-07-21
Anticipated expiration: 2040-04-28
Also published as: CN113561500A

Abstract

The utility model provides a hot melt riveter, includes positioning mechanism, positioning mechanism includes half profile modeling tool, be provided with tool opening and closing device on the half profile modeling tool, the tool opening sets up half profile modeling tool's length direction both ends, closing device rotation sets up on the half profile modeling tool for fixed product, hot melt riveter still includes hot melt mechanism and actuating mechanism, positioning mechanism slides and sets up hot melt mechanism below, actuating mechanism is used for the drive half profile modeling tool removes to hot melt mechanism carries out the hot melt. Through the installation of half profile modeling tool for the product makes things convenient for the dismouting, simultaneously according to the gesture that the people held the product, sets up the tool opening, and through setting up logical groove, makes can follow one side installation product then carry out the hot melt in another side.

Description

Hot melt riveting machine

Technical Field

The application relates to the technical field of plastic part production, in particular to a hot-melt riveting machine.

Background

This section is intended to provide a background or context for embodiments of the present application that are recited in the claims. The description herein is not admitted to be prior art by inclusion in this section.

The hot melting machine is commonly used for assembly lines of industries such as mobile phones, MP3, digital cameras, magic sound headphones and the like, and aims to embed hot melting products such as metal nuts and the like into plastic part products so as to facilitate assembly with other products.

In the prior art, the manual riveting products are used, the cylindrical heads are more, the time consumption is more, the labor capacity is high, and the precision requirement of the products cannot be guaranteed.

Disclosure of Invention

In view of the foregoing, there is a need for an improved hot melt riveter that achieves the goal of replacing human labor by machinery.

The technical scheme that this application provided is:

the utility model provides a hot melt riveter, includes positioning mechanism, positioning mechanism includes half profile modeling tool, be provided with tool opening and closing device on the half profile modeling tool, the tool opening sets up half profile modeling tool's length direction both ends, closing device rotation sets up on the half profile modeling tool for fixed product, hot melt riveter still includes hot melt mechanism and actuating mechanism, positioning mechanism slides and sets up hot melt mechanism below, actuating mechanism is used for the drive half profile modeling tool removes to hot melt mechanism carries out the hot melt.

In some embodiments of the present application, the compacting device includes a rotating ram, a buffer spring, and a fixing screw, the fixing screw penetrates the rotating ram and is screwed onto the semi-profiling jig, the buffer spring is located between the fixing screw and the rotating ram, and the buffer spring is always kept in a compressed state.

In some embodiments of the present application, a pushing mechanism is provided on the semi-profiling jig, the pushing mechanism includes a through groove penetrating through the semi-profiling jig, a fixed block and a sliding block located in the through groove, a sliding groove for sliding the sliding block is provided on the fixed block, a buffer spring for keeping a compressed state is provided in the sliding groove, and the sliding block is used for propping against the product.

In some embodiments of the present application, the driving mechanism includes a connection board connected with the semi-profiling jig, the driving mechanism further includes a bottom board and a linear guide rail, the connection board slides along a length direction of the linear guide rail, and the bottom board is used for supporting the linear guide rail and the connection board.

In some embodiments of the present application, the linear guide rail includes a spacer block for supporting the connection plate and a rodless cylinder for driving the connection plate to slide along a length direction of the spacer block.

In some embodiments of the present application, a plurality of limiting blocks are further disposed on the linear guide rail, and the positions of the limiting blocks in the length direction of the cushion blocks are adjustable.

In some embodiments of the present application, the hot-melting mechanism includes a support frame, a driving device and a hot-melting head, wherein the support frame is located above the driving mechanism, the driving device penetrates through the support frame and is connected to the hot-melting head, and the driving device is used for driving the hot-melting head to slide on the positioning mechanism.

In some embodiments of the present application, an adjusting mechanism is disposed between the driving device and the hot-melt head, the adjusting mechanism includes three adjusting plates, three adjusting plates are arranged along a vertical direction and are mutually attached, dovetail grooves with mutually perpendicular directions are respectively disposed on the upper two adjusting plates, dovetail blocks mutually matched with the dovetail grooves are respectively disposed on the lower two adjusting plates, and the dovetail blocks slide along a length direction of the dovetail grooves.

In some embodiments of the present application, the hot-melt riveting machine is further provided with a protective cover with a downward opening, the protective cover is located at the periphery of the positioning mechanism, the driving mechanism and the hot-melt mechanism, and the protective cover is provided with a control panel.

In some embodiments of the present application, a temperature controller and a metal sensor are further disposed on the protective cover.

Above-mentioned hot melt riveter is through the installation of half profile modeling tool for the product makes things convenient for the dismouting, simultaneously according to the gesture that the people held the product, sets up the tool opening, and through setting up logical groove, makes can follow one side installation product then carries out the hot melt in another side.

Drawings

The present application is described in further detail below with reference to the drawings and detailed description.

Fig. 1 is an overall schematic view of a hot-melt riveter according to an embodiment of the present application.

Fig. 2 is an overall schematic view of a workbench of a hot-melt riveting machine according to an embodiment of the present application.

Fig. 3 is a schematic view of a part of a hot-melt riveter according to an embodiment of the present application.

Fig. 4 is an overall schematic view of a positioning mechanism on a hot-melt riveting machine according to an embodiment of the present application.

Fig. 5 is an overall schematic view of a pressing device on a hot-melt riveting machine according to an embodiment of the present application.

Fig. 6 is an overall schematic diagram of a pushing mechanism on a hot melt riveter according to an embodiment of the present application.

Fig. 7 is an overall schematic view of a driving mechanism of a hot melt riveting machine according to an embodiment of the present application.

Fig. 8 is an overall schematic view of a hot melt mechanism on a hot melt riveter according to an embodiment of the present application.

Fig. 9 is an overall schematic view of an adjusting device on a hot-melt riveting machine according to an embodiment of the present application.

Fig. 10 is an overall schematic view of a protective cover on a hot melt riveter according to an embodiment of the present application.

Reference numerals illustrate:

the following detailed description will further illustrate embodiments of the present application in conjunction with the above-described figures.

Detailed Description

In order that the above-recited objects, features and advantages of embodiments of the present application will be more readily understood, a more particular description of the invention will be rendered by reference to the appended drawings and appended drawings. In addition, features in the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the examples of the present application, the described embodiments being only some, but not all, of the embodiments of the present application. All other embodiments, based on the embodiments herein, which would be apparent to one of ordinary skill in the art without undue burden are within the scope of the examples herein.

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

Through the installation of half profile modeling tool for the product makes things convenient for the dismouting, simultaneously according to the gesture that the people held the product, sets up the tool opening, and through setting up logical groove, makes can follow one side installation product then carry out the hot melt in another side.

Referring to fig. 1, 2 and 3, a hot-melt riveting machine 100 includes a workbench 10, a positioning mechanism 20, a driving mechanism 30, a hot-melt mechanism 50 and a protective cover 70, wherein the workbench 10 is used for supporting the positioning mechanism 20, the driving mechanism 30, the hot-melt mechanism 50 and the protective cover 70, the positioning mechanism 20 is used for fixing a product to be hot-melted, the driving mechanism 30 is used for driving the positioning mechanism 20 to slide below the hot-melt mechanism 50, the protective cover 70 is covered on the periphery of the positioning mechanism 20, the driving mechanism 30 and the hot-melt mechanism 50, and the protective cover 70 is positioned on an opening at one side where the positioning mechanism 20 slides.

Referring to fig. 2, the table 10 is generally rectangular, and the table 10 is provided with a plurality of raised blocks 11 and adjustment legs 13, wherein the raised blocks 11 are located below the driving mechanism 30 and used for supporting the driving mechanism 30, the adjustment legs 13 are located at the bottom of the table 10, in an embodiment, the number of the adjustment legs 13 is four and are located at four right angles at the bottom of the table 10 and used for supporting the table 10, and the height of the adjustment legs 13 is adjustable. In other embodiments, the number of adjustment feet 13 may also be increased as desired.

Referring to fig. 3 and 4, the positioning mechanism 20 includes a semi-profiling fixture 21 and a plurality of pushing mechanisms 22, the semi-profiling fixture 21 is vertically disposed, the pushing mechanisms 22 are located on the semi-profiling fixture 21, and the pushing mechanisms 22 are used for pressing the middle of a product, so that the bottom is in complete contact with the semi-profiling fixture 21, and the precision of hot melting is improved.

Referring to fig. 4, the semi-profiling jig 21 is disposed in a substantially rectangular plate shape, a jig opening 211, a through slot 212, a plurality of pressing devices 213, and a pressing head 215 are disposed on the semi-profiling jig 21, two jig openings 211 are disposed on two ends of the semi-profiling jig 21 in the length direction, and the through slot 212 is disposed along the length direction of the semi-profiling jig 21 and penetrates through the semi-profiling jig 21. The pressing device 213 is used for pressing the product located on the semi-profiling fixture 21.

In an embodiment, a plurality of pressing devices 213 are located on the side of the semi-profiling tool 21 pointing to the opening of the protective cover 70, referring to fig. 5, each pressing device includes a rotating ram 2131, a buffer spring 2133, and a fixing screw 2135, the fixing screw 2135 is used for penetrating the rotating ram 2131 and being screwed onto the semi-profiling tool 21, the buffer spring 2133 is located between a nut on the fixing screw 2135 and the rotating ram 2131, and the buffer spring 2133 is always kept in a compressed state. The pressing head 215 is located at the bottom of the semi-profiling fixture 21 and used for clamping the bottom edge of a product, and preventing the product from being damaged by warping and hot melting.

Referring to fig. 6, the pushing mechanism 22 includes a fixing block 221, a sliding block 223, a buffer spring 225, and a through groove 227 located on the semi-profiling fixture 21, wherein the fixing block 221 is fixed on the through groove 227 on the semi-profiling fixture 21, the sliding block 223 is slidably disposed and abuts against the middle of a product to achieve pressing and fixing of the product, a sliding groove 2211 for sliding the sliding block 223 is disposed on the fixing block 221, the buffer spring 225 in a compressed state is disposed in the sliding groove 2211, and the buffer spring 225 abuts against a sidewall of the sliding groove 2211 and a sidewall of the sliding block 223 to drive the sliding block 223 to slide towards the other side of the through groove 227.

Referring to fig. 7, the driving mechanism 30 includes a bottom plate 31, a connecting plate 33, linear guide rails 35 and positioning blocks 36, the bottom plate 31 is located on the surface of the workbench 10, the bottom plate 31 is horizontally disposed to support the linear guide rails 35, the connecting plate 33 is slidably disposed along the length direction of the linear guide rails 35, two positioning blocks 36 are disposed at two ends of the connecting plate 33 in the sliding direction, and the positioning blocks 36 are used to limit the sliding arrangement of the connecting plate 33. The connecting plate 33 is used for bearing the positioning mechanism 20, a reinforcing block 331 is arranged on the connecting plate 33, the reinforcing block 331 is connected with the connecting plate 33 and the semi-profiling jig 21, in an embodiment, a fine adjustment device is arranged at the bottom of the connecting plate 33 and used for adjusting the rotation of the connecting plate 33 and the semi-profiling jig 21 above the connecting plate in the horizontal direction.

The linear guide 35 is used for driving the connecting plate 33, the linear guide 35 is horizontally arranged, and the length direction of the linear guide 35 is perpendicular to the side wall of the opening side of the protective cover 70. The linear guide 35 comprises cushion blocks 351, rodless cylinders 352 and limiting blocks 353, wherein the cushion blocks 351 are used for bearing the connecting plates 33, the lengths of the cushion blocks 351 are consistent with the sliding direction of the connecting plates 33, in one embodiment, two cushion blocks 351 are arranged, the two cushion blocks 351 are located at two ends perpendicular to the sliding direction of the connecting plates 33, and U-shaped plates fixedly connected with the connecting plates 33 are arranged on the cushion blocks 351. In other embodiments, the pad 351 may be increased or decreased according to the size of the connection plate 33. The rodless cylinder 352 is located below the connecting plate 33, the length direction of the rodless cylinder 352 is consistent with the sliding direction of the connecting plate 33, and the rodless cylinder 352 is used for driving the sliding of the connecting plate 33. The limiting blocks 353 are located on opposite sides of the cushion block 351, two limiting blocks 353 are arranged, the two limiting blocks 353 are used for limiting the sliding distance of the rodless cylinder 352, and the two limiting blocks 353 are arranged in the length direction of the cushion block 351 in an adjustable mode.

The positioning block 36 is used for limiting the sliding distance of the connecting plate 33, in an embodiment, an adjusting nut 361, a limiting boss 362 and an oil buffer 363 are disposed on the positioning block 36, the adjusting nut 361 is used for adjusting the position of the positioning block 36 in the sliding direction of the connecting plate 33, the limiting boss 362 is located at one side of the positioning block 36 pointing to the connecting plate 33, and the oil buffer 363 is disposed between the limiting boss 362 and the positioning block 36.

Referring to fig. 8, the hot melting mechanism 50 is located above the bottom plate 31, and the hot melting mechanism 50 includes a support frame 51, a driving device 52, a heat insulation board 55, a hot melting head 56, and an adjusting device 57, where the support frame 51 is in an inverted U-shape, the support frame 51 is fixed on the bottom plate 31, the heat insulation board 55, the hot melting head 56, and the adjusting device 57 are located on one side of the driving device 52 pointing to the bottom plate 31, and the driving device 52 is used for driving the hot melting head 56 to move onto the semi-profiling fixture 21 on the bottom plate 31.

In an embodiment, the driving device 52 includes a servo motor 521, a ball screw, and a plurality of linear bearings 523, where the servo motor 521 is used to drive the ball screw to rotate, the ball screw 522 is disposed through the support frame 51, one end of the linear bearing 523 is fixed on the support frame 51, and the other end is fixed on the thermal head 56, so as to keep the thermal head 56 slidably disposed along a vertical direction.

The adjusting device 57 is configured to adjust the position of the thermal head 56, where the adjusting device 57 includes three adjusting plates 571, in an embodiment, referring to fig. 9, the three adjusting plates 571 are a first adjusting plate 571a, a second adjusting plate 571b, and a third adjusting plate 571c, the first adjusting plate 571a, the second adjusting plate 571b, and the third adjusting plate 571c are arranged in a vertical direction, a dovetail groove 5711 is respectively disposed on a side surface of the first adjusting plate 571a and the second adjusting plate 571b that points to the third adjusting plate 571c, two dovetail grooves 5711 are disposed vertically to each other in a length direction of the dovetail groove 571, and dovetail blocks 5713 that are matched with the dovetail groove 5711 are disposed on the second adjusting plate 571b and the third adjusting plate 571c, so that the position of the thermal head 56 is adjusted by sliding the dovetail blocks 5713 in the dovetail groove 571 c. In an embodiment, the dovetail groove 5711 on the first adjusting plate 571a extends along the width direction, two sides of the length direction of the first adjusting plate 571a and the second adjusting plate 571b are respectively provided with the limiting groove 5714 and the clamping block 5715, and two ends of the length direction of the second adjusting plate 571b and the third adjusting plate 571c are respectively provided with the limiting groove 5714 and the clamping block 5715.

Referring to fig. 10, the protective cover 70 is covered on the workbench 10, the protective cover 70 includes an opening at one side, and a control panel 72 and a temperature controller 73 disposed in the protective cover 70, in an embodiment, the opening is disposed at the opening on the side where the semi-profiling fixture 21 is installed, the safety light curtain is disposed on two side edges of the opening, and the control panel 72 is disposed on the side wall of the opening. The temperature controller 72 is used for detecting the temperature of the semi-profiling jig 21. In an embodiment, a metal sensor is further disposed in the protective cover, and the metal sensor is used for sensing the position of the semi-profiling fixture 21.

Working principle:

the product is installed on the semi-profiling jig 21, the product is fixed through the pressing device 213 and the pressing head 215, the semi-profiling jig 21 is pushed to the lower part of the hot melting mechanism 50 through the driving mechanism 30, the hot melting head 56 is driven by the servo motor 521 to carry out hot melting on the product, after the hot melting is finished, the semi-profiling jig 21 is driven out of the protective cover 70 through the driving mechanism 30 to carry out material taking, and the steps are sequentially and circularly carried out.

The utility model provides a pair of hot melt riveter 100 through the installation of half profile modeling tool 21 for the convenient dismouting of product, simultaneously according to the gesture that the people held the product, set up tool opening 211. And by providing the through slots 212, it is possible to mount the product from one side and then to perform the heat fusion on the other side.

The foregoing embodiments are merely for illustrating the technical solution of the embodiments of the present application, and not for limiting, although the embodiments of the present application have been described in detail with reference to the foregoing preferred embodiments, it will be understood by those skilled in the art that modifications and equivalent substitutions may be made to the technical solution of the embodiments of the present application without departing from the spirit and scope of the technical solution of the embodiments of the present application.

Claims

1. A hot melt riveter which is characterized in that: comprises a positioning mechanism, wherein the positioning mechanism comprises a semi-profiling jig, a jig opening and a pressing device are arranged on the semi-profiling jig, the jig opening is arranged at two ends of the semi-profiling jig in the length direction, the pressing device is rotatably arranged on the semi-profiling jig and used for fixing products, the hot-melt riveting machine also comprises a hot-melt mechanism and a driving mechanism, the positioning mechanism is slidingly arranged below the hot-melt mechanism, the driving mechanism is used for driving the semi-profiling jig to move to the hot-melt mechanism for hot-melt,

the semi-profiling jig is further provided with a through groove, the through groove is arranged along the length direction of the semi-profiling jig and penetrates through the semi-profiling jig, and the hot melting mechanism penetrates through the through groove from one side, deviating from the pressing device, of the semi-profiling jig to perform hot melting on the product.

2. The hot melt riveter of claim 1, wherein: the pressing device comprises a rotary pressing head, a buffer spring and a fixing screw rod, wherein the fixing screw rod penetrates through the rotary pressing head and is fixed on the semi-profiling jig in a threaded mode, the buffer spring is located between the fixing screw rod and the rotary pressing head, and the buffer spring is always kept in a compressed state.

3. The hot melt riveter of claim 1, wherein: the semi-profiling fixture is characterized in that a pushing mechanism is arranged on the semi-profiling fixture and comprises a through groove penetrating through the semi-profiling fixture, a fixed block and a sliding block, the fixed block and the sliding block are arranged in the through groove, a sliding groove for sliding the sliding block is arranged on the fixed block, a buffer spring in a compressed state is arranged in the sliding groove, and the sliding block is used for propping against the product.

4. The hot melt riveter of claim 1, wherein: the driving mechanism comprises a connecting plate connected with the semi-profiling jig, the driving mechanism further comprises a bottom plate and a linear guide rail, the connecting plate is arranged in a sliding mode along the length direction of the linear guide rail, and the bottom plate is used for supporting the linear guide rail and the connecting plate.

5. The hot melt riveter of claim 4, wherein: the linear guide rail comprises a cushion block and a rodless cylinder, the cushion block is used for supporting the connecting plate, and the rodless cylinder is used for driving the connecting plate to slide along the length direction of the cushion block.

6. The hot melt riveter of claim 5, wherein: the linear guide rail is also provided with a plurality of limiting blocks, and the positions of the limiting blocks in the length direction of the cushion blocks can be adjusted.

7. The hot melt riveter of claim 1, wherein: the hot melting mechanism comprises a supporting frame, a driving device and a hot melting head, wherein the supporting frame is located above the driving mechanism, the driving device penetrates through the supporting frame and is connected with the hot melting head, and the driving device is used for driving the hot melting head to slide on the positioning mechanism.

8. The hot melt riveter of claim 7, wherein: the hot melt head comprises a driving device, a hot melt head and a hot melt head, wherein an adjusting mechanism is arranged between the driving device and the hot melt head, the adjusting mechanism comprises three adjusting plates, the three adjusting plates are arranged along the vertical direction and are mutually attached, dovetail grooves with mutually perpendicular directions are respectively arranged on the upper two adjusting plates, dovetail blocks matched with the dovetail grooves are respectively arranged on the lower two adjusting plates, and the dovetail blocks slide along the length direction of the dovetail grooves.

9. The hot melt riveter of claim 1, wherein: the hot melt riveter is characterized in that a protective cover with a downward opening is further arranged on the hot melt riveter, the protective cover is positioned on the periphery of the positioning mechanism, the driving mechanism and the hot melt mechanism, and a control panel is arranged on the protective cover.

10. The hot melt riveter of claim 9, wherein: the protective cover is also provided with a temperature controller and a metal sensor.