CN110695915A - Press mounting device and photoelectric sensing press mounting device of bottom cover assembly - Google Patents

Abstract

The application discloses bottom cap assembly's pressure equipment device and photoelectric sensing pressure equipment device. The press-fitting device of the bottom cover assembly comprises a bottom plate, a positioning plate, an upper die, a cylinder fixing structure and a detection device, wherein the positioning plate is arranged on the bottom plate and used for fixing the bottom cover assembly; the upper die is arranged above the positioning plate and used for press-fitting the bottom cover assembly on the positioning plate; the air cylinder controls the upper die to move in the vertical direction; the air cylinder fixing structure is arranged on the bottom plate and is fixedly connected with the air cylinder; the detection device is used for detecting the position of the positioning plate, and after the detection device detects that the positioning plate is positioned under the upper die, the cylinder controls the upper die to press down to complete press mounting of the bottom cover assembly. This application adopts the pressure equipment instrument to realize semi-automatization pressure equipment, utilizes the pressure equipment of mould completion to the bottom plate subassembly on the cylinder control, uses manpower sparingly promptly and also improves work efficiency, still improves the yields of product.

Description

Press mounting device and photoelectric sensing press mounting device of bottom cover assembly

Technical Field

The application relates to the field of mechanical press fitting, in particular to a press fitting device and a photoelectric sensing press fitting device for a bottom cover assembly.

Background

At present, the bottom cover assembly on the production line adopts a manual press-fitting mode, time and labor are wasted, and meanwhile, the buckles are not easy to be in place when being pressed and fitted, so that batch reworking is caused; the operation consumes time and labor, and the next procedure is influenced.

Disclosure of Invention

The utility model provides a bottom cover assembly's pressure equipment device and photoelectric sensing pressure equipment device can accomplish the pressure equipment to bottom cover assembly automatically, uses manpower sparingly, improves pressure equipment efficiency.

In order to achieve the purpose, the application discloses a press-fitting device of a bottom cover assembly, which comprises a bottom plate, a positioning plate, an upper die, a cylinder fixing structure and a detection device, wherein the positioning plate is arranged on the bottom plate and used for fixing the bottom cover assembly; the upper die is arranged above the positioning plate and used for press-fitting the bottom cover assembly on the positioning plate; the cylinder is connected with the upper die and controls the upper die to move in the vertical direction; the air cylinder fixing structure is arranged on the bottom plate and is fixedly connected with the air cylinder; the detection device is arranged on the bottom plate and used for detecting the position of the positioning plate; and when the detection device detects that the positioning plate is positioned under the upper die, the cylinder controls the upper die to press down to complete press mounting of the bottom cap assembly.

Optionally, a slide rail is arranged on the bottom plate, and an opening of the slide rail faces the positioning plate; a carriage and a sliding block are arranged below the positioning block, one side of the carriage is connected with the positioning plate, the other side of the carriage is connected with the sliding block, the sliding block is connected with the sliding rail in a sliding manner, and the positioning plate slides in the sliding rail through the sliding block; the detection device comprises a photoelectric sensing switch and a positioning pin, and the photoelectric sensing switch is arranged on the bottom plate and corresponds to the carriage; the positioning pin is connected with the carriage and is arranged on one side of the carriage, which faces the photoelectric sensing switch; the photoelectric induction switch corresponds to the positioning pin and is used for inducing the position of the positioning pin; the photoelectric sensing switch is in electrical signal connection with the air cylinder, and after the photoelectric sensing switch senses the positioning pin, the upper die is controlled to be pressed down, and press mounting of the bottom cover assembly is completed.

Optionally, the press-fitting device includes a limiting plate, and the limiting plate is fixed on the bottom plate, is matched with one end of the slide rail, and is used for limiting the carriage; the photoelectric sensing switch is connected with the limiting plate.

Optionally, the press-fitting device includes a power assembly, the power assembly is disposed on the bottom plate and connected to the carriage, and the carriage is controlled to slide in the slide rail.

Optionally, a push-pull rod is arranged on the carriage, and the push-pull rod is arranged on one side of the carriage, which is far away from the photoelectric sensing switch.

Optionally, the press-fitting device includes a baffle, the baffle is connected to the cylinder fixing structure and disposed above the pull-back rod, and the baffle is perpendicular to the carriage.

Optionally, the baffle is made of a transparent material.

Optionally, the number of the slide rails is two, and the two slide rails are respectively arranged on two sides of the carriage; the number and the position of the sliding blocks correspond to those of the sliding rails.

The application also discloses a photoelectric sensing press-fitting device which comprises a bottom plate, a positioning plate, an upper die, a cylinder fixing structure, a slide rail, a dragging plate, a slide block, a photoelectric sensing switch and a positioning pin, wherein the positioning plate is arranged on the bottom plate and used for fixing the bottom cover assembly; the upper die is arranged above the positioning plate and used for press-fitting the bottom cover assembly on the positioning plate; the cylinder is connected with the upper die and controls the upper die to move in the vertical direction; the air cylinder fixing structure is arranged on the bottom plate and is fixedly connected with the air cylinder; the slide rail is arranged on the bottom plate, and an opening of the slide rail faces the positioning plate; the carriage is arranged below the positioning plate and is connected with the positioning plate; the slide block is arranged below the carriage, one end of the slide block is connected with the carriage, and the other end of the slide block is connected with the slide rail in a sliding manner; the photoelectric sensing switch is arranged on the bottom plate and corresponds to the carriage; the positioning pin is connected with the carriage and is arranged on one side of the carriage, which faces the photoelectric sensing switch; the photoelectric induction switch corresponds to the positioning pin and is used for inducing the position of the positioning pin; the photoelectric sensing switch is in electrical signal connection with the air cylinder, and after the photoelectric sensing switch senses the positioning pin, the upper die is controlled to be pressed down, and press mounting of the bottom cover assembly is completed.

Compared with manual press mounting of the bottom cover assembly, semi-automatic press mounting is achieved by the press mounting tool, the bottom cover assembly is fixed on the positioning plate, the upper die is controlled by the air cylinder to complete press mounting of the bottom cover assembly, labor is saved, and working efficiency is improved; and the dynamics that the pressure equipment subassembly used when carrying out the pressure equipment to the bottom subassembly is the same, with the power adjustment back of cylinder, go up the mould and just can accomplish the pressure equipment to the bottom subassembly, prevent that pressure equipment power undersize and too big bottom subassembly that leads to not up to standard, consequently this application adopts the pressure equipment device can improve the yields of product.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the application, are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the principles of the application. It is obvious that the drawings in the following description are only some embodiments of the application, and that for a person skilled in the art, other drawings can be derived from them without inventive effort. In the drawings:

FIG. 1 is a schematic view of a front side of a bottom lid assembly;

FIG. 2 is a schematic view of a cross-section of the bottom assembly of FIG. 1;

fig. 3 is a schematic view of a press-fitting apparatus according to an embodiment of the present application, shown in a non-operative position;

fig. 4 is a schematic view of a press-fitting apparatus according to an embodiment of the present application at the start of operation;

fig. 5 is a schematic view of a press-fitting apparatus according to an embodiment of the present application, when press-fitting is completed.

100, a press fitting device; 110. a base plate; 120. positioning a plate; 130. an upper die; 140. a cylinder; 150. a cylinder fixing structure; 151. a side plate; 152. a top plate; 160. a slide rail; 170. a slider; 180. a carriage; 190. a photoelectric sensing switch; 200. a detection device; 210. positioning pins; 220. a limiting plate; 230. a power assembly; 240. a push-pull rod; 250. a baffle plate; 260. a gas source; 270. an air control mounting plate; 280. a connecting shaft; 290. a foot pad; 300. a bottom cover assembly.

Detailed Description

It is to be understood that the terminology, the specific structural and functional details disclosed herein are for the purpose of describing particular embodiments only, and are representative, but that the present application may be embodied in many alternate forms and should not be construed as limited to only the embodiments set forth herein.

In the description of the present application, the terms "first", "second" are used for descriptive purposes only and are not to be construed as indicating relative importance or as implicitly indicating the number of technical features indicated. Thus, unless otherwise specified, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature; "plurality" means two or more. The terms "comprises" and "comprising," and any variations thereof, are intended to cover a non-exclusive inclusion, such that one or more other features, integers, steps, operations, elements, components, and/or combinations thereof may be present or added.

Further, terms of orientation or positional relationship indicated by "center", "lateral", "upper", "lower", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, are described based on the orientation or relative positional relationship shown in the drawings, are simply for convenience of description of the present application, and do not indicate that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present application.

Furthermore, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly and may include, for example, fixed connections, removable connections, and integral connections; can be mechanically or electrically connected; either directly or indirectly through intervening media, or through both elements. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

The application is further described with reference to the drawings and alternative embodiments.

As shown in fig. 1 to 5, as an embodiment of the present application, a press-fitting apparatus 100 is disclosed, which includes a bottom plate 110, a positioning plate 120, an upper die 130, a cylinder 140, a cylinder fixing structure 150, and a detecting device 200, wherein the positioning plate 120 is disposed on the bottom plate 110 and is used for fixing a press-fitting member; the upper mold 130 is disposed above the positioning plate 120 and is used for press-fitting the bottom cover assembly 300 on the positioning plate 120; the air cylinder 140 is connected to the upper mold 130 and controls the upper mold 130 to move in a vertical direction; the cylinder fixing structure 150 is disposed on the bottom plate 110 and fixedly connected to the cylinder 140; the detecting device 200 is disposed on the bottom plate 110 and is used for detecting the position of the positioning plate 120; when the detecting device 200 detects that the positioning plate 120 is located right below the upper mold 130, the air cylinder 140 controls the upper mold 130 to press down, so as to complete the press-fitting of the bottom cover assembly 300. Wherein the press-fitting member may be a bottom cap assembly 300, as shown in fig. 1 and 2, which is a schematic view of a bottom cap assembly 300, then the press-fitting apparatus 100 in the present application is a press-fitting apparatus 100 of the bottom cap assembly 300; of course, the press fitting may be other components, and is not limited herein. Compared with the manual press-fitting of the bottom cover assembly 300, the semi-automatic press-fitting is realized by the press-fitting tool, the upper die 130 is controlled by the air cylinder 140 to complete the press-fitting of the bottom cover assembly 300 after the bottom cover assembly 300 is fixed on the positioning plate 120, and therefore labor is saved and the working efficiency is improved; and the force that the pressure equipment subassembly used when carrying out the pressure equipment to bottom cap subassembly 300 is the same, with cylinder 140's power adjustment back, go up mould 130 and can just accomplish the pressure equipment to bottom cap subassembly 300, prevent that pressure equipment power undersize and too big bottom cap subassembly 300 is not up to standard, consequently this application adopts pressure equipment device 100 can improve the yields of product.

The press-fitting device 100 in the present application does not need to manually control the cylinder 140 to press down, and after the bottom cover assembly 300 is placed in the positioning plate 120, when the bottom cover assembly 300 moves to a position right below the upper die 130, the cylinder 140 can automatically control the upper die 130 to press-fit the bottom cover assembly 300. Specifically, the bottom plate 110 is provided with a slide rail 160, and an opening of the slide rail 160 faces the positioning plate 120; a carriage 180 and a slider 170 are arranged below the positioning block, one side of the carriage 180 is connected with the positioning plate 120, the other side of the carriage is connected with the slider 170, the slider 170 is slidably connected with the slide rail 160, and the positioning plate 120 slides in the slide rail 160 through the slider 170; the detection device 200 comprises a photoelectric sensing switch 190 and a positioning pin 210, wherein the photoelectric sensing switch 190 is arranged on the bottom plate 110 and corresponds to the carriage 180; the positioning pin 210 is connected with the carriage 180 and is arranged on one side of the carriage 180 facing the photoelectric sensing switch 190; the photoelectric sensing switch 190 corresponds to the positioning pin 210 and is used for sensing the position of the positioning pin 210; the photoelectric sensing switch 190 is electrically connected with the cylinder 140, and when the photoelectric sensing switch 190 senses the positioning pin 210, the upper die 130 is controlled to be pressed down, so that the press-fitting of the bottom cap assembly 300 is completed. When the bottom cover assembly 300 needs to be placed in the positioning plate 120 or the bottom cover assembly 300 in the positioning plate 120 needs to be replaced, the positioning plate 120 is pulled out through the carriage 180, and is separated from a pressing-down interval of the upper die 130, and the operation in a safety area is performed, so that the bottom cover is easily controlled to be placed in the positioning plate 120, and the safety is safer, and safety accidents caused by machine faults or falling of parts are avoided. In this scheme, after bottom cap subassembly 300 installs in locating plate 120, control planker 180 drives locating plate 120 and slides along the orbit of slide rail 160, and after locating pin 210 moved the response scope of photoelectric sensing switch 190, bottom cap subassembly 300 was just in time located and goes up the mould 130 under, and photoelectric sensing switch 190 gives cylinder 140 with the signal transmission simultaneously, and control cylinder 140 pushes down, accomplishes the pressure equipment to bottom cap subassembly 300.

Moreover, a limiting plate 220 is arranged on the bottom plate 110, and is matched with one end of the slide rail 160 to limit the carriage 180; the photoelectric sensing switch 190 is connected with the limiting plate 220. The slide rail 160 is disposed in the middle of the bottom plate 110, and the length of the slide rail 160 is equal to the width of the bottom plate 110, that is, two ends of the slide rail 160 penetrate through the bottom plate 110, so that the moving range of the carriage 180 in the slide rail 160 is wider, but in order to prevent the carriage 180 from sliding out of the bottom plate 110, and also in order to prevent the bottom cover assembly 300 from moving continuously after moving to the position right below the upper die 130, so as to cause a press-fitting deviation, a limit plate 220 is disposed to limit the carriage 180, so that the bottom cover assembly 300 on the carriage 180 can move right to the position right below the upper die 130 and then be supported. Wherein, the quantity of slide rail 160 can be provided with two, is located the both sides of planker 180 respectively, and the quantity and the position of slider 170 correspond with slide rail 160, and planker 180 can all receive the holding power in gliding in-process both sides like this, and it is more stable to slide, can not rock, avoids causing pressure equipment position deviation because rock. Of course, the number of the slide rails 160 may be two or more, and is not limited herein.

In addition, the press-fitting device 100 includes a power assembly 230, wherein the power assembly 230 is disposed on the bottom plate 110 and connected to the carriage 180, and controls the carriage 180 to slide in the slide rail 160. Thus, the bottom cover assembly 300 is installed without manually pulling out the carriage 180, and the carriage 180 is not manually dragged into the lower part of the upper die 130, so that labor can be saved, and the bottom cover assembly is safer. Of course, the carriage 180 can be pushed in and pulled out manually, so that the requirements can be met when the power assembly 230 fails or in special occasions requiring manual work; specifically, a push-pull rod 240 is arranged on the carriage 180, the push-pull rod 240 is arranged on one side of the carriage 180 away from the photoelectric sensing switch 190, and a person can pull out or push the carriage 180 through the push-pull rod 240. And a baffle 250 is arranged above the push-pull rod 240, and the baffle 250 is connected with the cylinder fixing structure 150, so that the operator is prevented from extending other parts of the body below the cylinder 140 or parts are prevented from splashing to cause safety accidents in the brick pressing process.

Specifically, the cylinder fixing structure 150 is disposed above the bottom plate 110 and is composed of three plates, two of the plates, namely the side plates 151, are symmetrical to each other, the slide rail 160 is located between the two plates, the other plate, namely the top plate 152, is disposed above the two side plates 151 and connected to the side plates 151, the cylinder 140 is disposed on the top plate 152 and connected to the top plate 152, a through hole is disposed on the top plate 152, one end of the cylinder 140 penetrates through the through hole to be connected to the upper die 130, a connecting shaft 280 is disposed between the upper die 130 and the cylinder 140, so that the vertical movement distance of the upper die 130 is increased, and various tool parts with different sizes can be pressed, and the application range is. The two sides of the baffle 250 are respectively fixed on the two side plates 151 of the cylinder fixing structure 150 and are perpendicular to the top plate 152, and the baffle 250 is made of a transparent material. This allows the progress of the brick pressing of the bottom cover assembly 300 to be observed through the barrier 250, thereby performing real-time monitoring and preventing accidents. An air source 260 is arranged on one side of the bottom plate 110 to provide power for the air cylinder 140, and an air control mounting plate 270 is arranged on the other end of the bottom plate, wherein the air control mounting plate 270 is used for fixing electromagnetic valves, pressure regulating valves, hand slide valves and waterproof box assemblies, and the components play roles in improving accuracy and operability; the origin and the pneumatic control mounting plate 270 are respectively arranged at two ends of the cylinder fixing structure 150, and play a role in stabilizing the press-fitting device 100; when the bottom cover assembly 300 is placed on the positioning plate 120, the air source 260 is connected, the power supply pushes the carriage 180 to a designated position, photoelectric induction is carried out, the assembly is pressed down by the air cylinder 140, the carriage 180 is withdrawn, the appearance of the assembly is checked, and the next procedure is carried out. The foot pad 290 is arranged below the bottom plate 110, so that the bottom plate 110 is separated from the ground, the press-fitting device 100 is prevented from being affected by water accumulated on the ground, and the carrying is convenient.

As another embodiment of the present application, a photoelectric sensing press-fitting device 100 is further disclosed, which includes a bottom plate 110, a positioning plate 120, an upper die 130, an air cylinder 140, an air cylinder fixing structure 150, a slide rail 160, a carriage 180, a slider 170, a photoelectric sensing switch 190, and a positioning pin 210, wherein the positioning plate 120 is disposed on the bottom plate 110 and is used for fixing a bottom cover assembly 300; the upper mold 130 is disposed above the positioning plate 120 and is used for press-fitting the bottom cover assembly 300 on the positioning plate 120; the air cylinder 140 is connected to the upper mold 130 and controls the upper mold 130 to move in a vertical direction; the cylinder fixing structure 150 is disposed on the bottom plate 110 and fixedly connected to the cylinder 140; the slide rail 160 is disposed on the bottom plate 110, and the opening faces the positioning plate 120; the carriage 180 is arranged below the positioning plate 120 and connected with the positioning plate 120; the slide block 170 is arranged below the carriage 180, one end of the slide block is connected with the carriage 180, and the other end of the slide block is connected with the slide rail 160 in a sliding manner; the photoelectric sensing switch 190 is arranged on the bottom plate 110 and corresponds to the carriage 180; the positioning pin 210 is connected with the carriage 180 and is arranged on one side of the carriage 180 facing the photoelectric sensing switch 190; the photoelectric sensing switch 190 corresponds to the positioning pin 210 and is used for sensing the position of the positioning pin 210; the photoelectric sensing switch 190 is electrically connected with the cylinder 140, and when the photoelectric sensing switch 190 senses the positioning pin 210, the upper die 130 is controlled to be pressed down, so that the press-fitting of the bottom cap assembly 300 is completed.

The foregoing is a more detailed description of the present application in connection with specific alternative embodiments, and the present application is not intended to be limited to the specific embodiments shown. For those skilled in the art to which the present application pertains, several simple deductions or substitutions may be made without departing from the concept of the present application, and all should be considered as belonging to the protection scope of the present application.

Claims (9)

1. A press-fitting device for a bottom cap assembly, comprising:

a base plate;

the positioning plate is arranged on the bottom plate and used for fixing the bottom cover assembly;

the upper die is arranged above the positioning plate and used for press-fitting the bottom cover assembly on the positioning plate;

the cylinder is connected with the upper die and controls the upper die to move in the vertical direction;

the cylinder fixing structure is arranged on the bottom plate and is fixedly connected with the cylinder; and

the detection device is arranged on the bottom plate and used for detecting the position of the positioning plate;

when the detection device detects that the positioning plate is positioned under the upper die, the air cylinder controls the upper die to press down to complete press mounting of the bottom cap assembly.

2. A press-fitting apparatus for a bottom lid assembly as set forth in claim 1, wherein said bottom lid has a slide rail with an opening facing said positioning plate; a carriage and a sliding block are arranged below the positioning block, one side of the carriage is connected with the positioning plate, the other side of the carriage is connected with the sliding block, the sliding block is connected with the sliding rail in a sliding manner, and the positioning plate slides in the sliding rail through the sliding block;

the detection device comprises a photoelectric sensing switch and a positioning pin, and the photoelectric sensing switch is arranged on the bottom plate and corresponds to the carriage; the positioning pin is connected with the carriage and is arranged on one side of the carriage, which faces the photoelectric sensing switch; the photoelectric induction switch corresponds to the positioning pin and is used for inducing the position of the positioning pin;

the photoelectric sensing switch is in electrical signal connection with the air cylinder, and after the photoelectric sensing switch senses the positioning pin, the upper die is controlled to be pressed down, and press mounting of the bottom cover assembly is completed.

3. A press-fitting device for a bottom cover assembly as claimed in claim 2, wherein said press-fitting device comprises a retainer plate fixed to said bottom plate and engaging with one end of said slide rail for retaining said carriage;

the photoelectric sensing switch is connected with the limiting plate.

4. A press-fitting apparatus for a bottom lid assembly as set forth in claim 2, wherein said press-fitting apparatus includes a power unit, said power unit being disposed on said bottom board and connected to said carriage for controlling said carriage to slide in said slide rail.

5. A press-fitting apparatus for a bottom lid assembly as set forth in claim 2, wherein said carriage is provided with a push-pull rod, said push-pull rod being disposed on a side of said carriage remote from said photoelectric sensing switch.

6. A press-fitting apparatus for a bottom cap assembly as set forth in claim 5, including a baffle plate connected to said cylinder fixture and disposed above said draw-back bar, said baffle plate being disposed perpendicular to said carriage.

7. A press-fitting apparatus for a bottom cap assembly as set forth in claim 6 wherein said baffle is constructed of a transparent material.

8. A press-fitting apparatus for a bottom cover assembly as set forth in claim 2, wherein said slide rails are two in number and are respectively provided on both sides of said carriage; the number and the position of the sliding blocks correspond to those of the sliding rails.

9. A photoelectric sensing press-fitting device is characterized by comprising.

A base plate;

the positioning plate is arranged on the bottom plate and used for fixing the bottom cover assembly;

the upper die is arranged above the positioning plate and used for press-fitting the bottom cover assembly on the positioning plate;

the cylinder is connected with the upper die and controls the upper die to move in the vertical direction;

the cylinder fixing structure is arranged on the bottom plate and is fixedly connected with the cylinder;

the sliding rail is arranged on the bottom plate, and an opening of the sliding rail faces the positioning plate;

the carriage is arranged below the positioning plate and is connected with the positioning plate;

the sliding block is arranged below the carriage, one end of the sliding block is connected with the carriage, and the other end of the sliding block is connected with the sliding rail in a sliding manner;

the photoelectric sensing switch is arranged on the bottom plate and corresponds to the carriage; and

the positioning pin is connected with the carriage and is arranged on one side of the carriage, which faces the photoelectric sensing switch;

the photoelectric sensing switch corresponds to the positioning pin and is used for sensing the position of the positioning pin; the photoelectric sensing switch is in electrical signal connection with the air cylinder, and after the photoelectric sensing switch senses the positioning pin, the upper die is controlled to be pressed down, and press mounting of the bottom cover assembly is completed.

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