CN216732977U - A unloading mechanism for nipple adsorbs drawing of patterns - Google Patents

Abstract

The utility model discloses an unloading mechanism for nipple adsorbs drawing of patterns, it includes: unloading subassembly and absorption shedder, the unloading subassembly includes X axle transmission subassembly, Y axle transmission subassembly and Z axle transmission subassembly, Y axle transmission subassembly sets up on X axle transmission subassembly, Z axle transmission subassembly sets up on Y axle transmission subassembly, adsorb shedder sets up on Z axle transmission subassembly, the middle part that adsorbs shedder is provided with the chamber that holds that is used for holding the nipple, it is provided with the absorption through-hole that is used for adsorbing the nipple to hold on the inner wall in chamber, the upper end that adsorbs shedder is provided with the air cock, the one end and the absorption through-hole of air cock are linked together, the other end of air cock is linked together through trachea and outside vacuum apparatus, it removes to drive through unloading subassembly and adsorb shedder, thereby adsorb the drawing of patterns with the nipple on the mould. The utility model discloses when not injuring the nipple, can demould the nipple on the mould fast, improve the nipple yields, the practicality is strong.

Description

A unloading mechanism for nipple adsorbs drawing of patterns

Technical Field

The utility model relates to a drawing of patterns unloading technical field, in particular to an unloading mechanism that is used for nipple to adsorb drawing of patterns.

Background

In recent years, the jig is a special tool for clamping, placing and fixing products so as to facilitate stable processing of the products, improve the processing quality of the products and improve the production efficiency in the process of mass production and manufacturing of the products. The balance tool is one of the more common tools, the balance tool is often used for preparing and fixing the material in advance, and after the processing tool finishes processing, the balance tool directly settles the material in the processing tool, so that the next round of processing can be conveniently carried out at once.

Meanwhile, the number of the existing educational toys is more and more, many educational toys are made of silica gel materials, the educational toys are often required to be prepared by a processing method of hot-press molding of the silica gel materials through a hot-press jig, the hot-press jig can only hot-press one silica gel product at a time, then the finished product is taken out, and then the product is re-loaded, so that the efficiency of the processing method is too low, the waste of loading time is caused, and the production cost is increased.

Therefore, a blanking mechanism for sucking and demoulding the nipple is urgently needed in the market to solve the problem.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to the disappearance that prior art exists, provide an unloading mechanism for nipple adsorbs the drawing of patterns, when not injuring the nipple, can demould the nipple on the mould fast, improved the nipple yields, the practicality is strong.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a unloading mechanism for nipple adsorbs drawing of patterns, it includes: unloading subassembly and absorption shedder, the unloading subassembly includes X axle conveying subassembly, Y axle conveying subassembly and Z axle conveying subassembly, Y axle conveying subassembly sets up on X axle conveying subassembly, Z axle conveying subassembly sets up on Y axle conveying subassembly, it sets up on Z axle conveying subassembly to adsorb shedder, the middle part that adsorbs shedder is provided with the chamber that holds that is used for holding the nipple, be provided with the absorption through-hole that is used for adsorbing the nipple on the inner wall that holds the chamber, the upper end that adsorbs shedder is provided with the air cock, the one end and the absorption through-hole of air cock are linked together, the other end of air cock is linked together through trachea and outside vacuum apparatus, drives through the unloading subassembly and adsorbs shedder and remove to adsorb the drawing of patterns with the nipple on the mould.

As a further elaboration of the above technical solution:

in the above technical scheme, X axle conveying subassembly includes X axle fixing base, X axle slide rail, X axle motor, X axle lead screw, X axle screw nut and X axle slide, the X axle fixing base is fixed in on the outside workstation, X axle slide rail is fixed in on the X axle fixing base with X axle motor, the one end of X axle lead screw is connected with X axle motor through the shaft coupling, the other end of X axle lead screw sets up on the rotation seat of X axle fixing base, X axle screw nut cover is located on the X axle lead screw, X axle slide rail is located to X axle slide rail and is connected with X axle screw nut to X axle slide rail cover, Y axle conveying subassembly sets up on X axle slide, the X axle motor drives X axle slide rail through X axle lead screw and X axle screw nut and slides at X axle slide rail, and then drives Y axle conveying subassembly and remove along X axle direction.

In the technical scheme, Y axle conveying assembly includes Y axle fixing base, Y axle slide rail, Y axle motor, Y axle lead screw, Y axle screw nut and Y axle slide, the Y axle fixing base is fixed in on the X axle slide, Y axle slide rail is fixed in on the Y axle fixing base with Y axle motor, the one end of Y axle lead screw is connected with Y axle motor through the shaft coupling, the other end of Y axle lead screw sets up on the rotation seat of Y axle fixing base, Y axle screw nut cover is located on the Y axle lead screw, Y axle slide rail is located to Y axle slide rail and is connected with Y axle screw nut to Y axle slide rail cover, Z axle conveying assembly sets up on Y axle slide, Y axle motor drives Y axle slide rail through Y axle lead screw and Y axle screw nut and slides at Y axle slide rail, and then drives Z axle conveying assembly and removes along Y axle direction.

In the technical scheme, Z axle conveying subassembly includes Z axle fixing base, Z axle slide rail, Z axle motor, Z axle lead screw, Z axle screw nut and Z axle slide, the Z axle fixing base is fixed in on the Y axle slide, the Z axle slide rail is fixed in on the Z axle fixing base with the Z axle motor, the one end of Z axle lead screw is connected with the Z axle motor through the shaft coupling, the other end of Z axle lead screw sets up on the rotation seat of Z axle fixing base, Z axle screw nut cover is located on the Z axle lead screw, Y axle slide rail and be connected with Z axle screw nut are located to the Z axle slide sleeve, adsorb shedder and set up on the Z axle slide, the Z axle motor drives the Z axle slide at the Z axle slide rail through Z axle lead screw and Z axle screw nut and slides, and then drives and adsorb shedder and remove along Z axle direction.

In the above technical solution, the accommodating cavity is a nipple-shaped structure.

In the above technical scheme, the adsorption through holes include a first adsorption through hole, a second adsorption through hole, a third adsorption through hole, a fourth adsorption through hole and a fifth adsorption through hole, the first adsorption through hole and the second adsorption through hole are located on the same side of the inner wall of the accommodating cavity, the first adsorption through hole is located above the second adsorption through hole, the third adsorption through hole and the fourth adsorption through hole are located on the same side of the inner wall of the accommodating cavity, the third adsorption through hole is located above the fourth adsorption through hole, and the fifth adsorption through hole is arranged on the upper side of the inner wall of the accommodating cavity.

In the above technical solution, the first adsorption through hole and the third adsorption through hole have the same shape, the same size and are oppositely arranged, and the second adsorption through hole and the fourth adsorption through hole have the same shape, the same size and are oppositely arranged.

In the above technical solution, the aperture of the first adsorption through hole is smaller than the aperture of the second adsorption through hole.

Compared with the prior art, the utility model obvious advantage and beneficial effect have, particularly, novel structure, and reasonable design, structural design through adopting absorption shedder replaces original mechanical clamping jaw or artificial drawing of patterns mode, it can be fine to adsorb the through-hole makes nipple and mould produce certain clearance, prevent that nipple and mould from producing the damage because of the friction when the drawing of patterns, the drawing of patterns efficiency of nipple is simultaneously improved, the yields of nipple has also been improved, meanwhile, structural design through adopting the unloading subassembly, specifically be adopting X axle conveying subassembly, the structural design of Y axle conveying subassembly and Z axle conveying subassembly, thereby it adsorbs the nipple on the mould to drive absorption shedder and arrive the assigned position, degree of automation is high, therefore, the clothes hanger is strong in practicability.

To more clearly illustrate the structural features and technical means of the present invention and the specific objects and functions achieved thereby, the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments:

drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a schematic front view of the present invention.

Detailed Description

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like 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, and do not indicate or imply that the indicated position 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 invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; 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 meaning of the above terms in the present invention can be understood as appropriate by those of ordinary skill in the art.

As shown in fig. 1-2, a blanking mechanism for nipple suction demolding comprises: a blanking component 1 and an adsorption demoulding device 2, wherein the blanking component 1 comprises an X-axis conveying component 11, a Y-axis conveying component 12 and a Z-axis conveying component 13, the Y-axis transmission component 12 is arranged on the X-axis transmission component 11, the Z-axis transmission component 13 is arranged on the Y-axis transmission component 12, the adsorption demoulding device 2 is arranged on the Z-axis conveying component 13, the middle part of the adsorption demoulding device 2 is provided with a containing cavity 21 for containing a nipple, the inner wall of the containing cavity 21 is provided with an adsorption through hole 22 for adsorbing a nipple, the upper end of the adsorption demoulding device 2 is provided with an air tap 3, one end of the air tap 3 is communicated with the adsorption through hole 22, the other end of the air tap 3 is communicated with external vacuum equipment through an air pipe, the feeding component 1 drives the adsorption demoulding device 2 to move, so that the nipple is adsorbed and demoulded on the mould.

As a further improvement of the utility model, the X-axis conveying component 11 comprises an X-axis fixing seat, an X-axis slide rail, an X-axis motor, an X-axis lead screw nut and an X-axis slide seat, the X-axis fixed seat is fixed on an external workbench, the X-axis slide rail and the X-axis motor are fixed on the X-axis fixed seat, one end of the X-axis screw rod is connected with the X-axis motor through a coupler, the other end of the X-axis screw rod is arranged on the rotating seat of the X-axis fixing seat, the X-axis screw nut is sleeved on the X-axis screw, the X-axis sliding seat is sleeved on the X-axis sliding rail and is connected with the X-axis screw nut, the Y-axis conveying assembly 12 is arranged on the X-axis sliding seat, and the X-axis motor drives the X-axis sliding seat to slide on the X-axis sliding rail through the X-axis lead screw and the X-axis lead screw nut, so that the Y-axis conveying assembly 12 is driven to move along the X-axis direction.

As a further improvement of the utility model, the Y-axis conveying component 12 comprises a Y-axis fixing seat, a Y-axis slide rail, a Y-axis motor, a Y-axis screw rod nut and a Y-axis slide seat, the Y-axis fixed seat is fixed on the X-axis sliding seat, the Y-axis sliding rail and the Y-axis motor are fixed on the Y-axis fixed seat, one end of the Y-axis screw rod is connected with a Y-axis motor through a coupler, the other end of the Y-axis screw rod is arranged on a rotating seat of the Y-axis fixing seat, the Y-axis screw rod nut is sleeved on the Y-axis screw rod, the Y-axis sliding seat is sleeved on the Y-axis sliding rail and is connected with the Y-axis screw rod nut, z axle transport module 13 sets up on Y axle slide, Y axle motor passes through Y axle lead screw and drives Y axle slide at Y axle slide rail slip with Y axle lead screw nut, and then drives Z axle transport module 13 and removes along the Y axle direction.

As a further improvement of the utility model, the Z-axis conveying component 13 comprises a Z-axis fixing seat, a Z-axis slide rail, a Z-axis motor, a Z-axis screw rod nut and a Z-axis slide seat, the Z-axis fixed seat is fixed on the Y-axis sliding seat, the Z-axis sliding rail and the Z-axis motor are fixed on the Z-axis fixed seat, one end of the Z-axis screw rod is connected with the Z-axis motor through a coupler, the other end of the Z-axis screw rod is arranged on the rotating seat of the Z-axis fixing seat, the Z-axis screw nut is sleeved on the Z-axis screw, the Z-axis sliding seat is sleeved on the Y-axis sliding rail and is connected with the Z-axis screw nut, adsorb shedder 2 and set up on Z axle slide, Z axle motor passes through Z axle lead screw and drives Z axle slide at Z axle slide rail slip with Z axle lead screw nut, and then drives and adsorb shedder 2 and remove along Z axle direction.

As a further improvement of the utility model, the accommodating cavity 21 is of a nipple-shaped structure.

As a further improvement of the present invention, the adsorption through hole 22 includes a first adsorption through hole 221, a second adsorption through hole 222, a third adsorption through hole 223, a fourth adsorption through hole 224 and a fifth adsorption through hole 225, the first adsorption through hole 221 and the second adsorption through hole 222 are located on the same side of the inner wall holding the cavity 21, the first adsorption through hole 221 is located the top of the second adsorption through hole 222, the third adsorption through hole 223 and the fourth adsorption through hole 224 are located on the same side of the inner wall holding the cavity 21, the third adsorption through hole 223 is located on the top of the fourth adsorption through hole 224, the fifth adsorption through hole 225 is disposed on the upper side of the inner wall holding the cavity 21.

As a further improvement of the present invention, the first adsorption through hole 221 and the third adsorption through hole 223 have the same shape, the same size and are disposed relatively, and the second adsorption through hole 222 and the fourth adsorption through hole 224 have the same shape, the same size and are disposed relatively.

As a further improvement of the present invention, the aperture of the first adsorption through hole 221 is smaller than the aperture of the second adsorption through hole 222.

The above is only the preferred embodiment of the present invention, and the present invention is not limited thereto, so any modifications, equivalent replacements, improvements, etc. made by the technology of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims (8)

1. The utility model provides a unloading mechanism for nipple adsorbs drawing of patterns which characterized in that, it includes: unloading subassembly and absorption shedder, the unloading subassembly includes X axle conveying subassembly, Y axle conveying subassembly and Z axle conveying subassembly, Y axle conveying subassembly sets up on X axle conveying subassembly, Z axle conveying subassembly sets up on Y axle conveying subassembly, it sets up on Z axle conveying subassembly to adsorb shedder, the middle part that adsorbs shedder is provided with the chamber that holds that is used for holding the nipple, be provided with the absorption through-hole that is used for adsorbing the nipple on the inner wall that holds the chamber, the upper end that adsorbs shedder is provided with the air cock, the one end and the absorption through-hole of air cock are linked together, the other end of air cock is linked together through trachea and outside vacuum apparatus, drives through the unloading subassembly and adsorbs shedder and remove to adsorb the drawing of patterns with the nipple on the mould.

2. The blanking mechanism for nipple absorption demoulding as claimed in claim 1, the X-axis transmission component comprises an X-axis fixed seat, an X-axis slide rail, an X-axis motor, an X-axis screw rod nut and an X-axis slide seat, the X-axis fixed seat is fixed on an external workbench, the X-axis slide rail and the X-axis motor are fixed on the X-axis fixed seat, one end of the X-axis screw rod is connected with the X-axis motor through a coupler, the other end of the X-axis screw rod is arranged on the rotating seat of the X-axis fixing seat, the X-axis screw nut is sleeved on the X-axis screw, the X-axis sliding seat is sleeved on the X-axis sliding rail and is connected with the X-axis screw nut, the Y-axis conveying assembly is arranged on the X-axis sliding seat, the X-axis motor drives the X-axis sliding seat to slide on the X-axis sliding rail through the X-axis lead screw and the X-axis lead screw nut, and then the Y-axis conveying assembly is driven to move along the X-axis direction.

3. The blanking mechanism for nipple adsorption demoulding as claimed in claim 2, the Y-axis conveying assembly comprises a Y-axis fixing seat, a Y-axis sliding rail, a Y-axis motor, a Y-axis screw rod nut and a Y-axis sliding seat, the Y-axis fixed seat is fixed on the X-axis sliding seat, the Y-axis sliding rail and the Y-axis motor are fixed on the Y-axis fixed seat, one end of the Y-axis screw rod is connected with a Y-axis motor through a coupler, the other end of the Y-axis screw rod is arranged on a rotating seat of the Y-axis fixing seat, the Y-axis screw nut is sleeved on the Y-axis screw, the Y-axis slide seat is sleeved on the Y-axis slide rail and is connected with the Y-axis screw nut, z axle transport module sets up on Y axle slide, Y axle motor passes through Y axle lead screw and drives Y axle slide at Y axle slide rail slip with Y axle lead screw nut, and then drives Z axle transport module and removes along the Y axle direction.

4. The blanking mechanism for nipple absorption demoulding as claimed in claim 3, the Z-axis conveying component comprises a Z-axis fixing seat, a Z-axis sliding rail, a Z-axis motor, a Z-axis screw rod nut and a Z-axis sliding seat, the Z-axis fixed seat is fixed on the Y-axis sliding seat, the Z-axis sliding rail and the Z-axis motor are fixed on the Z-axis fixed seat, one end of the Z-axis screw rod is connected with the Z-axis motor through a coupler, the other end of the Z-axis screw rod is arranged on the rotating seat of the Z-axis fixing seat, the Z-axis screw nut is sleeved on the Z-axis screw, the Z-axis sliding seat is sleeved on the Y-axis sliding rail and is connected with the Z-axis screw nut, adsorb shedder and set up on Z axle slide, Z axle motor passes through Z axle lead screw and drives Z axle slide at Z axle slide rail slip with Z axle lead screw nut, and then drives and adsorb shedder and remove along Z axle direction.

5. The blanking mechanism for nipple suction demoulding as claimed in claim 1, wherein the accommodating cavity is in a nipple-like structure.

6. The blanking mechanism for nipple adsorption demoulding as claimed in claim 1, wherein said adsorption through holes include a first adsorption through hole, a second adsorption through hole, a third adsorption through hole, a fourth adsorption through hole and a fifth adsorption through hole, said first adsorption through hole and said second adsorption through hole are located on the same side of the inner wall of the containing cavity, said first adsorption through hole is located above said second adsorption through hole, said third adsorption through hole and said fourth adsorption through hole are located on the same side of the inner wall of the containing cavity, said third adsorption through hole is located above said fourth adsorption through hole, said fifth adsorption through hole is located on the upper side of the inner wall of the containing cavity.

7. The blanking mechanism for nipple adsorption demoulding as claimed in claim 6, wherein said first adsorption through hole and third adsorption through hole are identical in shape, equal in size and opposite to each other, and said second adsorption through hole and fourth adsorption through hole are identical in shape, equal in size and opposite to each other.

8. The blanking mechanism for nipple adsorption demoulding as claimed in claim 7, wherein the aperture of the first adsorption through hole is smaller than that of the second adsorption through hole.

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