CN215100385U - Material collecting device of part - Google Patents

Abstract

The application is a part receiving device, which comprises a base used for overall support and processing equipment arranged on the base and used for processing parts, wherein a support frame used for supporting the parts to convey is fixed on the outer side of the processing equipment; a conveyor for conveying and integrally arranging the parts is arranged on the support frame; the part outlet in the middle of the processing equipment is provided with a matrix-shaped material distribution part; one end of the conveyor is arranged below the part outlet, the other end of the conveyor extends downwards to form a material collecting groove, the part outlet in the middle of the processing equipment is provided with a matrix-shaped material distributing part in an arrangement mode, the matrix-shaped material distributing part and the surface of the conveyor or the conveying belt of the plane belt structure are utilized to separate or obstruct the side parts of the parts, the top parts of the parts are layered or quantified, the parts and other materials can be accurately arranged, the parts can be quantitatively collected, quantitative transfer processing in follow-up intellectualization is facilitated, and finally high-precision quality part processing is achieved.

Description

Material collecting device of part

Technical Field

The application relates to the processing field of standard parts, in particular to a material receiving device for parts.

Background

A modular part generally refers to a part that has been fully standardized in terms of structure, size, drawing, labeling, etc.

In the processing of the standard parts, different surface treatments are required to be carried out according to the selection of customers so as to meet the requirements of higher tables of different hardness or strength and the like, and the customer often has higher requirements on index parameters in the application under special conditions so as to meet the parameters with higher precision, so that the standard parts need to be subjected to deep processing treatment so as to meet the requirements of high precision and high quality.

In the specific application, the processing of parts needs to be transferred, how to accurately arrange materials, and quantitative collection is carried out, so that the subsequent intelligent quantitative transfer is facilitated.

Disclosure of Invention

The purpose of the application is: accurately arranging the materials, and quantitatively collecting the materials so as to facilitate the subsequent intelligent quantitative transfer.

The purpose of the application is achieved through the following technical scheme, the part collecting device comprises a base used for overall support and processing equipment arranged on the base and used for processing the parts, wherein the part collecting device comprises a first supporting plate, a second supporting plate and a first supporting plate, wherein the first supporting plate is connected with the second supporting plate, the second supporting plate is connected with the first supporting plate through a second supporting plate, the second supporting plate is connected with the second supporting plate through a second supporting plate, and the first supporting plate is connected with the second supporting plate through a second connecting plate, and the second supporting plate is connected with the second supporting plate through a second connecting plate

A support frame for supporting the parts to be conveyed is fixed on the outer side of the processing equipment;

a conveyor for conveying and integrally arranging the parts is arranged on the support frame;

the part outlet in the middle of the processing equipment is provided with a matrix-shaped material distribution part;

one end of the conveyor is arranged below the part outlet, and the other end of the conveyor extends downwards to form a material collecting groove.

Preferably, the first and second liquid crystal materials are,

the material collecting groove is similar to an inverted frustum as a whole, the top of the material collecting groove is arranged at the lower side of the conveyor, the bottom of the material collecting groove extends downwards and is provided with a material collecting hopper.

Preferably, the first and second liquid crystal materials are,

a conveying vehicle and a track are fixed on the base,

the delivery wagon is fixed on the track and is arranged at the bottom of the receiving hopper,

the upper part of the material receiving hopper is opened under the material collecting groove.

Preferably, the first and second liquid crystal materials are,

the material distributing part is provided with a material distributing shaft fixed at the outlet of the part;

flaky material distributing parts are sequentially arranged on the material distributing shaft in a matrix shape.

Preferably, the first and second liquid crystal materials are,

the material distributing part is provided with a material distributing part sleeve head for sleeving the material distributing shaft;

a material distributing part deflector rod used for distributing parts extends downwards from the material distributing part sleeve head.

Preferably, the first and second liquid crystal materials are,

the bottom of the material distributing part is also provided with a material distributing part guide opening for guiding the part;

the section of the guide opening of the material distributing part is arc-shaped along the conveying direction A of the part.

Preferably, the first and second liquid crystal materials are,

the material collecting groove is of an inverted conical structure and is provided with a middle material plate at the middle position;

a first side material plate and a second side material plate are respectively arranged along the bottoms of the two sides of the middle material plate;

and the first side material plate and the second side material plate can be transversely B-adjusted along the bottom of the middle material plate.

Preferably, the first and second liquid crystal materials are,

a first side baffle for stopping the material is arranged at the left edge of the first side material plate;

and a second side baffle plate for stopping the material is arranged at the edge of the right side of the second side material plate.

Preferably, the first and second liquid crystal materials are,

a transverse first side positioning shaft is fixed to the outer side of the first side baffle;

a transverse second side positioning shaft is fixed to the outward side of the second side baffle;

the first side positioning shaft is inserted into the first side positioning sleeve on the first side of the support frame;

the second side positioning shaft is inserted into the second side positioning sleeve on the second side of the supporting frame.

Compared with the prior art, the application has the following obvious advantages and effects:

1. the matrix-shaped material distributing part is arranged at the part outlet in the middle of the processing equipment, the matrix-shaped material distributing part and the surface of the conveyor or the conveying belt with the plane belt structure are utilized to separate or obstruct the side parts of the parts, and the top part of the parts is layered or quantified, so that the parts can be accurately arranged, the parts can be quantitatively collected, quantitative transfer processing in follow-up intellectualization is facilitated, and the high-precision quality part processing is finally realized.

Drawings

Fig. 1 is a diagram of the overall structural arrangement of the present application.

Fig. 2 is a schematic structural view of the distributing portion in the present application.

Fig. 3 is a side view structural diagram of fig. 1 of the present application.

Fig. 4 is a schematic diagram of the structure of the trough in the present application.

List of parts in this application

Detailed Description

Specific embodiments thereof are described below in conjunction with the following description and the accompanying drawings to teach those skilled in the art how to make and use the best mode of the present application. For the purpose of teaching application principles, the following conventional aspects have been simplified or omitted. Those skilled in the art will appreciate variations from these embodiments that fall within the scope of the application. Those skilled in the art will appreciate that the features described below can be combined in various ways to form multiple variations of the present application. In the present application, the terms "upper", "lower", "left", "right", "middle" and "one" are used for clarity of description, and are not used to limit the scope of the invention, and the relative relationship between the terms and the corresponding terms may be changed or adjusted without substantial technical change. Thus, the present application is not limited to the specific embodiments described below, but only by the claims and their equivalents.

Fig. 1 to 4 show a specific embodiment of a material receiving device for parts of the present application.

A part receiving device comprises a base 1 for overall support and processing equipment 2 arranged on the base 1 and used for processing parts s, wherein a support frame 3 for supporting the parts s to convey is fixed on the outer side of the processing equipment 2; a conveyor 4 for conveying and integrally arranging the parts s is arranged on the support frame 3; the middle part of the processing equipment 2 is provided with a part outlet 21 in which material distributing parts 5 in a matrix shape are arranged; one end of the conveyor 4 is arranged below the part outlet 21, the other end of the conveyor is downwards extended to form a material collecting groove 6, the part outlet 21 in the middle of the processing equipment 2 is provided with the matrix-shaped material distributing part 5, the matrix-shaped material distributing part 5 and the surface of the conveyor 4 or the conveying belt of the plane belt structure are utilized to separate or obstruct the parts at the side part, the parts are layered or quantified at the top, not only can the materials such as the parts be accurately arranged, but also the parts can be quantitatively collected, so that the subsequent intelligent medium-quantitative transfer processing is facilitated, and the high-precision quality part processing is finally realized.

As shown in fig. 1 to 4, in the present embodiment,

a part receiving device comprises a base 1 for overall support, processing equipment 2, a support frame 3, a conveyor 4, a material distributing part 5, a material collecting groove 6 and other parts.

The base 1 may be a floor or other flat surface for support. Wherein, the processing equipment 2 is uniformly installed along the substrate 1, therefore, the processing equipment 2 for processing the parts s is arranged on the substrate 1, wherein, the substrate 1 is also provided with a corresponding support frame 3, and the support frame 3 for supporting and conveying the parts s is fixed along the outer side of the processing equipment 2; through the cuboid frame structure of the supporting frame 3, the uniform installation of the processing equipment 2 and the installation of the corresponding conveyer belt structure can be realized, and particularly, a conveyer 4 for conveying and integrally arranging the parts s is arranged along the supporting frame 3; the belt conveyance of the planar structure is realized by the conveyor belt in the conveyor 4, and thus the dividing portion 5 can be arranged along the part outlet 21 in the middle of the processing apparatus 2.

The specific material distributing part 5 forms an opening with a rectangular structure or a fence-type structure along the upper part of the conveying belt, so that the parts s are separated, the feeding speed and the discharging speed are controlled, and quantitative materials are conveyed out gradually.

The arrangement of the parts is adjusted along the plane of the conveying belt through the matrix of the material distributing part 5, so that the parts s with quantitative thickness or quantitative number of the parts are gradually conveyed out, and the quantitative calculation of the parts s in subsequent intelligent processing is improved.

As shown in fig. 1, the conveyor 4 is provided at one end, i.e., a rear end position, below the parts outlet 21, so that the parts s are sufficiently received, wherein the conveyor belt in the conveyor 4 may extend into the processing apparatus 2. Carry out the part gradually by among the equipment of hot working by the conveyer belt, and then carry to the front end position gradually by the rear end position, and then carry out to by the transport part s of rear end position and downward extension, consequently, set up the corresponding collection mechanism of installation along the front end of conveyer 4 in fig. 1, corresponding groove 6 that gathers materials promptly, carry out the material through groove 6 that gathers materials.

Specifically, as shown in fig. 1, in the embodiment of the present application,

in order to ensure the centralized collection of the parts s, so as to facilitate the subsequent intelligent processing or detection;

therefore, a collecting mechanism, such as a bucket-shaped structure, is arranged along the front end of the conveyor 4, and specifically, the collecting trough 6 can also be designed to be integrally like an inverted frustum or a v-shaped bucket-shaped structure, wherein the top of the collecting trough 6 is arranged at the lower side of the conveyor 4, the top of the collecting trough is an open structure, the collecting trough extends downwards and narrows along the bottom of the collecting trough 6, the concentrated collection of materials is realized, a corresponding material receiving structure is arranged along the bottom position, and therefore, the bottom of the collecting trough 6 is provided with a material receiving hopper 7.

The specific receiving hopper 7 can be a square hopper or a quadrangular frustum pyramid type hopper.

It should be noted that, as shown in fig. 1, in the embodiment of the present application,

in order to assist the transportation of the corresponding parts s after concentration, an intelligent form can be adopted, the conveying vehicles 8 and the rails 9 are fixed on the substrate 1, the corresponding conveying vehicles 8 are arranged at the bottom, the parts s are conveyed through the conveying vehicles 8, the number of the specific rails 9 is two, and the conveying directions of the parts s can be arranged according to the paths of the rails.

Wherein, for realizing higher transport effect, the dolly of not only carrying can be electronic rail trolley, realizes the transport of part s according to orbital circular telegram circumstances, consequently, transport vechicle 8 is fixed in on the track 9, locates the receiving hopper 7 bottom through transport vechicle 8, and then guarantees the support and the conveying of receiving hopper 7 bottom.

In order to guarantee further access material, consequently, open under collecting trough 6 along the upper portion of receiving hopper 7, guarantee that collecting trough 6 is abundant to the transport of material, avoid the part to scatter.

It should be noted that, as shown in fig. 2 and 3, in the embodiment of the present application,

in order to ensure the corresponding structural design, in a specific structure, the material distributing part 5 is provided with a material distributing shaft 51 fixed at the part outlet 21; utilize the branch material axle 51 fixed mounting in part export 21 top, through the wallboard structure of part export 21 top and lateral wall position, and then separate the part s of part export 21 department, separate or the layering or separate its thickness to part s along the surface of conveyer belt, and then realize the control to part quantity or sequence.

Therefore, a plurality of sheet-shaped material distributing parts 52 are sequentially arranged on the material distributing shaft 51 in a matrix shape, the specific material distributing parts 52 can be block-shaped or shaft-shaped, corresponding separating structures are arranged in specific separation, the material distributing parts 52 are arranged and attached to form baffle-type structures, and can be arranged into spaced barrier-type structures with gaps, and then the separating parts s are conveyed out in a strip-shaped structure or in a layered manner, or massive parts are separated one by one through separation.

It should be noted that, as shown in fig. 2 and 3, in the embodiment of the present application,

to ensure that the height position of the distributing member 52 can be adjusted, and therefore, the position where the distributing shaft 51 is combined with the distributing member 52, a corresponding bolt 53 can be arranged to assist the positioning of the distributing member socket 521.

The distributing part 52 is provided with a distributing part sleeve head 521 for sleeving the distributing shaft 51, the distributing part sleeve head 521 and the distributing shaft 51 are combined and positioned through the annular structure of the distributing part sleeve head 521, and the sleeve head 521, the distributing shaft 51 and the bolt 53 are combined and positioned through the rotation of the distributing shaft 51 along the distributing part sleeve head 521.

In the specific separation and separation, a corresponding rod or shaft structure is arranged to separate the part s, and then a material separating deflector rod 522 for distributing the part s extends downwards along the material separating sleeve head 521, wherein the material separating deflector rod 522 can adjust different positions and different inclination angles, so that the separation adjustment of the height or the thickness of the part is realized.

Of course, by positioning the sleeve 521, the distributing shaft 51 and the bolt 53 after combination, different gaps between the distributing shafts 51 may be provided, and the positions of the parts s may be separated.

It is further noted that, as shown in fig. 1, in the present embodiment,

in order to sufficiently assist the separation of the respective parts s, and to avoid scraping of the parts s,

the bottom of the distributing part 52 is also provided with a distributing part guide opening 523 used for guiding the part s, and the part s is layered or thickly divided through the structure of the distributing part guide opening 523, wherein the distributing part guide opening 523 and the distributing part 52 are of shaft body structures and are made of soft materials, namely materials with hardness lower than that of the part s, such as copper materials, plastics or rubber and other soft materials, so that the supporting and separating separation strength is ensured, the layering and carding separation of the part s are ensured, and meanwhile, the friction of the part s to the part is avoided.

Wherein, guide the mouth 523 and guide the part for the branch material piece, can use convex spigot surface, also can use inclined spigot surface, also can use planar spigot surface, and the specific cross-section that sets up branch material piece spigot 523 is convex, and then carries out the guide of separation nature along the direction of delivery A of part s, realizes that part s is by the carding under irregular to regular state, improves the convenience of follow-up receipts material.

It should be noted that, as shown in fig. 4, in the embodiment of the present application,

in order to assist the corresponding parts s to receive materials,

therefore, the material collecting groove 6 is arranged to be of an inverted conical structure, material collection is carried out by utilizing a centralized structure, wherein the material collecting groove 6 is used for handling conveyer belts with different widths and collecting parts s with different weights, the material collecting groove 6 has width adjustability, and a block-shaped middle material plate 61 is fixed in the middle of the material collecting groove 6; flitch 61 both sides are equipped with corresponding curb plate in the middle of along isosceles trapezoid structure, through the laminating in flitch 61's in the middle of the side bottom surface, and then realize horizontal direction about promptly or width direction's adjustment and flexible control.

Wherein, when part s is great, can set up narrow groove 6 that gathers materials to improve the receipts material of middle flitch 61 to part s in the groove 6 that gathers materials, when part s is less of course, can suitably improve the broad width on part s and the conveyer belt, and then adapt to the great area of part s and lay and carry out the hot working processing on the conveyer belt, guarantee higher thermal diffusivity.

In the auxiliary structure, the positions of the corresponding parts s along the two sides can also be narrowed to be rolled in the hopper, so that the first side material plate 62 and the second side material plate 63 are respectively arranged along the bottoms of the two sides of the middle material plate 61; the two side plates 62, 63 are symmetrically arranged and adjusted and fixed in the transverse direction.

Designing: first side flitch 62, second side flitch 63 all can carry out horizontal B along middle flitch 61 bottom and adjust to middle flitch 61 bottom is the sliding space, carries out horizontal adjustment to first side flitch 62, second side flitch 63 along left and right sides.

It should also be noted that, as shown in fig. 4, in the present embodiment,

wherein, in order to fully avoid the collecting performance of the parts s in the rolling-off process, vertical baffles are arranged along the side parts. Be equipped with the first side shield 621 that is used for keeping off the material along first side flitch 62 left side edge promptly, and then be equipped with the second side shield 631 that is used for keeping off the material along second side flitch 63 right side edge, form the structure that wholly combines, guarantee to narrow and receive the material nature.

It should be further noted that, as shown in fig. 4, in the embodiment of the present application,

in fixed structure, improve the stability of corresponding regulation, not only fix along the curb plate, also fix along the position of curb plate and baffle handing-over, not shown in specific drawing 4:

wherein, a transverse first side positioning shaft 64 is fixed on the outer side of the first side baffle 621; a transverse second side positioning shaft 65 is fixed to the outer side of the second side baffle 631; the positioning shafts on the left and right sides provide support for the plate bodies on the two sides, wherein the upper surfaces of the plate bodies, namely the dotted lines, are attached to the bottom surface of the middle material plate 61.

In order to assist the corresponding positioning shafts 64 and 65 in horizontal positioning of the left side and the right side, inserting fixing structures are arranged along the left side and the right side of the support, sleeves are arranged, and vertical bolts inserted in the sleeves are used for stable positioning, so that in a specific scheme, the first side positioning shaft 64 is inserted into the first side positioning sleeve 31 on the first side of the support frame 3; the second side positioning shaft 65 is inserted into the second side positioning sleeve 32 on the second side of the supporting frame 3.

Since any modifications, equivalents, improvements, etc. made within the spirit and principles of the application may readily occur to those skilled in the art, it is intended to be included within the scope of the claims of this application.

Claims (9)

1. The utility model provides a material collecting device of part, is including being used for the base (1) that the totality supported to and locate on base (1) and be used for processing equipment (2) of part(s), its characterized in that: the above-mentioned

A support frame (3) for supporting the part(s) to be conveyed is fixed on the outer side of the processing equipment (2);

a conveyor (4) for conveying and integrally arranging the parts(s) is arranged on the support frame (3);

the middle part of the processing equipment (2) is provided with a part outlet (21) in which material distribution parts (5) in a matrix shape are arranged;

one end of the conveyor (4) is arranged below the part outlet (21), and the other end of the conveyor extends downwards to form a material collecting groove (6).

2. The receiving device for parts of claim 1, wherein: the above-mentioned

The material collecting groove (6) is similar to an inverted frustum as a whole, the top of the material collecting groove is arranged at the lower side of the conveyor (4), the bottom of the material collecting groove extends downwards, and a material collecting hopper (7) is arranged.

3. The receiving device for parts of claim 2, wherein: the above-mentioned

A conveying vehicle (8) and a track (9) are fixed on the base (1),

the conveying vehicle (8) is fixed on the track (9), the conveying vehicle (8) is arranged at the bottom of the material receiving hopper (7),

the upper part of the material receiving hopper (7) is opened under the material collecting groove (6).

4. The receiving device for parts of claim 1, wherein: the above-mentioned

The material distributing part (5) is provided with a material distributing shaft (51) fixed at the part outlet (21);

flaky distributing parts (52) are sequentially arranged on the distributing shaft (51) in a matrix shape.

5. The receiving device for parts of claim 4, wherein: the above-mentioned

The distributing part (52) is provided with a distributing part sleeve head (521) for sleeving the distributing shaft (51);

a distributing part deflector rod (522) used for distributing the parts(s) extends downwards from the distributing part sleeve head (521).

6. The receiving device for parts of claim 5, wherein: the above-mentioned

The bottom of the distributing part (52) is also provided with a distributing part guide opening (523) for guiding the part(s);

the section of the guide opening (523) of the material distributing part is in a circular arc shape along the conveying direction (A) of the part.

7. The receiving device for parts of claim 2, wherein: the material collecting groove (6) is of an inverted conical structure and is provided with a middle material plate (61) at the middle position;

a first side material plate (62) and a second side material plate (63) are respectively arranged along the bottoms of the two sides of the middle material plate (61);

the first side material plate (62) and the second side material plate (63) can be adjusted transversely (B) along the bottom of the middle material plate (61).

8. The receiving device for parts of claim 7, wherein: the above-mentioned

A first side baffle (621) for stopping the material is arranged at the left edge of the first side material plate (62);

and a second side baffle (631) for stopping the material is arranged at the right side edge of the second side material plate (63).

9. The receiving device for parts of claim 8, wherein: the above-mentioned

A transverse first side positioning shaft (64) is fixed on the outer side of the first side baffle plate (621);

a transverse second side positioning shaft (65) is fixed to the outer side of the second side baffle (631);

the first side positioning shaft (64) is inserted into a first side positioning sleeve (31) on the first side of the support frame (3);

the second side positioning shaft (65) is inserted with a second side positioning sleeve (32) on the second side of the support frame (3).

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