CN218930644U

CN218930644U - Folding auxiliary feeding device

Info

Publication number: CN218930644U
Application number: CN202223470296.2U
Authority: CN
Inventors: 曹学士; 甘正华
Original assignee: Wuhan Yili Electronics Technologies Co ltd
Current assignee: Wuhan Yili Electronics Technologies Co ltd
Priority date: 2022-12-20
Filing date: 2022-12-20
Publication date: 2023-04-28
Anticipated expiration: 2032-12-20

Abstract

The utility model discloses a folding auxiliary feeding device, which relates to the field of feeding materials and comprises a supporting base station and an underframe; the support base comprises a first substrate and second substrates connected to the left side and the right side of the first substrate; the first substrate is fixed on the underframe; the second base plate is hinged with the first base plate and is hinged with the underframe through a supporting mechanism; the supporting mechanism performs an extending action to enable the second substrate to be unfolded relative to the first substrate, and the upper plane of the second substrate is coplanar with the upper plane of the first substrate; the supporting mechanism performs retraction motion to enable the second substrate to be folded relative to the first substrate, and the upper plane of the second substrate is perpendicular to the upper plane of the first substrate. In the scheme, the feeding device is designed into a foldable structure, and after the operation is completed, the feeding device is folded and stored, so that the space of the site is not occupied too much, and the space is saved.

Description

Folding auxiliary feeding device

Technical Field

The utility model relates to the field of feeding of materials, in particular to a folding auxiliary feeding device.

Background

In the process of processing production, a net belt machine is utilized to carry out plate-beating operation on materials; in the traditional processing design, the plate is manually held to realize discharging and receiving; that is, when processing the material, one end of the material is held by the operator, so that the material can smoothly pass through the mesh belt machine, and the material is also received by another operator at the discharging position of the mesh belt machine.

The production mode has obvious hysteresis, so that technicians improve the production mode, namely, the manual participation degree is liberated by designing a feeding device, and the feeding device is generally of a flat plate structure; that is, the front end of the feeding position of the net belt machine is provided with the flat plate structure, and the flat plate-shaped feeding device is utilized to form good support for the materials, so that operators are prevented from feeding the materials for a long time.

The flat-plate-shaped feeding device obviously reduces the labor intensity of operators in the moving degree, but the new problem also appears, the feeding device occupies too much space, the manual work can not be put into the plate material more easily and accurately, the printing or the plate collection of the machine is convenient, and the equipment can not be folded to enable the printed space and the arrangement to be more convenient.

Disclosure of Invention

Aiming at the problems in the prior art, the utility model improves the existing feeding device, and solves the problems of inconvenient material collection and discharging and large occupied operation space of the existing feeding device.

Specifically, the detailed technical scheme provided by the utility model is as follows:

a folding auxiliary feeding device comprises a supporting base and a bottom frame; the support base comprises a first substrate and second substrates connected to the left side and the right side of the first substrate; the first substrate is fixed on the underframe; the second base plate is hinged with the first base plate and is hinged with the underframe through a supporting mechanism;

the supporting mechanism performs an extending action to enable the second substrate to be unfolded relative to the first substrate, and the upper plane of the second substrate is coplanar with the upper plane of the first substrate;

the supporting mechanism performs retraction motion to enable the second substrate to be folded relative to the first substrate, and the upper plane of the second substrate is perpendicular to the upper plane of the first substrate.

Further, the supporting mechanism comprises a first fixing seat, a second fixing seat and a supporting rod; the first fixing seat is vertically fixed on the side edge of the underframe; the second fixing seat is fixed on the lower end face of the second substrate;

one end of the supporting rod is hinged with the first fixing seat; when the free end of the supporting rod is in butt joint with the second fixing seat, the supporting mechanism is of a triangular supporting structure, and the second substrate is in an unfolding state; when the free end of the supporting rod is not in contact with the first fixing seat, the second substrate is in a turnover state.

Further, a notch is formed at the distal end of the first fixing seat, and the opening of the notch faces downwards; the free end of the supporting rod is fixedly sleeved with a pin arm, and the axis of the pin arm is perpendicular to the axis of the supporting rod; the pin arm is abutted into the notch so that the second substrate is in an unfolded state.

Further, the second fixing seat is provided with an inward concave notch, so that the second fixing seat is of a U-shaped structure; when the second substrate is in a turnover state, the first fixing base is contained in the notch of the second fixing base.

Further, a guiding mechanism is further arranged in the supporting base, and the guiding mechanism is configured to guide and feed materials placed in the feeding device.

Further, the guiding mechanism comprises a plurality of guiding wheels, and the guiding wheels are arranged in the supporting base station; the guiding direction of the guiding wheel is the same as the left-right direction of the first base plate.

Furthermore, the support base stations are hollow structures, and a plurality of avoidance ports are formed in the support base stations; the guide mechanism further comprises a bearing seat, the bearing seat is fixedly arranged on the lower end face of the supporting base, the guide wheel is movably installed in the bearing seat, and part of the guide wheel extends out of the avoidance opening.

Further, fixing holes are formed in the side edges of the first substrate and the second substrate; the securing aperture is configured for securing the docking latch.

The beneficial effects achieved by adopting the technical scheme are as follows:

in the scheme, the feeding device is designed to be of a foldable structure, and in actual scene application, operators can reasonably select whether the feeding device needs to be unfolded or not according to actual situations of the scene so as to reasonably plan according to actual sizes of plates; meanwhile, after the operation is finished, the feeding device is folded and stored, so that the space of the site is not occupied excessively, and the space is saved.

Drawings

Fig. 1 is a perspective view of a feeding device according to the present embodiment.

Fig. 2 is a front plan view of the feeding device according to the present embodiment.

Fig. 3 is a plan view of the support mechanism.

Fig. 4 is a perspective view of the supporting mechanism.

Fig. 5 is a partial enlarged view at a in fig. 1.

Wherein: 10 supporting base table, 11 first base plate, 12 second base plate, 13 butt joint hasp, 20 chassis, 30 supporting mechanism, 31 first fixing base, 32 second fixing base, 33 bracing piece, 41 leading wheel, 101 dodge mouthful, 102 level measuring apparatu, 311 notch, 321 breach, 331 round pin arm.

Detailed Description

The principles and features of the present utility model are described below with reference to the drawings, the examples are illustrated for the purpose of illustrating the utility model and are not to be construed as limiting the scope of the utility model.

This embodiment provides a foldable auxiliary feeding device, through the feeding device who adopts this scheme, not only can accomplish the material to panel class material and carry out efficient pay-off, can also carry out reasonable folding deformation according to the actual specification of material, avoids taking more space to influence operating personnel's normal work.

1-2, the feeding device provided in the present embodiment includes a support base 10 and a chassis 20; wherein the support base 10 includes a first substrate 11 and second substrates 12 connected to both left and right sides of the first substrate 11; the first substrate 11 is fixed to the chassis 20 herein; the second base plate 12 is hinged with the first base plate 11 and is hinged with the bottom frame 20 through a supporting mechanism 30.

It can be understood that the feeding device designed in the scheme is generally in a T-shaped structure, only the first substrate 11 is fixed on the bottom frame 20, and the second substrates 12 on the left and right sides of the first substrate 11 are in a suspended state; such a design facilitates the ability of the second substrate 12 to be unfolded or folded relative to the first substrate 11.

Specifically, when the support mechanism performs an extending action so that the second substrate 12 is unfolded with respect to the first substrate 11, the upper plane of the second substrate 12 is coplanar with the upper plane of the first substrate 11; when the supporting mechanism retracts to enable the second substrate 12 to be folded relative to the first substrate 11, the upper plane of the second substrate 12 is perpendicular to the upper plane of the first substrate 11.

That is, in this embodiment, the second substrate 12 is in an unfolded state on the front projection plane, and the projections of the first substrate 11 and the second substrate 12 have a "straight" structure; the second substrate 12 is folded over on the front projection plane, and the projections of the first substrate 11 and the second substrate 12 are in a n-shaped structure. The unfolding state is convenient for placing the plates, and stable and rapid feeding is realized; the folding state is convenient to store, and the feeding device is prevented from occupying more redundant space.

In a specific embodiment of the present solution, referring to fig. 3 to 4, the supporting mechanism 30 includes a first fixing base 31, a second fixing base 32, and a supporting rod 33; wherein the first fixing base 31 is vertically fixed at the side of the chassis 20; the second fixing base 32 is fixed on the lower end surface of the second substrate 12; one end of the supporting rod 33 is hinged with the first fixing seat 31; when the free end of the supporting rod 33 is abutted against the second fixing seat 32, the supporting mechanism is in a triangular supporting structure, and the second substrate 12 is in an unfolding state; when the free end of the supporting rod 33 is not in contact with the first fixing seat 31, the second substrate 12 is in a folded state.

It will be appreciated that by controlling the structure of the support mechanism 30, the adjustment of the state of the second substrate 12 may be accomplished. When the supporting mechanism is in a triangular supporting state, the free end of the supporting rod 33 is just abutted against the second fixing seat 32, and the second substrate 12 is in an unfolding state at the moment; when the supporting mechanism is in the non-triangular supporting state, the free end of the supporting rod 33 is not in contact with the second fixing base 32, and the second substrate 12 is in a folded state with respect to the first substrate 11 because of lack of effective supporting force.

In this solution, in order to ensure that the second substrate 12 is relatively stable when in the unfolded state, a notch 321 is formed at the distal end of the second fixing seat 32, and the opening of the notch 321 faces downward; meanwhile, a pin arm 331 is fixedly sleeved at the free end of the supporting rod 33, and the axis of the pin arm 331 is vertical to the axis of the supporting rod 33; the second substrate 12 is in an unfolded state when the pin arm 331 abuts against the notch 321.

Optionally, the first fixing base 31 has an inward concave slot 311, so that the first fixing base 31 has a U-shaped structure; when the second substrate 12 is in the folded state, the second fixing base 32 is received in the notch 311 of the first fixing base 31. That is, in order to make the overall structure have better rationality, when the second substrate 12 is in the folded state, the second fixing base 32 can be just placed in the notch 311 of the first fixing base 31.

In a specific embodiment of the present solution, a guiding mechanism is further provided in the support base 10, the guiding mechanism being configured to guide the feeding of the material placed in the feeding device. By the guide mechanism, an operator can easily complete feeding operation when placing the plate on the support base 10, and the stability of plate feeding is ensured.

Specifically, referring to fig. 1 and 5, the guide mechanism includes a plurality of guide wheels 41, and the guide wheels 41 are built in the support base 10; the guiding direction of the guiding wheel 41 is the same as the left-right direction of the first substrate 11. By using the guide wheels 41 here, an auxiliary feeding of the sheet material is achieved; in the traditional feeding, the plate is directly placed on a feeding table, and sliding friction is generated between the plate and the feeding table in the feeding process; however, the guiding wheel 41 is utilized in the scheme, and the conventional sliding friction is replaced by rolling friction, so that the convenience of the feeding process is improved.

The support base 10 has a hollow structure, and a plurality of avoidance ports 101 are formed in the support base 10; the guiding mechanism further comprises a bearing seat, the bearing seat is fixedly arranged on the lower end face of the supporting base 10, the guiding wheel 41 is movably arranged in the bearing seat, and part of the guiding wheel 41 extends out of the avoiding opening 101.

In the scheme, fixing holes are formed in the side edges of the first substrate 11 and the second substrate 12; the fixing hole is configured for fixing the docking latch 13. The docking latch 13 is used for docking with another device, such as a mesh belt machine, and the docking latch 13 can ensure the connection stability of the feeding device with an external device. When the second substrate 12 is in the unfolded state, the butt-joint lock catches 13 are respectively fixed at two ends of the second substrate 12 so as to facilitate butt-joint fixation; however, when the second substrate 12 is in the folded state, the operator is required to detach the docking lock 13 on the second substrate 12 to be mounted on the corresponding position of the first substrate 11, so that even if the feeding device is in the storage state, the docking feeding can be completed only in the case of the first substrate 11.

Optionally, a level gauge 102 is further disposed on the side edge of the first substrate 11, and the level gauge 102 is used to implement the level placement of the whole device, so as to facilitate the level adjustment.

The foregoing description of the preferred embodiments of the utility model is not intended to limit the utility model to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the utility model are intended to be included within the scope of the utility model.

Claims

1. A folding auxiliary feeding device comprises a supporting base (10) and a bottom frame (20); the support base (10) is characterized by comprising a first substrate (11) and second substrates (12) connected to the left and right sides of the first substrate (11); the first base plate (11) is fixed on the underframe (20); the second base plate (12) is hinged with the first base plate (11) and is hinged with the underframe (20) through a supporting mechanism (30);

the supporting mechanism (30) performs an extending action to enable the second substrate (12) to be unfolded relative to the first substrate (11), and the upper plane of the second substrate (12) is coplanar with the upper plane of the first substrate (11);

the supporting mechanism (30) performs retraction motion to enable the second base plate (12) to be folded relative to the first base plate (11), and the upper plane of the second base plate (12) is perpendicular to the upper plane of the first base plate (11).

2. A folding auxiliary feeding apparatus according to claim 1, wherein the supporting mechanism (30) comprises a first fixing base (31), a second fixing base (32) and a supporting bar (33); the first fixing seat (31) is vertically fixed on the side edge of the underframe (20); the second fixing seat (32) is fixed on the lower end face of the second substrate (12);

one end of the supporting rod (33) is hinged with the first fixing seat (31); when the free end of the supporting rod (33) is in abutting connection with the second fixing seat (32), the supporting mechanism (30) is of a triangular supporting structure, and the second substrate (12) is in an unfolding state; when the free end of the supporting rod (33) is not in contact with the first fixing seat (31), the second base plate (12) is in a turnover state.

3. A folding auxiliary feeding device according to claim 2, wherein a gap (321) is formed at the distal end of the second fixing seat (32), and the opening of the gap (321) faces downwards; the free end of the supporting rod (33) is sleeved and fixed with a pin arm (331), and the axis of the pin arm (331) is perpendicular to the axis of the supporting rod (33); the pin arm (331) abuts into the notch (321) such that the second substrate (12) is in an expanded state.

4. A folding auxiliary feeding device according to claim 3, wherein the first fixing seat (31) has an inward concave notch (311), so that the first fixing seat (31) has a U-shaped structure; when the second base plate (12) is in a folded state, the second fixing base (32) is accommodated in the notch (311) of the first fixing base (31).

5. A folding auxiliary feeding device according to claim 1 or 4, wherein a guiding mechanism is further provided in the support base (10), said guiding mechanism being configured to guide the feeding of material placed in the feeding device.

6. A folding auxiliary feeding apparatus as claimed in claim 5, wherein said guiding means comprises a plurality of guide wheels (41), said guide wheels (41) being built into said support base (10); the guiding direction of the guiding wheel is the same as the left and right sides of the first base plate (11).

7. The folding auxiliary feeding device according to claim 6, wherein the supporting base (10) is of a hollow structure, and a plurality of avoiding openings (101) are formed in the supporting base (10); the guide mechanism further comprises a bearing seat, the bearing seat is fixedly arranged on the lower end face of the supporting base (10), the guide wheel is movably installed in the bearing seat, and part of the guide wheel extends out of the avoidance opening (101).

8. The folding auxiliary feeding device according to claim 1, wherein fixing holes are formed in the side edges of the first base plate (11) and the second base plate (12); the securing aperture is configured for securing a docking latch (13).

9. A folding auxiliary feeding device according to claim 1, wherein the side edge of the first base plate (11) is further provided with a level gauge (102).