CN215363868U - Material feeding unit with prevent blockking up and connect material structure - Google Patents

Abstract

The utility model discloses a feeding device with an anti-blocking material receiving structure, which comprises a machine body and a material receiving structure, wherein one end of the machine body is provided with a feeding platform, the material receiving structure is arranged on the feeding platform, the material receiving structure comprises a material receiving frame, a discharging mechanism and a material ejecting mechanism, the material receiving frame and the discharging mechanism are both arranged on the feeding platform, and the discharging mechanism is arranged outside one end of the material receiving frame, which is adjacent to the other end of the machine body; the material receiving frame is provided with a material storage cavity which penetrates through the top and the bottom of the material receiving frame; the discharging mechanism is used for pushing and outputting the workpieces conveyed to the feeding platform from the lower part of the material receiving frame; connect the work or material rest to keep away from on the one side of discharge mechanism two openings that are equipped with the intercommunication storage cavity are opened relatively in both sides, and liftout mechanism sets up on the one side of receiving the work or material rest to keep away from discharge mechanism. The feeding device can prevent the blockage of the workpieces in the material storage cavity, and improves the conveying efficiency of the workpieces.

Description

Material feeding unit with prevent blockking up and connect material structure

Technical Field

The utility model relates to the technical field of feeding equipment, in particular to a feeding device with an anti-blocking material receiving structure.

Background

In furniture production industry, the cradling piece is the subassembly commonly used that is used for supporting, equipment formation furniture frame, and the cradling piece is carried to material feeding unit from the storage, and material feeding unit carries the cradling piece to material taking mechanism, and material taking mechanism carries the cradling piece to frame processing equipment, assembles the cradling piece to the both sides of frame through frame processing equipment. Therefore, the conveying efficiency of the support rods directly affects the furniture production efficiency, and the conveying efficiency of the support rods is particularly important in the furniture production. However, at present, the existing feeding device has a material storage cavity capable of storing a certain amount of support rods, but the stored support rods are easily clamped in the material storage cavity when entering the material storage cavity, so that blockage is caused, manual work for stopping the machine is needed to dredge the blockage, and the conveying efficiency of the support rods is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a feeding device with an anti-blocking material receiving structure.

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

a feeding device with an anti-blocking material receiving structure comprises a machine body and the material receiving structure, wherein a feeding platform is arranged at one end of the machine body, the material receiving structure is installed on the feeding platform, the material receiving structure comprises a material receiving frame, a discharging mechanism and a material ejecting mechanism, the material receiving frame and the discharging mechanism are both installed on the feeding platform, and the discharging mechanism is arranged outside one end, close to the other end of the machine body, of the material receiving frame; the material receiving frame is provided with a material storage cavity which penetrates through the top and the bottom of the material receiving frame, so that workpieces can be stored in the material storage cavity up and down in parallel and can be output to the feeding platform from a bottom cavity opening of the material storage cavity; the discharging mechanism is used for pushing and outputting the workpieces conveyed to the feeding platform from the lower part of the material receiving frame; connect the work or material rest to keep away from two openings that are equipped with intercommunication storage cavity in the one side of discharge mechanism is opened relatively in both sides, liftout mechanism sets up in the one side that connects the work or material rest to keep away from discharge mechanism, is located between two openings, cooperatees through liftout mechanism and two openings, supports the work piece of top adjustment storage cavity, prevents that the work piece from causing the jam in the storage cavity.

As a further technical scheme of the utility model: the ejection mechanism comprises an ejection driving motor, a transmission case and two ejection gears, the ejection driving motor and the transmission case are both arranged on one surface of the receiving frame, which is far away from the discharging mechanism, the ejection driving motor is arranged above the transmission case, the rotating shaft of the ejection driving motor extends into the transmission case, a driven shaft which rotates along with the rotation of the rotating shaft of the ejection driving motor is transversely arranged on the transmission case, and two ends of the driven shaft extend out of two sides of the transmission case; two liftout gears are installed relatively on the both ends of driven shaft, and each liftout gear corresponds the setting with an opening, the liftout gear passes corresponding opening towards the dogtooth border that connects the work or material rest, stretches into to the storage intracavity to supply liftout driving motor to drive the driven shaft and rotate, the liftout gear rotates along with the driven shaft, supports the work piece of top adjustment storage intracavity through the rotation of liftout gear.

As a further technical scheme of the utility model: the material receiving frame is characterized in that a material guide plate is correspondingly arranged at the top cavity opening of the material storage cavity at the top of the material receiving frame, the bottom end of the material guide plate is connected with the top of the material receiving frame, the top end of the material guide plate upwarps towards the other end of the machine body to form a material guide section, so that workpieces conveyed from the other end of the machine body sequentially fall onto the material guide plate, slide down along the material guide plate and enter the material storage cavity from the top cavity opening of the material storage cavity.

As a further technical scheme of the utility model: connect the material frame to be equipped with on an opening and connect the material response piece, through connecing the work piece volume of material response piece response storage intracavity.

As a further technical scheme of the utility model: the receiving frame is equipped with ejection of compact response piece at the bottom accent of storage cavity, senses the work piece through ejection of compact response piece and falls the back on feeding platform, and transmission signal to discharge mechanism makes discharge mechanism start, with work piece propelling movement output.

As a further technical scheme of the utility model: the discharging mechanism comprises a driving cylinder and a supporting plate, wherein a driving rod of the driving cylinder faces the material receiving frame, the supporting plate is arranged on the driving rod of the driving cylinder, and the supporting plate is driven to push and output a workpiece by stretching and retracting the driving rod of the driving cylinder.

Compared with the prior art, the utility model has the beneficial effects that: the feeding device with the anti-blocking material receiving structure is matched with the two through openings through the material ejecting mechanism, supports against and adjusts the workpieces in the material storage cavity, prevents the workpieces from being blocked in the material storage cavity, and effectively improves the conveying efficiency.

Drawings

Fig. 1 is a schematic diagram of a feeding device with an anti-blocking material receiving structure.

Fig. 2 is a structural diagram of a material receiving structure.

Fig. 3 is a schematic diagram of a material receiving structure.

Detailed Description

The following detailed description of embodiments of the utility model refers to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the preferred embodiment of the utility model, are intended for purposes of illustration and explanation only and are not intended to limit the scope of the utility model.

Referring to fig. 1, 2 and 3, a feeding device with an anti-blocking material receiving structure includes a machine body 10 and a material receiving structure 20, wherein a feeding platform 11 is disposed at one end of the machine body 10, the material receiving structure 20 is mounted on the feeding platform 11, the material receiving structure 20 includes a material receiving frame 21, a discharging mechanism 22 and a material ejecting mechanism 23, the material receiving frame 21 and the discharging mechanism 22 are both disposed on the feeding platform 11, and the discharging mechanism 22 is located outside one end of the material receiving frame 21 adjacent to the other end of the machine body 10; the material receiving frame 21 is provided with a material storage cavity 211 penetrating through the top and the bottom of the material receiving frame, so that workpieces are stored in the material storage cavity 211 in an up-and-down parallel manner and are output to the feeding platform 11 from a bottom cavity opening of the material storage cavity 211, and the discharging mechanism 22 is used for pushing and outputting the workpieces conveyed to the feeding platform 11 from the lower part of the material receiving frame 21; connect the work or material rest 21 to keep away from on the one side of discharge mechanism 22 and open two through openings 212 that are equipped with intercommunication storage cavity 211 relatively in both sides, liftout mechanism 23 sets up and is being connected the work or material rest 21 and keep away from on the one side of discharge mechanism 22, lies in between two through openings 212, cooperatees with two through openings 212 through liftout mechanism 23, supports the work piece in the adjustment storage cavity 211 of propping up, prevents that the work piece from causing the jam in storage cavity 211.

Further, the ejecting mechanism 23 includes an ejecting driving motor 231, a transmission box 232 and two ejecting gears 233, the ejecting driving motor 231 and the transmission box 232 are both disposed on one surface of the material receiving frame 21 away from the discharging mechanism 22, the ejecting driving motor 231 is disposed above the transmission box 232, a rotation shaft of the ejecting driving motor 231 extends into the transmission box 232, a driven shaft 2321 which rotates along with the rotation shaft of the ejecting driving motor 231 is transversely disposed on the transmission box 232, and two ends of the driven shaft 2321 extend out from two sides of the transmission box 232; two ejection gears 233 are oppositely arranged at two ends of the driven shaft 2321, each ejection gear 233 is arranged corresponding to one through hole 212, the ejection gear 233 penetrates through the corresponding through hole 212 towards the edge of the convex tooth of the material receiving frame 21 and extends into the material storage cavity 211 so that the ejection driving motor 231 can drive the driven shaft 2321 to rotate, the ejection gears 233 rotate along with the driven shaft 2321, and the rotation of the ejection gears 233 abuts against the workpiece in the material storage cavity 211 to adjust the workpiece.

Further, the top of the material receiving frame 21 is correspondingly provided with a material guide plate 201 at the top cavity opening of the material storage cavity 211, the bottom end of the material guide plate 201 is connected with the top of the material receiving frame 21, the top end of the material guide plate 201 tilts upwards towards the other end of the machine body 10 to form a material guide section, so that workpieces conveyed from the other end of the machine body 10 sequentially fall onto the material guide plate 201, slide down along the material guide plate 201, and enter the material storage cavity 211 from the top cavity opening of the material storage cavity 211.

Further, the material receiving frame 21 is provided with a material receiving sensing member 202 on a through hole 212, and senses the amount of the workpieces in the material storage cavity 211 through the material receiving sensing member 202.

Further, the material receiving frame 21 is provided with a discharging induction piece 203 at the bottom cavity opening of the material storage cavity 211, and after the discharging induction piece 203 induces that the workpiece falls on the feeding platform 11, the workpiece transmits a signal to the discharging mechanism 22, so that the discharging mechanism 22 is started to push and output the workpiece.

Further, the discharging mechanism 22 includes a driving cylinder 221 and a top abutting plate 222, the driving rod of the driving cylinder 221 is disposed toward the material receiving frame 21, the top abutting plate 222 is disposed on the driving rod of the driving cylinder 221, and the driving rod of the driving cylinder 221 extends and retracts to drive the top abutting plate 222 to output the workpiece.

Further, material feeding unit still includes carrying material structure 30 and pushing mechanism 40, be equipped with storage silo 12 on the other end of organism 10, through storage silo 12 deposit work piece, carry material structure 30 and set up between storage silo 12 and connect material structure 20, carry the work piece that will store in storage silo 12 to connect material structure 20 through carrying material structure 30 on, connect material structure 20 to set up on the one end that feeding platform 11 is close to carrying material structure 30, export the work piece that carrying material structure 30 exported to feeding platform 11 side by side in proper order through connecting material structure 20 on, pushing mechanism 40 sets up on feeding platform 11 keeps away from carrying material structure 30's one end, will carry the work piece that one end that carrying material structure 30 was kept away from to feeding platform 11 side by side to the external propelling movement of taking mechanism on through pushing mechanism 40.

The utility model discloses a using method of a feeding device with an anti-blocking material receiving structure, which comprises the following steps: after the workpieces are stored in the storage bin 12, the workpieces stored in the storage bin 12 are lifted from the storage bin 12 through the lifting structure 30 and output to the outside of the storage bin 12, and are conveyed to the receiving structure 20; the workpieces conveyed to the material receiving structure 20 are conveyed to the feeding platform 11 in sequence side by side under the action of the material receiving structure 20, and conveyed to the pushing mechanism 40; the workpiece conveyed to the pushing mechanism 40 is pushed outwards by the pushing mechanism 40. As can be understood, when a workpiece just enters the material storage cavity 211, the ejection driving motor 231 drives the driven shaft 2321 to rotate, the ejection gear 233 rotates along with the driven shaft 2321, and the workpiece just entering the material storage cavity 211 is adjusted by the rotation of the ejection gear 233, so that the workpiece is effectively prevented from being blocked in the material storage cavity 211.

In summary, the feeding device with the anti-blocking material receiving structure of the present invention cooperates with the two through holes 212 through the material ejecting mechanism 23 to eject and adjust the workpiece in the material storage cavity 211, so as to prevent the workpiece from blocking in the material storage cavity 211, and effectively improve the conveying efficiency.

Any combination of the various embodiments of the present invention should be considered as disclosed in the present invention, unless the inventive concept is contrary to the present invention; within the scope of the technical idea of the utility model, any combination of various simple modifications and different embodiments of the technical solution without departing from the inventive idea of the present invention shall fall within the protection scope of the present invention.

Claims (6)

1. The utility model provides a material feeding unit with prevent blockking up and connect material structure, includes organism (10) and connects material structure (20), its characterized in that: a feeding platform (11) is arranged at one end of the machine body (10), the material receiving structure (20) is installed on the feeding platform (11), the material receiving structure (20) comprises a material receiving frame (21), a discharging mechanism (22) and a material ejecting mechanism (23), the material receiving frame (21) and the discharging mechanism (22) are both installed on the feeding platform (11), and the discharging mechanism (22) is arranged outside one end, adjacent to the other end of the machine body (10), of the material receiving frame (21); the material receiving frame (21) is provided with a material storage cavity (211) penetrating through the top and the bottom of the material receiving frame, so that workpieces are stored in the material storage cavity (211) in an up-and-down parallel mode and are output to the feeding platform (11) from a bottom cavity opening of the material storage cavity (211); the discharging mechanism (22) is used for pushing and outputting the workpieces conveyed to the feeding platform (11) from the lower part of the material receiving frame (21); connect work or material rest (21) to keep away from on the one side of discharge mechanism (22) two through openings (212) of intercommunication storage cavity (211) are seted up relatively in both sides, liftout mechanism (23) set up and connect work or material rest (21) to keep away from on the one side of discharge mechanism (22), lie in between two through openings (212), cooperate through liftout mechanism (23) and two through openings (212), support the work piece in the adjustment storage cavity (211), prevent that the work piece from causing the jam in storage cavity (211).

2. The feeding device of claim 1, wherein: the ejection mechanism (23) comprises an ejection driving motor (231), a transmission box (232) and two ejection gears (233), the ejection driving motor (231) and the transmission box (232) are both arranged on one surface of the material receiving frame (21) far away from the discharging mechanism (22), the ejection driving motor (231) is arranged above the transmission box (232), a rotating shaft of the ejection driving motor (231) extends into the transmission box (232), a driven shaft (2321) which rotates along with the rotation of the rotating shaft of the ejection driving motor (231) is transversely arranged on the transmission box (232), and two ends of the driven shaft (2321) extend out of two sides of the transmission box (232); two ejection gears (233) are oppositely arranged at two ends of the driven shaft (2321), each ejection gear (233) is arranged corresponding to one through hole (212), the ejection gears (233) penetrate through the corresponding through holes (212) towards the convex tooth edges of the material receiving frame (21) and extend into the material storage cavity (211) so that the ejection driving motor (231) can drive the driven shaft (2321) to rotate, the ejection gears (233) rotate along with the driven shaft (2321), and workpieces in the material storage cavity (211) are adjusted by abutting against the rotation of the ejection gears (233).

3. The feeding device according to claim 2, wherein: the top that connects work or material rest (21) is equipped with stock guide (201) correspondingly at the top accent of storage cavity (211), stock guide (201) bottom is connected with the top that connects work or material rest (21), and the top of stock guide (201) upwarps towards organism (10) other end, forms the stock guide section to the work piece that supplies to carry from the organism (10) other end falls into stock guide (201) in proper order on, along stock guide (201) landing, enters into in storage cavity (211) from the top accent of storage cavity (211).

4. The feeding device according to claim 2, wherein: the material receiving frame (21) is provided with a material receiving induction piece (202) on a through hole (212), and the quantity of workpieces in the material storage cavity (211) is sensed through the material receiving induction piece (202).

5. The feeding device according to claim 2, wherein: connect work or material rest (21) to be equipped with ejection of compact response piece (203) at the bottom accent of storage cavity (211), sense the work piece through ejection of compact response piece (203) and fall back on pay-off platform (11), transmit signal to discharge mechanism (22), make discharge mechanism (22) start, with work piece propelling movement output.

6. The feeding device according to claim 2, wherein: the discharging mechanism (22) comprises a driving cylinder (221) and a supporting plate (222), a driving rod of the driving cylinder (221) is arranged towards the material receiving frame (21), the supporting plate (222) is arranged on the driving rod of the driving cylinder (221), and the supporting plate (222) is driven to push and output a workpiece through the stretching of the driving rod of the driving cylinder (221).

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