CN114986390A - Automatic change grinding device of feed - Google Patents

Abstract

The invention discloses an automatic feeding polishing device, which relates to the technical field of polishing processing and comprises a rack, wherein the rack is provided with: the storage rack is used for stacking a plurality of panels to be polished in a staggered manner; the supporting plate is positioned below the storage rack and is used for supporting a panel; the distribution mechanism is used for placing the bottommost panel in the storage rack into the bearing plate; the conveying belt is provided with a plurality of clamping assemblies at intervals, and the clamping assemblies are used for clamping the panel positioned in the bearing plate; and the grinding assembly is used for grinding the panel on the clamping assembly. The automatic feeding polishing device provided by the invention can automatically polish the stored panels in the storage rack without manual continuous feeding, and can add new panels to be polished into the storage rack at any time, and the conveyor belt does not need to pause, so that the polishing efficiency is greatly improved, and the labor cost and the production cost of unit products of enterprises are greatly reduced.

Description

Automatic change grinding device of feed

Technical Field

The invention relates to the technical field of polishing processing, in particular to an automatic feeding polishing device.

Background

The grinding device generally comprises a grinding roller (or grinding disc) and a motor for driving the grinding roller, wherein the grinding roller changes the physical properties of the surface of the panel workpiece through friction, and the main purpose is to obtain specific surface roughness, and the surface of the panel workpiece is usually ground to be relatively smoother than the surface of the panel workpiece which is relatively rougher or has a welding seam.

As disclosed in patent application No. CN108544313A entitled "flat grinder", which comprises: the conveying line comprises a conveying driving device, a conveying belt and a plurality of station components, the station components are arranged on the conveying belt along the conveying direction, and the conveying driving device drives the conveying belt to operate and drives the station components to move along the conveying direction; grinding device, grinding device are including placing board, drive assembly and rotary drive device, and drive assembly includes the eccentric wheel, places the top that the board is located the station subassembly, and the lower surface of placing the board is used for the installation piece of polishing, and the eccentric wheel is provided with drive division and eccentric part, and the eccentric part is located the outside of drive division, and the eccentric part is articulated with placing the board, and rotary drive device is connected with the drive division and drives the drive division rotation, and the eccentric part rotates around the drive division. It is through the transport of conveyer line to the station subassembly, and the product of polishing is treated in the station subassembly mountable, treats that the product of polishing removes to placing behind the board below, can be polished by eccentric pivoted polishing piece, and the time of polishing can be controlled according to the walking speed of station subassembly during, and it is more high-efficient to polish.

Grinding device among the prior art including above-mentioned patent, in order to improve the efficiency of polishing of work piece, lead to the groove and predetermine the conveyer belt with the panel work piece on, lead to the work piece by the conveyer belt and polish through the grinding roller below, its weak point that exists lies in: an operator is required to be specially equipped to manually place the panel workpieces to be polished on the conveying belt one by one and fix the panel workpieces, and even the conveying belt needs to be suspended when the panel workpieces are placed, so that the labor cost of enterprises is increased, and the polishing efficiency is difficult to break through.

Disclosure of Invention

The invention aims to provide an automatic feeding polishing device to overcome the defects in the prior art.

In order to achieve the above purpose, the invention provides the following technical scheme: the utility model provides an automatic change grinding device of feed, includes the frame, be provided with in the frame: the storage rack is used for stacking a plurality of panels to be polished in a staggered manner; the supporting plate is positioned below the storage rack and is used for supporting one panel; the distribution mechanism is used for placing the bottommost panel in the storage rack into the bearing plate; the conveying belt is provided with a plurality of clamping components at intervals, and the clamping components are used for clamping the panel positioned in the bearing plate; and the grinding assembly is used for grinding the panel on the clamping assembly.

Further, the storage rack comprises two opposite double V-shaped guard plates, each double V-shaped guard plate comprises two parallel right-angle grooves, two of the four right-angle grooves of the double V-shaped guard plates form a first storage mode of the panel, the other two oblique right-angle grooves form a second storage mode of the panel, and the panels to be polished are stacked in the storage rack in a staggered mode of the first storage mode and the second storage mode.

Further, the dispensing mechanism comprises two oppositely arranged dispensing units on both sides of the conveyor belt, each dispensing unit comprising: the vertical shaft is fixedly connected to the rack; the first movable plate is rotatably arranged on the vertical shaft and is used for supporting the bottommost panel in the storage rack; the second movable plate is rotatably arranged on the vertical shaft, is positioned above the first movable plate and is used for supporting a panel of a second bottom layer in the storage rack; the driving assembly is used for driving the first movable plate and the second movable plate to rotate respectively.

Further, the drive assembly includes: the first gear is coaxially and fixedly connected to the lower end face of the first movable plate; the second gear is coaxially and fixedly connected to the lower end face of the second movable plate; the first rack is fixedly connected to the conveying belt and meshed with the first gear when moving along with the conveying belt to pass through the first gear; and the second rack is fixedly connected to the conveying belt and is meshed with the second gear when moving along with the conveying belt to pass through the second gear.

Furthermore, balls are embedded in the upper surfaces of the first movable plate and the second movable plate in a rolling manner.

Further, the clamping component comprises a movable limiting part and a fixed limiting part which are arranged oppositely, the movable limiting part is movably arranged on the conveying belt, the fixed limiting part is fixedly arranged on the conveying belt, a clamping space for clamping the panel is formed between the fixed limiting part and the movable limiting part, the panel in the bearing plate can be avoided by moving downwards when the movable limiting part passes through the lower part of the bearing plate, the movable limiting part moves upwards to reset when the fixed limiting part moves to be in blocking connection with the panel in the bearing plate, and the panel in the bearing plate enters the clamping space.

Furthermore, the movable limiting part is vertically arranged on the conveying belt in a sliding mode, a first elastic unit is arranged between the movable limiting part and the conveying belt, and the movable limiting part is driven to slide away from the conveying belt in the process that the first elastic unit recovers deformation; a first inclined plane is arranged on one side of the movable limiting part, which is far away from the corresponding fixed limiting part, and the first inclined plane is in abutting sliding fit with a panel on the bearing plate so that the movable limiting part slides downwards in the process that the movable limiting part moves along with the conveying belt; the bottom of the double V-shaped guard plate positioned at the downstream of the moving direction of the conveying belt is movably provided with an elastic stop piece which limits the panel in the bearing plate, so that the friction force between the movable limiting part and the bottom of the panel in the bearing plate is not enough to enable the panel in the bearing plate to move along the direction of the conveying belt.

Furthermore, the elastic stop member comprises a limiting member, the limiting member is vertically arranged at the bottom of the corresponding double-V guard plate in a sliding manner, a second elastic unit is arranged between the limiting member and the corresponding double-V guard plate, the elastic force of the second elastic unit drives the limiting member to slide downwards, and the limiting member and the panel in the bearing plate are second inclined planes towards one side of the abutting joint.

Furthermore, the first elastic unit is a first pressure spring, one end of the first pressure spring is connected with the conveying belt, and the other end of the first pressure spring is connected with the movable limiting part.

Further, the grinding assembly is a grinding roller and/or a grinding disc.

In the technical scheme, the automatic feeding polishing device provided by the invention can stack a plurality of panels to be polished in a staggered manner in the storage rack, then the bottommost panel in the storage rack is placed in the bearing plate through the distribution mechanism, the conveying belt drives the clamping assembly arranged on the conveying belt to pass through the lower part of the bearing plate, the clamping assembly clamps the panel in the bearing plate and conveys the panel to the lower part of the polishing assembly for polishing, so that the stored panels in the storage rack are automatically polished without manual continuous feeding, new panels to be polished can be added into the storage rack at any time, the conveying belt does not need to pause, the polishing efficiency is greatly improved, and the labor cost and the production cost of unit products of enterprises are greatly reduced.

Drawings

In order to more clearly illustrate the embodiments of the present application or technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to the drawings.

FIGS. 1-2 are schematic diagrams of the overall structure provided by the embodiments of the present invention;

FIGS. 3-4 are schematic views of partial structures provided in accordance with embodiments of the present invention;

fig. 5 is a schematic partial structure diagram of a material distribution unit provided in an embodiment of the present invention;

FIGS. 6-7 are schematic structural views of a clamping assembly according to an embodiment of the present invention;

fig. 8 is a schematic structural diagram of an elastic stopper according to an embodiment of the present invention.

Description of reference numerals:

1. a frame; 2. a storage rack; 2.1, double V guard plates; 2.11, right-angle grooves; 3. a support plate; 4. a dispensing mechanism; 4.1, a vertical shaft; 4.2, a first movable plate; 4.3, a second movable plate; 4.4, a first gear; 4.5, a second gear; 4.6, a first rack; 4.7, a second rack; 4.8, rolling balls; 5. a conveyor belt; 6. a clamping assembly; 6.1, a movable limiting part; 6.2, fixing a limiting part; 6.3, a first elastic unit; 6.4, a first inclined plane; 7. an elastic stopper; 7.1, a limiting piece; 7.2, a second elastic unit; 7.3, a second inclined plane; 8. and a grinding component.

Detailed Description

In order to make the technical solutions of the present invention better understood, those skilled in the art will now describe the present invention in further detail with reference to the accompanying drawings.

Referring to fig. 1-8, an automatic feeding polishing device provided in an embodiment of the present invention includes a frame 1, wherein the frame 1 is provided with a storage rack 2, a support plate 3, a distribution mechanism 4, a conveyor belt 5, and a polishing assembly 8, wherein the storage rack 2 is configured to stack a plurality of panels to be polished in a staggered manner, the support plate 3 is located below the storage rack 2, the support plate 3 is configured to support one panel, the distribution mechanism 4 is configured to place the bottommost panel in the storage rack 2 into the support plate 3, the conveyor belt 5 is located below the support plate 3, the conveyor belt 5 is provided with a plurality of clamping assemblies 6 at intervals, the number of the clamping assemblies 6 is at least one, optionally 3 to 5, and specifically, the clamping assemblies 6 can be reasonably arranged according to the length of the conveyor belt 5, the clamping assemblies 6 are configured to clamp the panel located in the support plate 3, the polishing assembly 8 is a polishing roller and/or a polishing disc, the grinding assembly 8 is used for grinding the panel on the clamping assembly 6.

In the above technical solution, the polishing device with automatic feeding provided by the invention can stack a plurality of panels to be polished in a staggered manner in the storage rack 2, the number of the panels is not specifically limited, for example, 10-20 panels, then the lowest panel in the storage rack 2 is placed in the supporting plate 3 through the distribution mechanism 4, a gap exists between the panel on the supporting plate 3 and the panel above the panel, the conveying belt 5 drives the clamping assembly 6 arranged thereon to pass below the supporting plate 3, the clamping assembly 6 clamps the panel in the supporting plate 3 and conveys the panel to the lower side of the polishing assembly 8 for polishing, and due to the existence of the gap, the panel does not generate friction with the panel above when the panel leaves from the storage rack 3 under the driving of the clamping assembly 6, the invention realizes automatic polishing of the stored panel in the storage rack 2, need not artifical material loading that lasts to can increase the new panel of waiting to polish at any time in to storage frame 2, conveyer belt 5 also need not pause, makes efficiency of polishing obtain huge promotion, has reduced the recruitment cost and the manufacturing cost of the unit product of enterprise by a wide margin.

As the preferred technical scheme of this embodiment, the storage rack 2 includes two double V backplate 2.1 that set up relatively, and every double V backplate 2.1 includes two right-angle grooves 2.11 that set up side by side, and two diagonal right-angle grooves 2.11 among four right-angle grooves 2.11 of two double V backplate 2.1 constitute the first mode of depositing of panel, and two diagonal right-angle grooves 2.11 constitute the second mode of depositing of panel in addition, and each panel that waits to polish stacks in the storage rack 2 with the mode that first mode of depositing and second mode of depositing are crisscross, so can make stagger between the adjacent two panels in the storage rack 2.

As a preferred technical solution of the present embodiment, the distributing mechanism 4 includes two oppositely disposed distributing units located at two sides of the conveying belt 5, each distributing unit includes a vertical shaft 4.1, a first movable plate 4.2, a second movable plate 4.3 and a driving component, wherein the vertical shaft 4.1 is fixedly connected to the frame 1, the first movable plate 4.2 is horizontally and rotatably disposed on the vertical shaft 4.1, the first movable plate 4.2 is used for supporting the bottommost panel in the storage rack 2, so that a gap exists between the bottommost panel in the storage rack 2 and the panel on the supporting plate 3, the panels stacked in the storage rack 2 in a staggered manner cannot be pressed on the panel in the bearing plate, the second movable plate 4.3 is horizontally and rotatably disposed on the vertical shaft 4.1, the second movable plate 4.3 is located above the first movable plate 4.2, the second movable plate 4.3 is used for supporting the panel of the second bottom layer in the storage rack 2, the driving component is respectively used for driving the first movable plate 4.2 and the second movable plate 4.3 to rotate, the driving assembly can be selected as a component capable of rotating the first flap 4.2 and the second flap 4.3 in the prior art, and preferably, the driving assembly comprises a first gear 4.4, a second gear 4.5, a first rack 4.6 and a second rack 4.7, wherein, the first gear 4.4 is coaxially and fixedly connected on the lower end surface of the first movable plate 4.2, the second gear 4.5 is coaxially and fixedly connected on the lower end surface of the second movable plate 4.3, the first rack 4.6 is fixedly connected on the conveyer belt 5, the first rack 4.6 is engaged and matched with the first gear 4.4 when following the conveyer belt 5 to move through the first gear 4.4, namely, the first gear 4.4 is located on the moving stroke of the first rack 4.6, the second rack 4.7 is fixedly connected to the conveying belt 5, and the second rack 4.7 is meshed with the second gear 4.5 when the conveying belt 5 moves through the second gear 4.5, namely, the second gear 4.5 is located on the moving stroke of the second rack 4.7.

In the technical scheme, when the clamping assembly 6 clamps and conveys the panel located in the supporting plate 3 to leave the lower part of the storage rack 2, the first rack 4.6 moves to be meshed with the first gear 4.4 along with the conveying belt 5, so as to drive the first gear 4.4 to rotate, so that the first movable plate 4.2 rotates 180 degrees to be right below the second movable plate 4.3, as the first movable plate 4.2 rotates away, the panel located at the bottommost layer in the storage rack 2 loses the support of the first movable plate 4.2 and then falls onto the supporting plate 3, then the second rack 4.7 moving along with the conveying belt 5 is meshed with the second gear 4.5, so as to drive the second gear 4.5 to rotate, so that the second movable plate 4.3 rotates to leave the right above the first rack 4.6, the panel originally located on the second movable plate 4.3 falls onto the first movable plate 4.2 and becomes the panel at the bottommost layer in the storage rack 2 at the moment, and the panel located at the second movable plate 4.3 rotates to 180 degrees to support the bottom layer of the storage rack 2 at the moment, and the panel positioned in the bearing plate 3 waits for the clamping of the upper clamping component 6 and the lower clamping component 6 of the conveyer belt 5, so that the panel to be polished is automatically supplied to the polishing component.

As a further preferable technical solution of the present embodiment, referring to fig. 5, a plurality of balls 4.8 are embedded in the upper surfaces of the first movable plate 4.2 and the second movable plate 4.3 in a rolling manner, and the balls 4.8 are disposed so that the sliding friction between the first movable plate 4.2 and the second movable plate 4.3 and the upper panel during rotation is converted into rolling friction, thereby greatly reducing the friction between the first movable plate 4.2, the second movable plate 4.3 and the upper panel, and making the rotation of the first movable plate 4.2 and the second movable plate 4.3 more portable.

In another embodiment provided by the invention, the clamping component 6 comprises a movable limiting part 6.1 and a fixed limiting part 6.2 which are oppositely arranged, the movable limiting part 6.1 is movably arranged on the conveying belt 5, the fixed limiting part 6.2 is fixedly arranged on the conveying belt 5, a clamping space for clamping the panel is formed between the fixed limiting part 6.2 and the movable limiting part 6.1, when the movable limiting part 6.1 passes below the bearing plate 3, the movable limiting part can move downwards to avoid the panel positioned in the bearing plate 3, namely the top of the movable limiting part 6.1 is lower than the lower surface of the panel positioned in the bearing plate 3, the movable limiting part 6.1 can smoothly pass below the panel positioned in the bearing plate 3, when the fixed limiting part 6.2 moves to be in blocking connection with the panel positioned in the bearing plate 3, the movable limiting part 6.1 moves upwards to reset, the panel positioned in the bearing plate 3 enters the clamping space, the movable limiting part 6.1 and the fixed limiting part 6.2 are both in a double-V shape, the clamping space can respectively clamp the panels of the first storage mode and the second storage mode.

As a preferred technical solution of this embodiment, the movable limiting portion 6.1 is vertically slidably disposed on the conveyor belt 5, specifically, a slide rod is vertically disposed on the conveyor belt 5, a slide hole is disposed on the movable limiting portion 6.1, the slide rod slidably penetrates through the slide hole, a limiting structure for preventing the movable limiting portion 6.1 from sliding away from the slide rod is disposed on the slide rod, a first elastic unit 6.3 is disposed between the movable limiting portion 6.1 and the conveyor belt 5, the movable limiting portion 6.1 is driven to slide away from the conveyor belt 5 in a process of restoring deformation of the first elastic unit 6.3, preferably, the first elastic unit 6.3 is a first pressure spring, one end of the first pressure spring is connected to the conveyor belt 5, and the other end of the first pressure spring is connected to the movable limiting portion 6.1; one side of the movable limiting part 6.1, which is far away from the corresponding fixed limiting part 6.2, is provided with a first inclined surface 6.4, and in the process that the movable limiting part 6.1 moves along with the conveying belt 5, the first inclined surface 6.4 is in butt joint and sliding fit with a panel on the bearing plate 3 so that the movable limiting part 6.1 slides downwards, and therefore the top of the movable limiting part 6.1 is lower than the lower surface of the panel on the bearing plate 3; wherein the bottom of the double V-shaped protective plate 2.1 (namely the double V-shaped protective plate 2.1 on the left side in figures 1-4) positioned at the downstream of the moving direction of the conveyer belt 5 is movably provided with an elastic stop piece 7, the elastic stop piece 7 limits the panel in the bearing plate 3, preferably, the elastic stop member 7 includes a limiting member 7.1, the limiting member 7.1 is vertically slidably disposed at the bottom of the corresponding double-V guard plate 2.1, a second elastic unit 7.2 is disposed between the limiting member 7.1 and the corresponding double-V guard plate 2.1, the elastic force of the second elastic unit 7.2 drives the limiting member 7.1 to slide downward, specifically, the second elastic unit 7.2 is a second pressure spring, one end of the second pressure spring is connected to the corresponding double-V guard, the other end of the second pressure spring is connected to the limiting member 7.1, and the limiting member 7.1 and the panel in the support plate 3 are in a second inclined plane 7.3 toward the abutted side.

In the technical scheme, under the action of the elastic force of the second elastic unit 7.2, the second inclined surface 7.3 of the limiting part 7.1 is abutted against one side of the panel positioned in the bearing plate 3, so that the panel positioned in the bearing plate 3 can be limited to move along the conveying direction of the conveying belt 5, when the movable limiting part 6.1 is driven by the conveying belt 5 to move until the first inclined surface 6.4 of the movable limiting part abuts against the opposite side of the panel positioned in the bearing plate 3, the acting force applied by the movable limiting part 6.1 to the panel positioned in the bearing plate 3 along the conveying direction of the conveying belt 5 is not enough to enable the panel positioned in the bearing plate 3 to move along the conveying direction of the conveying belt 5, but the first lower surface of the movable limiting part 6.1 is abutted against the panel positioned in the bearing plate 3 to be in sliding fit, so that the movable limiting part 6.1 overcomes the elastic force of the first elastic unit 6.3 to move downwards, thereby enabling the top of the movable limiting part 6.1 to be lower than the lower surface of the panel positioned in the bearing plate 3, the movable limiting part 6.1 can pass through the lower part of the panel in the bearing plate 3 smoothly, when the fixed limiting part 6.2 moves to be in blocking connection with the panel in the bearing plate 3, the movable limiting part 6.1 just passes through the lower part of the panel in the bearing plate 3 completely, the elastic force of the first elastic unit 6.3 causes the movable limiting part 6.1 to move upwards and reset, the panel in the bearing plate 3 is naturally and partially positioned in the clamping space, then the fixed limiting part 6.2 continues to move along with the conveying belt 5, the thrust of the fixed limiting part 6.2 to the panel in the bearing plate 3 causes the panel in the bearing plate 3 to be in sliding and abutting fit with the second inclined plane 7.3, so that the limiting part 7.1 overcomes the elastic force of the second elastic unit 7.2 to move upwards until the bottom of the limiting part 7.1 is higher than the upper surface of the panel in the bearing plate 3, and the clamping assembly 6 drives the panel in the bearing plate 3 to move away from the bearing plate 3, when the panel partially located in the clamping space is completely moved away from the supporting plate 3 under the driving of the clamping assembly 6, the panel partially located in the clamping space falls onto the conveyer belt 5 and completely enters the clamping space, and then the clamping assembly 6 clamps the panel and enters the lower part of the grinding assembly 8 for grinding.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims (10)

1. The utility model provides an automatic change grinding device of feed, includes the frame, its characterized in that, be provided with in the frame:

the storage rack is used for stacking a plurality of panels to be polished in a staggered manner;

the supporting plate is positioned below the storage rack and is used for supporting one panel;

the distribution mechanism is used for placing the bottommost panel in the storage rack into the bearing plate;

the conveying belt is provided with a plurality of clamping assemblies at intervals, and the clamping assemblies are used for clamping the panel positioned in the bearing plate;

and the grinding assembly is used for grinding the panel on the clamping assembly.

2. An automated feed grinding apparatus as defined in claim 1 wherein said magazine comprises two opposed double V panels, each of said double V panels comprising two juxtaposed right angle slots, two of said four right angle slots of said double V panels forming a first mode of storage of the panels and the other two of said four right angle slots forming a second mode of storage of the panels, each panel to be ground being stacked in said magazine in a manner such that said first mode of storage is staggered with respect to said second mode of storage.

3. An automated feed grinding apparatus according to claim 2, wherein said dispensing mechanism comprises two oppositely disposed dispensing units on either side of a conveyor belt, each of said dispensing units comprising:

the vertical shaft is fixedly connected to the rack;

the first movable plate is rotatably arranged on the vertical shaft and is used for supporting the bottommost panel in the storage rack;

the second movable plate is rotatably arranged on the vertical shaft, is positioned above the first movable plate and is used for supporting a panel of a second bottom layer in the storage rack;

the driving assembly is used for driving the first movable plate and the second movable plate to rotate respectively.

4. An automated feed grinding apparatus as defined in claim 3 wherein said drive assembly comprises:

the first gear is coaxially and fixedly connected to the lower end face of the first movable plate;

the second gear is coaxially and fixedly connected to the lower end face of the second movable plate;

the first rack is fixedly connected to the conveying belt and meshed with the first gear when moving along with the conveying belt to pass through the first gear;

and the second rack is fixedly connected to the conveying belt and is meshed with the second gear when moving along with the conveying belt to pass through the second gear.

5. The automated feeding grinding device of claim 3, wherein the upper surfaces of the first movable plate and the second movable plate are embedded with balls in a rolling manner.

6. The automatic feeding grinding device according to claim 1, wherein the clamping assembly comprises a movable limiting portion and a fixed limiting portion which are oppositely arranged, the movable limiting portion is movably arranged on the conveyor belt, the fixed limiting portion is fixedly arranged on the conveyor belt, a clamping space for clamping the panel is formed between the fixed limiting portion and the movable limiting portion, when the movable limiting portion passes through the lower portion of the bearing plate, the movable limiting portion can move downwards to avoid the panel in the bearing plate, when the fixed limiting portion moves to be in blocking connection with the panel in the bearing plate, the movable limiting portion moves upwards to reset, and the panel in the bearing plate enters the clamping space.

7. The automatic feeding grinding device is characterized in that the movable limiting part is vertically arranged on the conveying belt in a sliding mode, a first elastic unit is arranged between the movable limiting part and the conveying belt, and the movable limiting part is driven to slide away from the conveying belt in the process of the first elastic unit recovering deformation;

a first inclined plane is arranged on one side of the movable limiting part, which is far away from the corresponding fixed limiting part, and the first inclined plane is in abutting sliding fit with a panel on the bearing plate so that the movable limiting part slides downwards in the process that the movable limiting part moves along with the conveying belt;

the bottom of the double V-shaped guard plate positioned at the downstream of the moving direction of the conveying belt is movably provided with an elastic stop piece which limits the panel in the bearing plate, so that the friction force between the movable limiting part and the bottom of the panel in the bearing plate is not enough to enable the panel in the bearing plate to move along the direction of the conveying belt.

8. The automatic feeding grinding device according to claim 7, wherein the elastic stop member comprises a limiting member, the limiting member is vertically slidably disposed at the bottom of the corresponding double-V-shaped guard plate, a second elastic unit is disposed between the limiting member and the corresponding double-V-shaped guard plate, the elastic force of the second elastic unit drives the limiting member to slide downward, and the limiting member and the side of the panel in the supporting plate abutting against the panel are a second inclined surface.

9. The automatic feeding grinding device of claim 7, wherein the first elastic unit is a first pressure spring, one end of the first pressure spring is connected with the conveying belt, and the other end of the first pressure spring is connected with the movable limiting part.

10. An automated feed grinding apparatus as defined in claim 1 wherein the grinding assembly is a grinding roller and/or a grinding disk.

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