CN113602753A - Feeding method based on double-guide-rail sliding type feed feeding equipment - Google Patents

Abstract

The invention relates to the technical field of feeding equipment, in particular to a feeding method based on double-guide-rail sliding type feed feeding equipment. Based on double-guide-rail slidingtype fodder feeding equipment includes guider and the feed arrangement of setting in the guider bottom, guider includes left guide rail, the right side of left guide rail is equipped with right guide rail, the top of left guide rail and right guide rail is equipped with a plurality of tooth's grooves respectively along its length direction equidistance, drive mechanism includes left driving frame, two connecting blocks have all been welded in the inside of left driving frame and right driving frame, the rotation hole has been seted up at the top of left driving frame and right driving frame, the rotation downthehole rotation is connected with the transmission shaft, the position that the transmission shaft is close to both ends is equipped with drive gear. The guide rail is combined with the transmission frame and the transmission mechanism, the support mechanism is driven to move under the action of the meshing force of the gear and the tooth socket, and the whole process becomes assembly line operation due to the movement of the support mechanism, so that the working efficiency is improved, and the feed yield is increased.

Description

Feeding method based on double-guide-rail sliding type feed feeding equipment

Technical Field

The invention relates to the technical field of feeding equipment, in particular to a feeding method based on double-guide-rail sliding type feed feeding equipment.

Background

The feed is a general term of food of animals raised by all people, a common feed in a narrow sense mainly refers to food of animals raised in agriculture or animal husbandry, and due to the fact that the feed demand is large, a plurality of factories generally adopt a flow line mode to process in the feed production process, production efficiency is improved, but the current feeding equipment is difficult to meet processing in the current flow line mode, and a sliding block of the current feeding equipment is in direct contact with a sliding rail, so that energy consumption can be increased when the feeding equipment slides, electricity consumption is large, meanwhile, long-time sliding can cause abrasion to the sliding block and the sliding rail, and the service life of the feeding equipment is shortened.

Disclosure of Invention

The invention aims to provide a feeding method based on double-guide-rail sliding type feed feeding equipment, so as to solve the problems in the background technology.

In order to achieve the above object, one of the objects of the present invention is to provide a feeding method based on a dual-guide-rail sliding type feed feeding apparatus, the dual-guide-rail sliding type feed feeding apparatus includes a guide device and a feeding device disposed at the bottom of the guide device, the guide device includes a left guide rail, a right guide rail is disposed at the right side of the left guide rail, a plurality of tooth sockets are respectively disposed at the top of the left guide rail and the top of the right guide rail along the length direction thereof at equal intervals, and the feeding device at least includes:

the transmission mechanism comprises a left transmission frame, a right transmission frame is arranged on the right side of the left transmission frame, two connecting blocks are welded inside the left transmission frame and the right transmission frame, the tops of the connecting blocks are rotatably connected with guide wheels, the guide wheels are used for rolling in guide grooves, rotating holes are formed in the tops of the left transmission frame and the right transmission frame, transmission shafts are rotatably connected in the rotating holes, transmission gears are arranged at positions, close to two ends, of the transmission shafts, the transmission gears are meshed with the tooth grooves, and motors are arranged at the right ends of the transmission shafts;

the clamping device comprises a moving rod, moving grooves are formed in two sides of the inserting groove and are in sliding connection with the moving grooves, a clamping block is arranged on the front side of the moving rod, a clamping groove is formed in the bottom of the clamping support plate and is in clamping fit with the clamping groove, a reserved groove is formed in the front side of the inserting groove and is used for providing a compression space for a spring, and the spring is arranged on the front side of the clamping block;

the feeding box is arranged at the center of the top of the supporting mechanism.

As a further improvement of the technical scheme, the vertical height of the front side of the feeding box is higher than that of the rear side of the feeding box.

As a further improvement of the technical scheme, a cover plate is arranged at the top of the feeding box, and the front side of the cover plate is rotatably connected with the feeding box.

As a further improvement of the technical scheme, a baffle is arranged on the rear side of the cover plate.

As a further improvement of the technical scheme, a triangular structure is formed among the rotating supporting plate, the clamping supporting plate, the left transmission frame and the supporting mechanism.

As a further improvement of the technical scheme, the bottoms of the left guide rail and the right guide rail are both provided with a pressing frame, the pressing frame comprises a sliding block, and the bottom of the sliding block is provided with a connecting plate.

As a further improvement of the technical scheme, a sliding groove is formed in the sliding block, the sliding groove is connected with the left guide rail and the right guide rail in a sliding mode, and two fixing bolts are connected to the top of the sliding block in a threaded mode.

As a further improvement of the technical scheme, a pressurizing block is arranged on the front side of the bottom of the connecting plate.

As a further improvement of the technical scheme, a plurality of strip-shaped grains are arranged around the nut of the fixing bolt.

The invention also aims to provide a double-guide-rail-based sliding type feed feeding method, which comprises any one of the double-guide-rail-based sliding type feed feeding equipment, and comprises the following steps:

(I) a filler conveying stage:

s1, firstly, feeding the feed into a feeding box, then moving a pressure applying frame to a position to be fed, and then screwing a fixing bolt to fix the sliding block with the left guide rail and the right guide rail respectively;

s2, after the slide block is fixed, the motor is connected with a power supply to work to drive the transmission shaft to rotate;

s3, the transmission shaft rotates, so that the gear is under the action of tooth space meshing force to respectively drive the left transmission frame and the right transmission frame to move along the left guide rail and the right guide rail where the left transmission frame and the right transmission frame are located;

(II) a feeding stage:

s4, the left transmission frame and the right transmission frame move to drive the supporting mechanism to move, and the whole process becomes assembly line operation through the movement of the supporting mechanism;

s5, after the supporting mechanism moves to a position to be fed, the movable rod collides with the pressing frame, and the pressing block generates extrusion force on the movable rod, so that the clamping block of the clamping device automatically separates from the clamping groove by mechanical motion;

s6, after the clamping block is automatically separated from the clamping groove, the supporting mechanism is separated from the clamping supporting plate under the action of gravity and rotates anticlockwise around the rotating rod;

s7, in the process of anticlockwise rotation of the supporting mechanism, the cover plate rotates under the action of impact force of feed in the feeding box to enable the bottom to form a gap, and the feed flows out of the gap and falls into a position to be fed.

Compared with the prior art, the invention has the beneficial effects that:

1. in the double-guide-rail-based sliding type feed feeding equipment and the feeding method thereof, the guide rails are combined with the transmission frame and the transmission mechanism, the supporting mechanism is driven to move under the action of the meshing force of the gears and the tooth grooves, and the whole process becomes assembly line operation through the movement of the supporting mechanism, so that the working efficiency is improved, and the feed yield is increased.

2. According to the double-guide-rail-based sliding type feed feeding equipment and the feeding method thereof, the guide wheels rotate under the action of the friction force of the inner walls of the guide grooves, and the rotating friction force is smaller than the sliding friction force, so that the energy consumption in the transmission process is reduced through the rotation of the guide wheels, the abrasion to the guide grooves is reduced, and the service life of the guide wheels is prolonged.

3. According to the double-guide-rail-based sliding type feed feeding equipment and the feeding method thereof, the pressing frame is matched with the clamping device, and the pressing block generates extrusion force on the moving rod, so that the clamping block of the clamping device is automatically separated from the clamping groove by mechanical movement.

4. In the double-guide-rail-based sliding type feed feeding equipment and the feeding method thereof, the baffle plays a role in resistance to movement of feed, so that the impact force is reduced, and the cover plate is prevented from being damaged due to overlarge impact force.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the guide rail structure of the present invention;

FIG. 3 is a schematic view of the structure of the feeding device of the present invention;

FIG. 4 is an exploded view of the drive mechanism configuration of the present invention;

FIG. 5 is an exploded view of the transmission frame structure of the present invention;

FIG. 6 is a schematic view of a drive shaft according to the present invention;

FIG. 7 is a schematic structural view of the support mechanism of the present invention;

FIG. 8 is a schematic view of the feed box structure of the present invention;

FIG. 9 is a schematic view of the rotatable support plate of the present invention;

FIG. 10 is an exploded view of the latch configuration of the present invention;

fig. 11 is an exploded view of the structure of the pressure applying frame of the present invention.

The various reference numbers in the figures mean:

100. a guide device;

110. a left guide rail;

120. a right guide rail; 121. a tooth socket; 122. a guide groove;

130. a pressure applying frame; 131. a slider; 1311. a chute; 1312. a fixing bolt; 132. a connecting plate; 1321. pressing a block;

200. a feeding device;

210. a transmission mechanism; 211. a drive shaft; 2111. a transmission gear; 2112. a motor; 212. a left transmission frame; 213. a right transmission frame; 2131. rotating the hole; 214. connecting blocks; 2141. a guide wheel;

220. a support mechanism; 221. rotating the support plate; 2211. rotating the rod; 222. clamping the support plate; 2221. a card slot; 223. a rotating frame; 224. a clamping device; 2241. a travel bar; 2242. a clamping block; 2243. a spring; 225. a slot; 2251. reserving a groove; 2252. a moving groove;

230. a feeding box; 231. a cover plate; 2311. and a baffle plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Example 1

Referring to fig. 1 to 10, there is provided a dual-rail sliding type fodder feeding apparatus, including a guide device 100 and a feeding device 200 disposed at the bottom of the guide device 100, the guide device 100 includes a left rail 110, a right rail 120 is disposed at the right side of the left rail 110, a plurality of tooth grooves 121 are respectively disposed at the top of the left rail 110 and the top of the right rail 120 at equal intervals along the length direction thereof, the feeding device 200 at least includes:

the transmission mechanism 210 comprises a left transmission frame 212, a right transmission frame 213 is arranged on the right side of the left transmission frame 212, two connecting blocks 214 are welded inside the left transmission frame 212 and the right transmission frame 213, the top of each connecting block 214 is rotatably connected with a guide wheel 2141, each guide wheel 2141 is used for rolling in the corresponding guide groove 122, a rotating hole 2131 is formed in the top of each of the left transmission frame 212 and the right transmission frame 213, a transmission shaft 211 is rotatably connected in each rotating hole 2131, transmission gears 2111 are arranged at positions, close to two ends, of each transmission shaft 211, the transmission gears 2111 are meshed with the corresponding tooth spaces 121, and a motor 2112 is arranged at the right end of each transmission shaft 211;

when the transmission mechanism 210 of this embodiment is used specifically, the motor 2112 is powered on, so that the transmission shaft 211 is driven to rotate by working, at this time, the transmission gear 2111 and the transmission shaft 211 rotate synchronously, and the left transmission frame 212 and the right transmission frame 213 are driven to move along the left guide rail 110 and the right guide rail 120 where the transmission gear and the transmission shaft 211 are located respectively by the meshing force of the tooth grooves 121, in the moving process, the guide wheel 2141 rotates under the action of the friction force of the inner wall of the guide groove 122, because the rotating friction force is smaller than the sliding friction force, the energy consumption in the transmission process is reduced by the rotation of the guide wheel 2141, the abrasion to the guide groove 122 is reduced, the service life of the guide groove 122 is prolonged, and meanwhile, the guide groove 122 and the guide wheel 2141 are closely attached to each other, so that the large-amplitude shaking caused by too large gap in the transmission process is avoided.

Further, the supporting mechanism 220, two corners of the front side of the supporting mechanism 220 are provided with the rotating supporting plate 221, the bottom of the rotating supporting plate 221 is provided with a rotating rod 2211, the rotating rod 2211 is used for being rotatably connected with the rotating frame 223, the rotating frame 223 is fixedly welded with the supporting mechanism 220, two corners of the rear side of the supporting mechanism 220 are provided with a slot 225, the slot 225 is in inserting connection with the clamping supporting plate 222, a clamping device 224 is arranged in the slot 225, the clamping device 224 comprises a moving rod 2241, two sides of the slot 225 are provided with moving grooves 2252, the moving rod 2241 is in sliding connection with the moving grooves 2252, the front side of the moving rod 2241 is provided with a clamping block 2242, the bottom of the clamping supporting plate 222 is provided with a clamping groove 2221, the clamping block 2242 is in clamping connection with the clamping groove 2221, the front side of the slot 225 is provided with a reserved groove 2251, the reserved groove 2251 is used for providing a compression space for the spring 2243, and the spring 2243 is arranged at the front side of the clamping block 2242.

The latch device 224 of this embodiment's theory of operation does, joint through fixture block 2242 and draw-in groove 2221 is fixed joint backup pad 222, then promote fixture block 2242 through extrusion movable rod 2241 and move along, spring 2243 receives the extrusion of fixture block 2242 simultaneously, fixture block 2242 gets into and breaks away from with draw-in groove 2221 in the groove 2251, supporting mechanism 220 receives the action of gravity and breaks away from joint backup pad 222 this moment, and it counter-clockwise rotation to duplex winding dwang 2211, thereby reach the purpose that makes supporting mechanism 220 break away from joint backup pad 222 fast.

When the supporting mechanism 220 of this embodiment is specifically used, supporting mechanism 220 is fixed with left driving frame 212 and right driving frame 213 respectively through rotating supporting plate 221 and joint supporting plate 222, then left driving frame 212 and right driving frame 213 drive supporting mechanism 220 when removing and remove, make whole process become assembly line work through the removal of supporting mechanism 220 to improve the efficiency of work, increase feed output.

A feeding box 230, the feeding box 230 is arranged at the central position of the top of the supporting mechanism 220, and the feeding box 230 is used for filling the fodder.

The motor 2112 that this embodiment relates to can adopt the three-phase asynchronous motor of model YB3-100L-2, and its supporting power and control switch also can be provided by the producer, in addition, the utility model discloses in relate to circuit and electronic components and module and be prior art, technical personnel in the field can realize completely, need not proud, the utility model discloses the content of protecting does not relate to the improvement to inner structure and method either.

In addition, a triangular structure is formed among the rotating support plate 221, the clamping support plate 222, the left transmission frame 212 and the support mechanism 220, and the stability of the support mechanism 220 is improved through the triangular structure.

Example 2

In order to realize that the latch of the latch device automatically disengages from the latch slot, please refer to fig. 2, 10 and 11, the bottom of the left rail 110 and the right rail 120 are respectively provided with a pressing frame 130, the pressing frame 130 comprises a sliding block 131, the bottom of the sliding block 131 is provided with a connecting plate 132, the front side of the bottom of the connecting plate 132 is provided with a pressing block 1321, the pressing block 1321 and the moving rod 2241 are at the same horizontal height, and the slide block 131 is internally provided with a slide groove 1311, the slide groove 1311 is connected with the left guide rail 110 and the right guide rail 120 in a sliding way, the position of the pressing frame 130 is adjusted by moving the slider 131, two fixing bolts 1312 are threadedly coupled to the top of the slider 131, the sliders 131 are then fixed to the left and right rails 110 and 120 respectively by tightening the fixing bolts 1312, therefore, during the movement of the supporting mechanism 220, the moving rod 2241 hits against the pressing frame 130, the pressing force is generated to the moving rod 2241 by the pressing block 1321, so that the latch 2242 of the latch 224 is automatically separated from the latch 2221 by mechanical movement.

Further, the fixing bolt 1312 is provided with a plurality of strip-shaped lines around the nut, so that the friction force on the surface of the nut is increased, and the sliding is avoided when the fixing bolt 1312 is screwed.

Example 3

In order to ensure that the fodder in the feeding box is leaked out as little as possible during the moving process, please refer to fig. 7 and 8, the vertical height of the front side of the feeding box 230 is higher than the vertical height of the rear side thereof, and the height of the front side of the feeding box 230 is raised because the feeding box 230 is inclined towards the front side during the moving process, so as to avoid the fodder in the feeding box from being spilled out to cause waste.

Further, the top of feeding box 230 is equipped with apron 231, and apron 231 is used for sealed feeding box 230, avoids removing the in-process fodder and spills, and the front side and the feeding box 230 of apron 231 rotate to be connected, and during the use, supporting mechanism 220 revolves the anticlockwise rotation of rotating rod 2211, and apron 231 receives the impact force effect rotation of fodder in feeding box 230 this moment and makes the bottom produce the gap, and the fodder flows through the gap to reach the purpose of feeding.

Specifically, the rear side of apron 231 is equipped with baffle 2311, and baffle 2311 plays the resistance effect that removes to the fodder to reduce the impact force, avoid the impact force too big to become the damage to apron 231.

The embodiment also provides a double-guide-rail sliding type feed feeding method, which comprises any one of the double-guide-rail sliding type feed feeding equipment, and comprises the following steps:

(I) a filler conveying stage:

s1, firstly, feeding the feed into the feeding box 230, then moving the pressing frame 130 to a position to be fed, and then screwing the fixing bolt 1312 to fix the sliding block 131 with the left guide rail 110 and the right guide rail 120 respectively;

s2, after the sliding block 131 is fixed, the motor 2112 is powered on, so that the motor works to drive the transmission shaft 211 to rotate;

s3, the transmission shaft 211 rotates, so that the gear 2111 is subjected to the meshing force of the tooth grooves 121 to respectively drive the left transmission frame 212 and the right transmission frame 213 to move along the left guide rail 110 and the right guide rail 120 where the left transmission frame and the right transmission frame are located;

(II) a feeding stage:

s4, the left transmission frame 212 and the right transmission frame 213 move to drive the supporting mechanism 220 to move, and the whole process becomes assembly line operation through the movement of the supporting mechanism 220;

s5, after the supporting mechanism 220 moves to a position to be fed, the movable rod 2241 hits the pressure applying frame 130, and the pressure applying block 1321 generates extrusion force on the movable rod 2241, so that the fixture block 2242 of the clamping device 224 automatically separates from the clamping slot 2221 by mechanical movement;

s6, after the locking block 2242 automatically disengages from the locking slot 2221, the supporting mechanism 220 is disengaged from the locking supporting plate 222 by gravity, and rotates counterclockwise around the rotating rod 2211;

s7, in the process of anticlockwise rotating of the supporting mechanism 220, the cover plate 231 rotates under the action of the impact force of the feed in the feeding box 230 to enable the bottom to form a gap, and the feed flows out of the gap and falls into a position to be fed.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. A feeding method based on double-guide-rail sliding type feed feeding equipment is characterized in that: based on double-guide-rail sliding type feed feeding equipment, the double-guide-rail sliding type feed feeding equipment comprises a guide device (100) and a feeding device (200) arranged at the bottom of the guide device (100), the guide device (100) comprises a left guide rail (110), the right side of the left guide rail (110) is provided with a right guide rail (120), the top of the left guide rail (110) and the top of the right guide rail (120) are respectively provided with a plurality of tooth sockets (121) at equal intervals along the length direction of the top, and the feeding device (200) at least comprises:

the transmission mechanism (210) comprises a left transmission frame (212), a right transmission frame (213) is arranged on the right side of the left transmission frame (212), two connecting blocks (214) are welded inside the left transmission frame (212) and the right transmission frame (213), the top of each connecting block (214) is rotatably connected with a guide wheel (2141), the guide wheels (2141) are used for rolling in a guide groove (122), rotating holes (2131) are formed in the tops of the left transmission frame (212) and the right transmission frame (213), a transmission shaft (211) is rotatably connected in each rotating hole (2131), transmission gears (2111) are arranged at positions, close to two ends, of the transmission shaft (211), the transmission gears (2111) are connected with the tooth grooves (121) in a meshed mode, and a motor (2112) is arranged at the right end of the transmission shaft (211);

supporting mechanism (220), two turnings of supporting mechanism (220) front side are equipped with rotation backup pad (221), rotation backup pad (221) bottom is equipped with dwang (2211), dwang (2211) are used for rotating with rotating turret (223) and are connected, rotating turret (223) with supporting mechanism (220) welded fastening, slot (225) have been seted up at two turnings of supporting mechanism (220) rear side, slot (225) and joint backup pad (222) are pegged graft the cooperation, be equipped with latch device (224) in slot (225), latch device (224) includes carriage release lever (2241), the both sides of slot (225) are equipped with shifting chute (2252), carriage release lever (2241) with shifting chute (2252) sliding connection, the front side of carriage release lever (2241) is equipped with fixture block (2242), draw-in groove (2221) has been seted up to joint backup pad (222) bottom, the clamping block (2242) is matched with the clamping groove (2221) in a clamping mode, a reserved groove (2251) is formed in the front side of the inserting groove (225), the reserved groove (2251) is used for providing a compression space for the spring (2243), and the spring (2243) is arranged on the front side of the clamping block (2242);

a feeding box (230), wherein the feeding box (230) is arranged at the central position of the top of the supporting mechanism (220);

a cover plate (231) is arranged at the top of the feeding box (230), and the front side of the cover plate (231) is rotatably connected with the feeding box (230);

the bottom parts of the left guide rail (110) and the right guide rail (120) are respectively provided with a pressure applying frame (130), each pressure applying frame (130) comprises a sliding block (131), and the bottom part of each sliding block (131) is provided with a connecting plate (132);

a pressing block (1321) is arranged on the front side of the bottom of the connecting plate (132);

the method comprises the following steps:

(I) a filler conveying stage:

s1, firstly, feeding the feed into the feeding box (230), then moving the pressing frame (130) to a position to be fed, and then screwing the fixing bolt (1312) to fix the sliding block (131) with the left guide rail (110) and the right guide rail (120) respectively;

s2, after the sliding block (131) is fixed, the motor (2112) is connected with a power supply, so that the motor works to drive the transmission shaft (211) to rotate;

s3, the transmission shaft (211) rotates, so that the gear (2111) is subjected to the action of the meshing force of the tooth grooves (121) to respectively drive the left transmission frame (212) and the right transmission frame (213) to move along the left guide rail (110) and the right guide rail (120) where the gear and the right transmission frame are located;

(II) a feeding stage:

s4, the left transmission frame (212) and the right transmission frame (213) move to drive the supporting mechanism (220) to move, and the whole process becomes assembly line operation through the movement of the supporting mechanism (220);

s5, after the supporting mechanism (220) moves to a position to be fed, the moving rod (2241) hits the pressing frame (130), and the pressing block (1321) generates pressing force on the moving rod (2241), so that the clamping block (2242) of the clamping device (224) is automatically separated from the clamping groove (2221) through mechanical movement;

s6, after the clamping block (2242) is automatically separated from the clamping groove (2221), the supporting mechanism (220) is separated from the clamping supporting plate (222) under the action of gravity and rotates anticlockwise around the rotating rod (2211);

s7, in the process of anticlockwise rotating of the supporting mechanism (220), the cover plate (231) rotates under the action of the impact force of the feed in the feeding box (230) to enable the bottom to form a gap, and the feed flows out of the gap and falls into a position to be fed.

2. The feeding method based on the double-guide-rail sliding type feed feeding equipment as claimed in claim 1, wherein: the vertical height of the front side of the feeding box (230) is higher than that of the rear side thereof.

3. The feeding method based on the double-guide-rail sliding type feed feeding equipment as claimed in claim 1, wherein: the rear side of the cover plate (231) is provided with a baffle plate (2311).

4. The feeding method based on the double-guide-rail sliding type feed feeding equipment as claimed in claim 1, wherein: a triangular structure is formed among the rotating support plate (221), the clamping support plate (222), the left transmission frame (212) and the support mechanism (220).

5. The feeding method based on the double-guide-rail sliding type feed feeding equipment according to claim 3 or 4, characterized in that: a sliding groove (1311) is formed in the sliding block (131), the sliding groove (1311) is connected with the left guide rail (110) and the right guide rail (120) in a sliding mode, and two fixing bolts (1312) are connected to the top of the sliding block (131) in a threaded mode.

6. The feeding method based on the double-guide-rail sliding type feed feeding equipment as claimed in claim 5, wherein: and a plurality of strip-shaped grains are arranged around the nut of the fixing bolt (1312).

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