CN212232969U - Lollipop feeding device - Google Patents

Abstract

The utility model discloses a lollipop stick feeding device, which comprises a hopper, a separation driving device and a driving assembly, wherein two sides of the hopper extend outwards to form a feeding inclined plane, and the hopper is internally matched with the feeding inclined plane to form at least one feeding channel suitable for a stick to pass through; the driving assembly is matched with the feeding inclined plane and extends to the side edge of the inlet of at least one feeding channel from the plug port on the side wall of the hopper; the separation driving device is arranged outside the hopper to drive the driving assembly to reciprocate at the insertion port, so that the rod piece is conveyed to the discharge port of the hopper through the feeding channel. Set up at least a pan feeding passageway through at hopper fit with excellent spare in to dispose drive assembly outside the hopper, drive assembly drives the drive assembly who pegs graft into the hopper and carries out reciprocating motion by drive assembly, avoids excellent spare at whereabouts in-process draw-in groove, and then drives the smooth and easy whereabouts of excellent spare, is used for solving among the prior art excellent device structure complicacy under the lolly, processing cost is higher, excellent efficiency and lower excellent quality problem down.

Description

Lollipop feeding device

Technical Field

The utility model relates to a lollipop manufacture equipment technical field, concretely relates to stick device under lollipop.

Background

Traditional lollipop adopts artifical stick down mostly, and production efficiency is lower, and stick in-process under, traditional artifical stick down, go out stick appear stick spare slope easily or stick uneven etc. lower stick lower condition of quality down, and influence subsequent excellent effect of inserting.

At present, although a stick device is arranged on a lower stick of a lollipop, the stick device is controlled by an improved gradiometer mostly, and the lower stick device adopting the gradiometer is complex in structure, high in processing cost and low in stick discharging efficiency.

Disclosure of Invention

An object of the utility model is to provide a stick device under lollipop sets up an at least pan feeding passageway through at the hopper in-coordination stick spare to dispose drive assembly outside the hopper, drive assembly by drive assembly drive grafting into the drive assembly of hopper carries out reciprocating motion, avoids the draw-in groove phenomenon of stick spare at the whereabouts in-process, and then drives the smooth and easy whereabouts of stick spare, with the stick device structure complicacy under the lollipop among the solution prior art, the processing cost is higher, stick efficiency reaches the lower problem of stick quality down.

In order to achieve the above purpose, the utility model adopts the following technical means to implement:

the lollipop stick falling device comprises a hopper, a separation driving device and a driving assembly, wherein two sides of the hopper extend outwards to form a feeding inclined plane, and the hopper is internally matched with the feeding inclined plane to form at least one feeding channel suitable for a stick to pass through; the driving assembly is matched with the feeding inclined plane and extends to the side edge of the inlet of at least one feeding channel from the plug port on the side wall of the hopper; the separation driving device is arranged outside the hopper to drive the driving assembly to reciprocate at the insertion port, so that the rod piece is conveyed to the discharge port of the hopper through the feeding channel.

Two sides of the hopper extend outwards to form a feeding inclined plane, and a rod piece slides into the hopper from the feeding inclined plane by using gravity, so that the phenomenon that a rod feeding process is too complicated is avoided, and the rod feeding and the rod discharging are facilitated; the feeding inclined plane is matched with the inside of the hopper to form at least one feeding channel suitable for the rod pieces to pass through, so that a plurality of rod pieces can fall down simultaneously, the rod pieces can be pushed quickly and smoothly, the production efficiency is improved, the rod pieces entering the hopper are arranged in order by the feeding inclined plane and the separation driving device before the rod pieces are pushed down, the rod pieces are orderly pushed down through the feeding channel, the damage to the rod pieces is avoided, the rod pieces entering the hopper are prevented from being scattered too much, the subsequent rod inserting is influenced, the structure is simplified, the processing cost is saved, and the rod inserting quality is effectively improved; the driving assembly is matched with the feeding inclined plane, extends to the side edge of at least one inlet of the feeding channel from the insertion port on the side wall of the hopper, and feeds the rod piece into the feeding channel, so that the work is reduced, and the rod piece is effectively prevented from being retained at the inlet of the feeding channel to influence the rod feeding; dispose drive assembly outside the hopper, drive assembly by drive assembly drives the drive assembly who pegs graft into the hopper and carries out reciprocating motion, avoids the draw-in groove phenomenon of stick at the whereabouts in-process, and then drives smooth and easy whereabouts of stick, stick and play excellent stability under improving, the phenomenon that stick does not flow is avoided appearing, realizes from the stick that flows down through gravity, prevents directly to apply pressure in stick, causes the damage to stick, simplifies the structure, reduces operation, effectively raises the efficiency.

Preferably, dispose reposition of redundant personnel subassembly in the hopper, the cooperation of reposition of redundant personnel subassembly top the hopper inside wall, by pan feeding passageway entry orientation hopper pan feeding mouth forms the tapering bellying, the bellying lowest order is not less than the pan feeding passageway entry. Set up the bellying extreme lower level and be not less than the pan feeding passageway entry, the stick spare that gets into in the hopper is shunted by the toper bellying of reposition of redundant personnel subassembly shape, by pan feeding inclined plane landing to bellying, follows the smooth landing of bellying to the pan feeding passageway again, makes the stick spare that gets into in the hopper can landing to the pan feeding passageway smoothly, prevents the condition that stick spare blockked up, is detained, influences stick down.

Preferably, the feeding channel is formed between the flow dividing assembly and the inner side wall of the hopper. Avoid the interface bore too big, make the stick directly drop out the hopper through the interface, or block between drive assembly and hopper.

Preferably, the feeding channel is formed between the flow dividing assembly and the driving assembly. The processing and the assembly are convenient, and the material is saved.

Preferably, a feeding inclined angle is formed between the feeding inclined plane and the central shaft of the hopper, and the feeding inclined angle is 15-85 degrees. The rod piece can smoothly slide to the feeding channel by utilizing gravity, so that blockage is avoided, and the rod arranging quality and the rod arranging efficiency are improved.

Preferably, a blanking inclination angle is formed between the boss and the feeding inclination surface, and the blanking inclination angle is 20-170 degrees. The blockage is avoided, the feeding inclination angle is matched, the larger the feeding inclination angle is, and the larger the blanking inclination angle formed between the protruding part and the feeding inclination angle is.

Preferably, the feeding inclination angle is 40-60 degrees, and the blanking inclination angle is 80-120 degrees. Utilize gravity to realize down excellent fast, avoid the too big stick member whereabouts of influence of pan feeding angle of inclination, or pan feeding angle of inclination undersize causes the jam, improve down excellent efficiency and lower excellent quality.

Preferably, the separation driving device adopts a pneumatic driving device, and a pushing assembly of the pneumatic driving device is connected with the driving assembly so as to drive the driving assembly to move up and down along the insertion port. Adopt pneumatic drive, promote drive assembly by pneumatic drive device's promotion subassembly, make drive assembly reciprocate along the interface, avoid the draw-in groove phenomenon of stick in the whereabouts in-process, and then drive the smooth and easy whereabouts of stick, simplify the operation procedure, effectively improve production efficiency.

Preferably, the separation driving device adopts a vibration driving device, and the vibration driving device is connected with the driving assembly to drive the driving assembly to vibrate at two sides of the hopper. Adopt vibration drive, vibration drive arrangement connects drive assembly, drive assembly passes through the interface and is connected with the hopper, generate mechanical vibration by vibration drive arrangement, and apply this mechanical vibration in the hopper through drive assembly, and then make the excellent spare in the hopper vibrate through the vibration and fall into in the pan feeding passageway in order, avoid the draw-in groove phenomenon of excellent spare in the whereabouts in-process, and then drive the smooth and easy whereabouts of excellent spare, simplify the operation, it is swift to realize, smooth and easy lower excellent propelling movement, the phenomenon that the excellent spare does not flow is avoided appearing, the production efficiency is effectively improved.

Preferably, the separation driving device adopts an electric driving device, and the electric driving device is connected with the driving assembly so as to drive the driving assembly to perform reciprocating swing on two sides of the hopper. Adopt electric drive, electric drive connects drive assembly, drives drive assembly by electric drive, carries out inside outside reciprocating swing at the relative hopper center pin in hopper both sides by electric drive, avoids the draw-in groove phenomenon of stick in the whereabouts in-process, and then drives the smooth and easy whereabouts of stick, and the simplified operation process realizes swift, smooth and easy lower stick propelling movement, avoids appearing the phenomenon that the stick does not flow, effectively improves production efficiency.

The utility model discloses at least, have following useful part:

two sides of the hopper extend outwards to form a feeding inclined plane, and a rod piece slides into the hopper from the feeding inclined plane by using gravity, so that the phenomenon that a rod feeding process is too complicated is avoided, and the rod feeding and the rod discharging are facilitated;

the feeding inclined plane is matched with the inside of the hopper to form at least one feeding channel suitable for the rod pieces to pass through, so that a plurality of rod pieces can fall down simultaneously, the rod pieces can be pushed quickly and smoothly, the production efficiency is improved, the rod pieces entering the hopper are arranged in order by the feeding inclined plane and the separation driving device before the rod pieces are pushed down, the rod pieces are orderly pushed down through the feeding channel, the damage to the rod pieces is avoided, the rod pieces entering the hopper are prevented from being scattered too much, the subsequent rod inserting is influenced, the structure is simplified, the processing cost is saved, and the rod inserting quality is effectively improved;

the driving assembly is matched with the feeding inclined plane, extends to the side edge of at least one inlet of the feeding channel from the insertion port on the side wall of the hopper, and feeds the rod piece into the feeding channel, so that the work is reduced, and the rod piece is effectively prevented from being retained at the inlet of the feeding channel to influence the rod feeding;

dispose drive assembly outside the hopper, drive assembly by drive assembly drives the drive assembly who pegs graft into the hopper and carries out reciprocating motion, avoids the draw-in groove phenomenon of stick at the whereabouts in-process, and then drives smooth and easy whereabouts of stick, stick and play excellent stability under improving, the phenomenon that stick does not flow is avoided appearing, realizes from the stick that flows down through gravity, prevents directly to apply pressure in stick, causes the damage to stick, simplifies the structure, reduces operation, effectively raises the efficiency.

Drawings

Fig. 1 is a side view of a preferred embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a preferred embodiment of the present invention;

in the figure: 100. a hopper; 101. a feeding channel; 1011. a feed channel inlet; 1012. a feed channel outlet; 102. a flow diversion assembly; 1021. a boss portion; 103. an interface; 104. a rod outlet channel; 105. a feeding part; 1051. a hopper inlet; 1052. a feeding inclined plane; 1053. blanking inclination angle; 106. a base portion; 1061. a discharge port of the hopper; 107. a mounting plate; 1071. fixing the connecting position; 200. a separation drive device; 201. a pneumatic drive; 2011. a pushing assembly; 202. a drive assembly; 300. a rod feeding mechanism; 301. a rod feeding cylinder; 302. a push rod; 303. a rod feeding assembly; 304. a connecting member; 305. a cylinder support; 306. a protective baffle; 3071. fixing a plate; 3072. and a limiting hole.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention easier to understand, the present invention will be described in further detail with reference to the following embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

Examples

Referring to fig. 1-2, the lollipop lowering device includes a hopper 100, a separating drive 200, and a drive assembly 202.

Hopper 100 both sides outwards extend and form pan feeding inclined plane 1052, and hopper 100 inside cooperation pan feeding inclined plane forms at least one pan feeding passageway 101 that is suitable for the stick to pass through, and as preferred example, hopper 100 is from top to bottom including pan feeding portion 105, the basilar part 106 of connecting as an organic whole, the basilar part 106 of hopper 100 adopts square or rectangular cylinder, and pan feeding portion 105 is outwards extended in order to form the pan feeding inclined plane by the both sides side top of basilar part 106, makes pan feeding portion 105 cross-section be the inverted trapezoid. The driving assembly 202 is coupled to the material feeding inclined plane and extends from the insertion port 103 of the sidewall of the hopper 100 to the side of the inlet 1011 of the at least one material feeding channel, preferably, the driving assembly can be disposed on both sides of the hopper corresponding to the material feeding inclined plane.

The separation driving device 200 is installed outside the hopper 100 to drive the driving assembly 202 to reciprocate at the insertion port 103, so that the rod pieces are conveyed to the hopper discharge port 1061 through the feeding channel 101.

As a preferred example, the driving assembly 202 is connected to the separation driving device 200, specifically, the separation driving device 200 can be installed at two sides outside the hopper 100, the driving assembly 202 is installed at the top or side of the separation driving device 200 through a fixing component, and the separation driving device 200 drives the driving assembly 202 to reciprocate at the insertion port 103; the separation driving device 200 adopts at least one of a pneumatic driving device 201, a vibration driving device and an electric driving device, according to actual different requirements, the conveying speed of the rod piece is combined, the separation driving device 200 drives the driving assembly 202 to move, the clamping groove phenomenon of the rod piece in the falling process is avoided, the rod piece is driven to fall smoothly, the stability of the rod piece and the rod outlet is improved, the phenomenon that the rod piece does not flow is avoided, the self-flow-down rod is realized, the structure is simplified, the operation procedures are reduced, and the efficiency is effectively improved.

Preferably, dispose reposition of redundant personnel subassembly 102 in the hopper 100, reposition of redundant personnel subassembly 102 top cooperation hopper 100 inside wall, form tapering bellying 1021 by pan feeding passageway entry 1011 towards hopper pan feeding mouth 1051, make the excellent piece in the hopper 100 shunt through bellying 1021, through bellying 1021 landing to pan feeding passageway 101 when falling to hopper 100 middle part, or directly bounce back hopper 100 inside wall, and fall into pan feeding passageway 101 through separation drive arrangement 200, avoid the excellent piece to be detained in hopper 100, or directly block and cause the jam between hopper 100 and pan feeding passageway 101, improve reason stick quality and reason stick efficiency. The lowest position of boss 1021 is not lower than the inlet 1011 of the feed channel, although, in the case of negligible processing errors, the lowest position of boss 1021 may be slightly lower than inlet 1011 of the feed channel. The rod piece entering the hopper flows through the bulge part, and when the rod piece is separated from the feeding inclined plane, the rod piece can slide to the feeding channel through the bulge part, so that the rod piece entering the hopper 100 can smoothly slide to the feeding channel 101, and the rod piece is prevented from being blocked and retained to influence the rod piece.

Here, the flow distribution assembly 102 may be configured as a cylinder with a hollow cavity in the middle or directly configured as a solid, and the tapered convex portion 1021 may be configured as a solid or directly configured as a tapered frame formed by connecting a plurality of connecting members 304. The flow diversion assembly 102 can take any form of cylindrical shape, circular, rectangular, etc., herein.

As a preferred example of the present invention, in order to avoid the too large caliber of the insertion port 103, the rod member is dropped out of the hopper 100 through the insertion port 103, or the rod member is clamped between the driving assembly 202 and the hopper 100, the feeding channel 101 is formed between the inner side walls of the shunt assembly 102 and the hopper 100, and the inner diameter of the feeding channel 101 is not smaller than the outer diameter of the rod member according to different actual requirements. The material inlet part 105 of the hopper 100 is provided with a plug-in port 103 in cooperation with the material inlet inclined surface, and the plug-in port 103 is provided as a slit suitable for the driving component 202 to be plugged into the hopper 100, and as a preferred example, the end part of the driving component plugged into the plug-in port 103 and the material inlet inclined surface can be arranged to be positioned on the same plane; of course, the maximum gap between the insertion opening 103 and the driving assembly 202 inserted into the insertion opening 103 may be set to be not larger than the outer diameter of the rod, so as not to pass or block any rod, and the driving assembly 202 and the feeding inclined plane may not be located on the same plane.

As another preferred example of the present invention, in order to facilitate the processing and assembly and save materials, the insertion port 103 is configured to be suitable for the driving component 202 to be inserted into the hole site of the hopper 100, the feeding channel 101 is formed between the diversion component 102 and the driving component 202, the inner diameter of the feeding channel 101 is not smaller than the outer diameter of the rod, the end of the driving component inserted into the insertion port 103 and the inclined feeding surface are located on the same plane, and when the driving components move in opposite directions, the inner diameter of the formed feeding channel 101 is not smaller than the outer diameter of the rod.

As one preferred embodiment of the present invention, the feeding channel 101 has two positions, and is formed between the two side feeding inclined planes and the middle flow assembly 102. Set up drive assembly in hopper both sides, separation drive arrangement drives drive assembly and carries out reciprocating motion in the interface of hopper both sides, for example, exerts mechanical vibration in the hopper through drive assembly, or carries out reciprocating motion from top to bottom or inside and outside through drive assembly along the interface, avoids the draw-in groove phenomenon of stick in the whereabouts in-process, and then drives the smooth and easy whereabouts of stick.

As a second preferred embodiment of the present invention, a feeding channel 101 can be formed, at this time, a slit suitable for the rod can be opened in the middle of the flow dividing assembly 102 to form the feeding channel, and the top of the flow dividing assembly may not be provided with a protrusion: firstly, if the socket 103 is a hole site suitable for the driving assembly 202 to be plugged into the hopper 100, the shunt assembly 102 can be arranged to be attached to the driving assembly 202, or a gap between the shunt assembly and the driving assembly is smaller than the outer diameter of the rod; secondly, if the insertion port 103 is a slit suitable for the driving assembly 202 to be inserted into the hopper 100, the shunt assembly 102 is attached to the inner side wall of the hopper 100, or the gap between the shunt assembly and the hopper is smaller than the outer diameter of the rod.

On the basis of the above example, as an extended implementation example of the present invention, a feeding channel 101 may be formed, and at this time, the diverting assembly 102 may not be provided: first, when the socket 103 is configured to accommodate insertion of the drive assembly 202 into a slot in the hopper 100, the feed channel 101 is formed by an inner sidewall of the hopper 100; secondly, when the insertion port 103 is set to a hole position suitable for the driving module 202 to be inserted into the hopper 100, the feeding channel 101 is formed between the driving module and the inner sidewall of the hopper (only one driving module is set at this time) or between two driving modules 202.

When a feeding channel is formed, one or two driving assemblies can be arranged, and the separating driving device drives the driving assemblies to reciprocate at the insertion ports on the side edges of the hopper, so that the phenomenon of clamping grooves of the rod pieces in the falling process is avoided, and the rod pieces are driven to fall smoothly.

As the third embodiment of the present invention, more than two feeding channels 101 can be formed, at this time, a slit suitable for the rod can be opened at the middle of the diversion assembly 102 to form the feeding channel, or a plurality of diversion assemblies 102 are disposed at intervals, and the middle feeding channel 101 is formed between any two diversion assemblies 102. Here, carry out reciprocating motion through the drive assembly of symmetry setting in the hopper both sides, avoid the draw-in groove phenomenon of stick in whereabouts in-process, and then drive the smooth and easy whereabouts of stick.

As an example, a feeding inclination angle is formed between the feeding inclined surface 1052 and the central axis of the hopper 100, preferably 15 to 85 °, and in order to avoid blockage, the feeding inclination angle is set to 20 to 170 ° according to the feeding inclination angle, wherein the larger the feeding inclination angle is, the larger the discharging inclination angle 1053 formed between the protrusion 1021 and the feeding inclined surface is.

In order to realize rapid rod descending by utilizing gravity, avoid the phenomenon that a rod piece falls down due to the fact that the inclination angle of a feeding material is too large or blockage is caused due to the fact that the inclination angle of the feeding material is too small, and improve rod descending efficiency and rod descending quality, the inclination angle of the feeding material is preferably 40-60 degrees, and the inclination angle of the blanking material is preferably 80-120 degrees.

As a further preferable implementation example, the feeding inclination angle is preferably 45-50 degrees, and the blanking inclination angle is 90-100 degrees.

As one preferable example, the pneumatic driving is adopted, the pushing assembly 2011 of the pneumatic driving device 201 is connected with the driving assembly 202, specifically, the driving assembly 202 can be mounted on the top of the pneumatic driving device 201 through a fixing part, and the pushing assembly 2011 of the pneumatic driving device 201 pushes the driving assembly 202, so that the driving assembly 202 moves up and down along the socket 103, thereby avoiding the phenomenon of clamping groove of the rod in the falling process and further driving the rod to fall smoothly. The pneumatic driving device 201 is a conventional pneumatic driver, and according to different actual requirements, the structure of the lollipop feeding device, the conveying speed of the lollipop, and the like are matched, and the movement speed is preset to drive the driving assembly 202 to reciprocate.

During the implementation, in the stick got into hopper 100 through hopper pan feeding mouth 1051, the stick of hopper 100 both sides rolled along the pan feeding inclined plane and fell, and middle part stick is shunted through reposition of redundant personnel subassembly 102, falls into the pan feeding passageway respectively by reposition of redundant personnel subassembly, when falling to both sides drive assembly 202 top or side, reciprocates along interface 103 through drive assembly 202, avoids the draw-in groove phenomenon of stick at the whereabouts in-process, and then drives the smooth and easy whereabouts of stick.

As another preferred example, the separation driving device 200 employs a vibration driving device, and the vibration driving device is connected to the driving assembly 202 to drive the driving assembly 202 to vibrate at two sides of the hopper 100. Adopt vibration drive, vibration drive arrangement connects drive assembly 202, and drive assembly 202 passes through interface 103 to be connected in hopper 100, generates mechanical vibration by vibration drive arrangement to exert this mechanical vibration in hopper 100 through drive assembly 202, avoid the draw-in groove phenomenon of stick in the whereabouts in-process, and then drive the smooth and easy whereabouts of stick. The vibration driving device adopts a conventional vibration driver, and according to different actual requirements, the frequency and the amplitude are preset to drive the driving assembly 202 to reciprocate by matching with the structure of the lollipop feeding device, the conveying speed of the lollipops and the like.

During the implementation, in the stick got into hopper 100 through hopper pan feeding mouth 1051, the stick of hopper 100 both sides rolled along the pan feeding inclined plane, and middle part stick is shunted through reposition of redundant personnel subassembly 102, falls into the pan feeding passageway respectively by reposition of redundant personnel subassembly, generates mechanical vibration by vibration drive arrangement to exert this mechanical vibration in hopper 100 through drive assembly 202, avoid the draw-in groove phenomenon of stick at the whereabouts in-process, and then drive the smooth and easy whereabouts of stick.

As another preferred example, the separation driving device 200 is an electric driving device, and the electric driving device is connected to the driving assembly 202 to drive the driving assembly 202 to swing back and forth on two sides of the hopper 100. The hopper is driven by an electric motor, the electric driving device is connected with the driving assembly 202, and the driving assembly 202 is driven by the electric driving device to swing back and forth on two sides of the hopper 100. That is, the rod entering the hopper 100 swings in opposite directions when sliding down to the top of the driving component 202, and specifically swings inward and outward along the insertion port 103 relative to the central axis of the hopper by the driving component 202, so as to avoid the clamping groove phenomenon of the rod in the falling process, and further drive the rod to fall smoothly. The electric drive device adopts a conventional electric driver, and according to different actual requirements, the swing speed is preset to drive the drive assembly 202 to reciprocate in cooperation with the structure of the lollipop feeding device, the conveying speed of the lollipop and the like.

During the implementation, in the stick got into hopper 100 through hopper pan feeding mouth 1051, the stick of hopper 100 both sides rolled along the pan feeding inclined plane and fell, and middle part stick is shunted through reposition of redundant personnel subassembly 102, falls into the pan feeding passageway respectively by reposition of redundant personnel subassembly, when falling to both sides drive assembly 202 top or side, carries out inside outside swing along interface 103 through drive assembly 202, avoids the draw-in groove phenomenon of stick at the whereabouts in-process, and then drives the smooth and easy whereabouts of stick.

It is not right under the prerequisite that the stick device caused the restriction under the lollipop, according to the different requirements of in-service use, can select to adopt pneumatic drive, vibration drive, any or adopt wherein two kinds or above combination of electric drive alone, adopt separation drive arrangement's drive order can carry out successively replacement, drive assembly through arbitrary drive arrangement and carry out reciprocating motion, the cooperation of another drive arrangement of rethread or other drive arrangement avoids the draw-in groove phenomenon of stick at the whereabouts in-process, and then drives the smooth and easy whereabouts of stick.

Preferably, a rod feeding mechanism 300 and a rod discharging channel 104 are provided, the rod discharging channel 104 is installed on one side of the hopper 100 corresponding to the material feeding channel 101, and one end of the rod discharging channel 104 far away from the material feeding channel is connected with an external sugar pressing and forming device, a rod inserting device, or is transmitted to a subsequent operation device such as a sugar forming device through an externally attached transmission mechanism, so as to complete a subsequent rod inserting process. It should be noted that, corresponding to the outlet of the feeding channel, the rod outlet channel is communicated with the discharge port of the hopper, so that the rod piece can be conveyed along the rod outlet channel mainly, and according to different actual requirements, the baffle plate can be arranged in the middle of the rod outlet channel to form at least one channel by matching with the feeding channel.

The rod feeding mechanism 300 is installed at the other side of the hopper 100 corresponding to the feeding channel 101, opposite to the rod discharging channel, and is used for conveying rod pieces falling out of the hopper discharge port 1061 to the rod discharging channel 104. Preferably, the rod member is conveyed in a direction perpendicular to the direction of movement of the drive assembly 202 to further reduce rod pushing errors and improve subsequent rod insertion quality. The rod feeding mechanism 300 and the rod discharging channel 104 are respectively arranged at two sides of the hopper 100 corresponding to the material inlet channel 101, and the arrangement positions of the rod feeding mechanism and the material outlet channel can be replaced with each other.

The hopper 100 is connected to the rod outlet channel 104 through a locking part, and one side of the hopper 100 near the rod outlet channel 104 is connected to an external subsequent operating device through a support plate 107, preferably, the locking part can penetrate through a fixed connection position 1071 at the bottom of the hopper to connect the rod outlet channel 104, the hopper 100 and the rod feeding mechanism 300.

Preferably, the rod feeding mechanism 300 includes a rod feeding cylinder 301, a cylinder support 305 and a rod feeding assembly 303, the rod feeding cylinder 301 is mounted at the bottom of the hopper 100 through the cylinder support 305, a protective baffle 306 is configured at an end of the cylinder support 305 far away from the rod outlet channel 104, the rod feeding assembly 303 is aligned with the outlet 1012 of the rod inlet channel and is mounted at the top of the cylinder support 305 in parallel, one end of the rod feeding assembly 303 far away from the rod outlet channel 104 is connected with a push rod 302 of the rod feeding cylinder 301 through a connecting piece 304, the protective baffle 306 can be mounted at one end of the cylinder support far away from the rod outlet channel by adopting connection modes such as clamping, threaded connection and bonding, for example, the protective baffle is arranged in an inverted 'L' shape, and the rod feeding mechanism is mounted at the side of the hopper through a fixing part.

Preferably, the rod feeding cylinder 301 is mounted on the top of the cylinder support 305 through a fixing plate 3071, the fixing plate is provided with a limiting hole corresponding to the conveying direction of the rod feeding cylinder and the outlet of the feeding channel, and the rod feeding assembly 303 is aligned to the outlet 1012 of the feeding channel through the limiting hole 3072 in the middle of the fixing plate 3071. As an example, the limiting hole 3072 penetrates through the middle of the fixing plate; or the groove is formed on the top surface or the bottom surface of the fixed plate corresponding to the feeding channel.

During implementation, the rod feeding cylinder 301 is mounted on the top of the cylinder support through the fixing plate 3071, the connecting piece 304 is disposed at the end of the push rod 302 of the rod feeding cylinder 301, one end of the rod feeding assembly 303 is aligned to the inlet channel outlet 1012 and penetrates through the limiting hole 3072 of the fixing plate 3071, the other end of the rod feeding assembly is connected with the push rod 302 through the connecting piece 304, the rod feeding cylinder 301 pushes the push rod 302 to horizontally displace through the air pump, and then the rod feeding assembly 303 is driven to reciprocate in the limiting hole 3072, so as to convey the rod at the bottom of the hopper outlet 1061 to the rod outlet channel 104.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The lollipop stick dropping device is characterized by comprising a hopper, a separation driving device and a driving assembly, wherein two sides of the hopper extend outwards to form a feeding inclined plane, and the hopper is internally matched with the feeding inclined plane to form at least one feeding channel suitable for a stick piece to pass through; the driving assembly is matched with the feeding inclined plane and extends to the side edge of the inlet of at least one feeding channel from the plug port on the side wall of the hopper; the separation driving device is arranged outside the hopper to drive the driving assembly to reciprocate at the insertion port, so that the rod piece is conveyed to the discharge port of the hopper through the feeding channel.

2. The lollipop feeding device of claim 1, wherein a diverter assembly is disposed in the hopper, the top of the diverter assembly engaging the inner sidewall of the hopper, a tapered projection being formed from the inlet of the feed channel toward the inlet of the hopper, the projection being no lower than the lowest point of the inlet of the feed channel.

3. The lollipop drop bar apparatus of claim 2, wherein the inlet channel is formed between the manifold assembly and the hopper interior side wall.

4. The lollipop lowering device of claim 2, wherein the feed channel is formed between the flow dividing assembly and the drive assembly.

5. The lollipop feeding apparatus of claim 2, wherein the feed slope angle is formed with respect to a central axis of the hopper, the feed slope angle being 15-85 °.

6. The lollipop feeding device of claim 5, wherein a feeding inclination angle is formed between the projection and the feeding inclination angle, the feeding inclination angle being 20-170 °.

7. The lollipop feeding device of claim 6, wherein the feeding slant angle is 40-60 ° and the discharging slant angle is 80-120 °.

8. The lollipop lowering device according to any of claims 1 to 7, wherein the separating drive means is a pneumatic drive means, and a pushing assembly of the pneumatic drive means is connected to the drive assembly for driving the drive assembly to move up and down along the socket.

9. The lollipop lowering device of any one of claims 1 to 7, wherein the separating drive means is a vibratory drive means, the vibratory drive means being connected to the drive assembly for driving the drive assembly to vibrate on both sides of the hopper.

10. The lollipop lowering device of any one of claims 1 to 7, wherein the separating drive means is an electric drive means, and the electric drive means is connected to the drive assembly for driving the drive assembly to oscillate back and forth on both sides of the hopper.

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