CN116902326A

CN116902326A - Dismantle convenient unloader

Info

Publication number: CN116902326A
Application number: CN202311175981.9A
Authority: CN
Inventors: 林典贞
Original assignee: Guangdong Huanyi Intelligent Manufacturing Technology Co ltd
Current assignee: Guangdong Huanyi Intelligent Manufacturing Technology Co ltd
Priority date: 2023-09-13
Filing date: 2023-09-13
Publication date: 2023-10-20
Anticipated expiration: 2043-09-13

Abstract

The invention discloses a blanking device convenient to detach, which comprises a feed box and a blanking device, wherein a blanking hole is formed in the bottom of the feed box, the blanking device comprises a blanking pipe and a blanking screw rod, the end part of the blanking pipe is arranged in the blanking hole, the blanking screw rod penetrates through the blanking pipe, a convex strip is arranged between the periphery of the blanking screw rod and the inner periphery of the blanking pipe, and the blanking screw rod is driven to rotate by a blanking driving module, so that materials in the feed box are conveyed to the blanking pipe from the blanking hole and filled into a strip-shaped packaging bag. The beneficial effects are that: the convex strips are arranged on the inner periphery of the blanking pipe and play a role in dispersing materials when the blanking screw conveys the materials.

Description

Dismantle convenient unloader

Technical Field

The invention relates to the technical field of packaging machines, in particular to a blanking device convenient to detach.

Background

In powder material production and packaging equipment, a spiral conveying mechanism is generally adopted for conveying and filling powder materials, and a conveying screw used in the spiral conveying mechanism is generally composed of a core part positioned at the center and spiral blades positioned at the periphery. In some production processes, the core part of the bag is required to be provided with a hollow structure for the functions of inflation, dust collection, bag thickness control and the like in the material conveying process. The helical blade is typically formed by cutting on the outer cylindrical surface of the bar stock.

For example, chinese patent publication No.: CN207725728U, CN212125585U et al discloses a common screw blanking device. The prior art has the following defects: 1. because the length of the blanking screw is longer, the blanking screw is easy to shake during rotation, so that the material is not smoothly conveyed, and the driving structure is easy to damage, thereby influencing the production efficiency. 2. The unloading screw rod is directly connected with drive arrangement and is difficult to dismantle the installation when clean, influences production efficiency. 3. Because the unloading screw rod is directly connected with drive arrangement for thereby the volume in the workbin diminishes and need frequent feed supplement to the workbin, influences packing efficiency to a certain extent.

Disclosure of Invention

The invention aims to solve the technical problem of providing a blanking device convenient to detach.

In order to achieve the purpose, the invention discloses a blanking device convenient to detach, which comprises a material box, a blanking device and a blanking driving module, wherein a blanking hole is formed in the bottom of the material box, and the blanking driving module is arranged at the top of the material box.

The blanking device comprises a blanking pipe and a blanking screw rod, wherein the end part of the blanking pipe is arranged in the blanking hole, the blanking screw rod penetrates through the blanking pipe, and a convex strip is arranged on the inner wall of the blanking pipe.

The blanking screw rod is detachably provided with a power connecting pipe between the blanking screw rod and a power shaft of the blanking driving module, the power connecting pipe transmits the rotary power of the blanking driving module to the blanking screw rod, so that materials in the material box are conveyed from the blanking hole to the blanking pipe and filled into the strip-shaped packaging bag, the periphery of the blanking screw rod and the raised strips are rubbed circumferentially to conduct pipe forward to prevent shaking when the blanking screw rod rotates, and meanwhile the raised strips scatter materials on the blanking screw rod to prevent particles and powder materials from being accumulated between spiral blades of the blanking screw rod and the inner wall of the blanking pipe, so that material conveying is interrupted.

Further, the blanking driving module comprises a blanking bearing seat, the blanking bearing seat is arranged at the top of the material box, the power shaft is rotatably arranged on the blanking bearing seat, and two ends of the power connecting pipe are detachably connected with the end part of the power shaft and the end part of the blanking screw.

Further, the periphery of power shaft is provided with first connecting hole, the periphery of unloading screw rod is provided with the second connecting hole, the periphery on power shaft top be provided with first connecting hole matched with third connecting hole, the periphery of power shaft bottom be provided with second connecting hole matched with fourth connecting hole, first connecting hole with pass through the bolt connection between the third connecting hole, the second connecting hole with pass through the bolt connection between the fourth connecting hole, make through power connecting pipe form movable dismouting's connection structure between unloading screw rod and the power shaft, power connecting pipe and unloading screw rod, the connection structure of power also possess quick assembly disassembly's effect simultaneously, further improve the efficiency of equipment when wasing, under the effect of power connecting pipe, the length reduction manufacturing cost of screw rod, assurance stable rotatory action and increase the volume of workbin.

Further, the end of the blanking hole is fixedly provided with a blanking connecting seat, the top of the blanking connecting seat is provided with a material guiding concave position communicated with the blanking hole, the bottom of the blanking connecting seat is provided with a plug hole, and the top end of the blanking pipe is plugged in the plug hole.

Further, be provided with first exhaust through-hole on the unloading screw rod, the end of unloading screw rod set up in outside the unloading pipe, the end of unloading screw rod is fixed to be provided with scattered material piece, scattered material piece is along with the unloading screw rod is rotatory, when the material is passed through the unloading screw rod carries the follow the end output of unloading pipe, through the scattered material piece makes the material be the even packing of dispersion to in the bar wrapping bag, prevents that the bar wrapping bag from warping because of the focus skew leads to being unfavorable for subsequent heat-seal work.

Further, an annular concave position is arranged at the top of the material dispersing block, a convex column is arranged in the center of the annular concave position, the convex column is fixedly connected with the first exhaust through hole, and when the blanking screw stops rotating, the annular concave position receives residual materials falling from the blanking screw

Further, a first central through hole communicated with the first exhaust through hole is formed in the bulk material block, and when gas generated by clamping the bag body by the transverse sealing device flows upwards, the gas is discharged outwards through the first central through hole and the first exhaust through hole, and meanwhile, the pressure difference between the inside and the outside of the bag body can be balanced to ensure normal conveying of materials.

Furthermore, a quick-release notch is formed in the top of the feed box, and a convex-shaped plate is arranged in the quick-release notch in an inserted mode.

The top of workbin is provided with first semicircle through-hole, first semicircle through-hole with quick detach breach communicates with each other, protruding word shaped plate's top edge is provided with the second semicircle through-hole corresponding with first semicircle through-hole, first semicircle through-hole with form circular passageway between the second semicircle through-hole, circular passageway with the unloading hole is relative from top to bottom.

Further, the vertical end of the blanking bearing seat is arranged in the circular through hole in a penetrating mode, and the horizontal end of the blanking bearing seat is connected with the top of the feed box and the top of the convex-shaped plate through bolts.

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

1. the power connecting pipe enables a movable detachable connecting structure to be formed between the blanking screw and the power shaft, and meanwhile, the power connecting pipe has the effect of quick detachment and installation with the connecting structure of the blanking screw and the power;

2. under the action of the power connecting pipe, the length of the screw rod can be greatly reduced, the production cost is reduced, and the stable rotation action is ensured;

3. the convex strips play a role in positive tube alignment on the blanking screw;

4. the material falls into the strip-shaped packaging bag in a dispersed manner through the material dispersing blocks, and is used for receiving residual materials when the machine is stopped;

5. the detachable structure of the material bearing seat and the material box realizes convenient independent cleaning of the discharging device.

Drawings

FIG. 1 is a cross-sectional view showing the overall structure of the present embodiment;

fig. 2 is a schematic structural diagram of the blanking device and the blanking driving module in the embodiment when they are connected to each other;

FIG. 3 is an enlarged schematic view of the portion A in FIG. 1 according to the present embodiment;

fig. 4 is a schematic perspective view of the whole structure of the present embodiment.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings of fig. 1 to 4.

Referring to fig. 1 and 2, a discharging device convenient to detach comprises a material box 1, a plurality of discharging devices 2 and a plurality of discharging driving modules 3.

The bottom in the feed box 1 is provided with a plurality of blanking holes 11, and a plurality of blanking holes 11 are arranged at intervals along the length direction of the feed box 1. The plurality of discharging devices 2 are respectively arranged in the discharging holes 11.

The number of the blanking devices 2 corresponds to the number of the blanking holes 11, and the number of the blanking driving modules 3 corresponds to the number of the blanking devices 2.

The blanking holes 11 are respectively provided with a blanking connecting seat 12. The outer contour of the blanking connecting seat 12 is circular.

The top of the blanking connecting seat 12 is provided with a material guiding concave position 121, and the top end of the blanking connecting seat 12 is fixedly arranged in the blanking hole 11. The material guiding concave 121 is communicated with the blanking hole 11.

The bottom of the blanking connecting seat 12 is provided with a plug hole 122, the plug hole 122 is communicated with the material guiding concave position 121, and the diameter of the plug hole 122 is larger than one end of the material guiding concave position 121 with smaller diameter.

The material guiding concave 121 of this embodiment is tapered in vertical section to guide the flow of material. The smaller diameter end of the guiding hollow 121 is adjacent to the insertion hole 122.

The blanking device 2 comprises a blanking pipe 21 and a blanking screw 22, wherein the blanking pipe 21 is vertically arranged below the inserting hole 122, and the end part of one end of the blanking pipe 21 is inserted into the inserting hole 122 and is used for receiving materials flowing out from the material guiding concave 121. Bolts are screwed between the outer side wall of the blanking connecting seat 12 and the periphery of the blanking pipe 21, so that the blanking pipe 21 is fixed on the blanking connecting seat 12.

The blanking screw 22 penetrates through the blanking pipe 21 and is driven to rotate by the blanking driving module 3. The top end of the blanking screw 22 passes through the material guiding concave 121 and is arranged in the material box 1.

Referring to fig. 3 again, a protrusion 211 is provided on the inner circumference of the discharge tube 21, and two ends of the protrusion 211 are flush with the top and bottom ends of the discharge tube 21. In the initial state, a gap is formed between the outer side wall of the protruding strip 211 and the outer periphery of the blanking screw 22, so that the normal start rotation of the blanking screw 22 is ensured.

In this embodiment, the convex strips 211 are arranged on the inner periphery of the blanking pipe 21 to disperse the material when the blanking screw 22 conveys the material, so that the material is prevented from being blocked between the blades of the blanking screw 22 and the inner periphery of the blanking pipe 21.

Further, since the length of the blanking screw 22 is longer, shake (circle run out) is easy to occur during rotation, so that material conveying is not smooth, and a driving structure is easy to damage, when the blanking screw 22 rotates to shake, the periphery of the spiral blade on the blanking screw 22 is intermittently rubbed with the raised strips 211, the blanking screw 22 is forced to shake in the opposite direction under the action of the raised strips 211, and then the circle run-out amount of the blanking screw 22 is controlled under the positive action of the pipe.

Further, the discharging screw 22 is provided with a first exhaust through hole 221.

The bottom end of the blanking screw 22 is arranged outside the blanking pipe 21. The bottom end of the blanking screw 22 is provided with a bulk material block 23, and the bulk material block 23 is circular in this embodiment.

Further, a first center through hole 231 communicating with the first exhaust through hole 221 is provided in the bulk material block 23.

The top of the bulk material 23 is provided with an annular concave position 232, the center of the annular concave position 232 is provided with a convex column 2321 in an upward protruding mode, and the convex column 2321 is in threaded connection with the first exhaust through hole 221. When the material is conveyed to the tail end of the blanking pipe 21 through the blanking screw 22 and is output, the material is dispersed by the dispersing block 23 and falls into the strip-shaped packaging bag to be filled, so that the material is uniformly filled in the strip-shaped packaging bag. The annular recess 232 is used to receive the residual material falling from the blanking screw 22 when the screw stops rotating.

Referring to fig. 1 and 2, the blanking driving module 3 includes a power connection pipe 31, a blanking bearing block 32, and a power shaft 33, wherein the blanking bearing block 32 is disposed at the top of the bin 1 and vertically opposite to the blanking screw 22. One end of the power shaft 33 is located outside the feed box 1, the other end of the power shaft 33 passes through the blanking bearing seat 32 and is arranged in the feed box 1, the power shaft 33 is rotatably arranged on the blanking bearing seat 32, and the power shaft 33 is driven to rotate by a power device (not shown in the figure).

The power device of the embodiment is a driving structure of a motor driving gear.

The power connection pipe 31 is arranged between the power shaft 33 and the blanking screw 22. The periphery at the tail end of the power shaft 33 is provided with a first connecting through hole, the periphery at the top end of the blanking screw 22 is provided with a second connecting through hole, and the periphery at the top end and the bottom end of the power shaft 33 are respectively provided with a third connecting through hole and a fourth connecting through hole.

During installation, the top end of the power connecting pipe 31 is penetrated at the tail end of the power shaft 33 to enable the third connecting through hole to be communicated with the first connecting through hole, and a bolt is inserted to enable the power connecting pipe 31 to be fixedly connected with the power shaft 33;

the top end of the blanking screw 22 is arranged in the power connecting pipe 31 to enable the second connecting hole to be communicated with the fourth connecting hole, and a bolt is inserted to enable the blanking screw 22 to be fixedly connected with the power connecting pipe 31, so that the rotary motion of the power shaft 33 is transmitted to the blanking screw 22.

In this embodiment, the power connecting pipe 31 is arranged to enable the blanking screw 22 and the power shaft 33 to be movably and conveniently assembled and disassembled, and meanwhile, the power connecting pipe 31, the blanking screw 22 and the power shaft 33 are also fast assembled and disassembled, so that the efficiency of the device during cleaning is further improved.

Further, a second central through hole 331 is provided in the power shaft 33, which is in communication with the power connection pipe 31. The top end of the power shaft 33 is provided with a rotary joint (not shown in the figure) which circumscribes the pipe.

Referring to the schematic structural diagram shown in fig. 4, further, a quick-release notch 13 is arranged at the top of the feed box 1, and the front side surface of the quick-release notch 13 is communicated with the front side surface of the feed box 1. The quick release notch 13 in this embodiment is in a convex shape.

The insert device sliding in the quick-release notch 13 is provided with a convex-shaped plate 14, and the convex-shaped plate 14 is detachably connected with the quick-release notch 13 through bolts.

The top of the feed box 1 is provided with a plurality of first semicircular through holes 15, the plurality of first semicircular through holes 15 are respectively arranged at intervals along the length direction of the feed box 1, and the first semicircular through holes 15 are communicated with the quick-release notch 13.

The edge of the top of the convex-shaped plate 14 is provided with a plurality of second semicircular through holes 141 corresponding to the plurality of first semicircular through holes 15. When the convex-shaped plate 14 is arranged in the quick-release notch 13, a circular channel 16 is formed between the first semicircular through hole 15 and the second semicircular through hole 141, and the circular channel 16 is vertically opposite to the blanking hole 11.

The number of circular channels 16 in this embodiment corresponds to the number of the blanking driving modules 3.

The vertical end of the blanking bearing seat 32 is penetrated in the circular channel 16, and the two ends of the horizontal end of the blanking bearing seat 32 are respectively connected with the top of the feed box 1 and the top of the convex-shaped plate 14 through bolts.

When the feeding device is in operation, the blanking pipe 21 is arranged on the strip-shaped packaging bag of the material to be filled in a penetrating way, the power device drives the power shaft 33 to rotate, the blanking screw 22 synchronously rotates under the action of the power connecting pipe 31, and the blanking screw 22 enables the material in the feed box 1 to flow into the blanking pipe 21 through the blanking hole 11 to be filled into the strip-shaped packaging bag;

when the transverse sealing device clamps the strip-shaped packaging bag to carry out transverse sealing, upward moving air flow is formed in the strip-shaped packaging bag due to extrusion action, if the air flow is not timely discharged, the air flow can cause the strip-shaped packaging bag to generate internal and external air pressure difference, so that the bag body which cannot be filled and sealed is bulged, and in the embodiment, the air flow flowing upwards in the strip-shaped packaging bag is discharged from the rotary joint through the first central through hole 231, the first exhaust through hole 221, the power connecting pipe 31 and the second central through hole 331. Compared with the prior art, the air flow discharging problem in the strip-shaped packaging bag is simply and efficiently solved by arranging the hollow discharging screw rod 22 and the power shaft 33, and the air flow discharging device is simple in structure and low in cost.

When the equipment is cleaned, the bolts screwed on the blanking bearing seat 32 are loosened, then the bolts on the T-shaped movable plate 35 are loosened to enable the bolts to be far away from the dismounting notch 34, the blanking bearing seat 32 is moved away from the top of the blanking box 13, the connection structure of the blanking screw 22 and the power connecting pipe 31 is disassembled, and then the blanking screw is taken out of the blanking box 1 for cleaning.

Compared with the prior art, the detachable structures of the blanking bearing seat 32 and the feed box 1 realize convenient independent cleaning of the blanking device 2, and the blanking device 2 and the blanking driving module 3 can be further quickly detached after being detached, so that the cleaning is more convenient.

The above embodiments are only for illustrating the technical concept and features of the present invention, and therefore, it is intended that the present invention can be understood by those skilled in the art and implemented according to the technical concept, and the present invention is not limited to the above embodiments, but modifications made according to the spirit and scope of the main technical solution of the present invention should be included in the scope of the present invention.

Claims

1. The blanking device convenient to detach is characterized by comprising a material box (1), a blanking device (2) and a blanking driving module (3), wherein a blanking hole (11) is formed in the bottom of the material box (1), and the blanking driving module is arranged at the top of the material box (1);

the blanking device (2) comprises a blanking pipe (21) and a blanking screw (22), wherein the end part of the blanking pipe (21) is arranged in the blanking hole (11), the blanking screw (22) is arranged in the blanking pipe (21) in a penetrating way, and a convex strip (211) is arranged on the inner wall of the blanking pipe (21);

a power connecting pipe (31) is detachably arranged between the blanking screw (22) and a power shaft (33) of the blanking driving module (3), the power connecting pipe (31) transmits the rotary power of the blanking driving module (3) to the blanking screw (22) so that the material in the feed box (1) is conveyed from the blanking hole (11) to the blanking pipe (21) and filled into the strip-shaped packaging bag, and the circumferential friction between the periphery of the blanking screw (22) and the raised strips (211) is intermittent when the blanking screw (22) rotates to control the posture when the blanking screw (22) rotates.

2. The blanking device convenient and fast to detach according to claim 1, characterized in that a first connecting through hole is formed in the periphery of the power shaft (33), a second connecting through hole is formed in the periphery of the blanking screw (22), a third connecting through hole matched with the first connecting through hole is formed in the periphery of the top end of the power shaft (33), a fourth connecting through hole matched with the second connecting through hole is formed in the periphery of the bottom end of the power shaft (33), the first connecting through hole is connected with the third connecting through hole through a bolt, and the second connecting through hole is connected with the fourth connecting through hole through a bolt.

3. The blanking device convenient and fast to detach according to claim 1, characterized in that the blanking driving module (3) comprises a blanking bearing seat (32), the blanking bearing seat (32) is arranged at the top of the feed box (1), the power shaft (33) is rotatably arranged on the blanking bearing seat (32), and two ends of the power connecting pipe (31) are detachably connected with the end part of the power shaft (33) and the end part of the blanking screw (22).

4. The blanking device convenient and fast to detach according to claim 1, characterized in that a blanking connecting seat (12) is fixedly arranged at the tail end of the blanking hole (11), a material guiding concave position (121) communicated with the blanking hole (11) is arranged at the top of the blanking connecting seat (12), a plug hole (122) is arranged at the bottom of the blanking connecting seat (12), and the top end of the blanking pipe (21) is plugged in the plug hole (122).

5. The blanking device convenient to detach according to claim 1, characterized in that a first exhaust through hole (221) is formed in the blanking screw (22), the tail end of the blanking screw (22) is arranged outside the blanking pipe (21), and a scattering block (23) is fixedly arranged at the tail end of the blanking screw (22);

a second center through hole (331) communicated with the first exhaust through hole (221) is arranged in the power shaft (33).

6. The blanking device convenient and fast to detach according to claim 1, characterized in that two ends of the raised strip (211) are respectively flush with the top end and the bottom end of the blanking tube (21).

7. The blanking device convenient and fast to detach according to claim 5, characterized in that an annular concave position (232) is arranged at the top of the bulk material block (23), a convex column (2321) is arranged in the center of the annular concave position (232), and the convex column (2321) is fixedly connected with the first exhaust through hole (221).

8. The blanking device convenient to disassemble according to claim 5 or 7, characterized in that a first central through hole (231) which is communicated with the first exhaust through hole (221) is arranged in the bulk material block (23).

9. The blanking device convenient to detach according to claim 1 is characterized in that a quick-detachment notch (13) is formed in the top of the feed box (1), and a convex plate (14) is inserted into the quick-detachment notch (13);

the top of workbin (1) is provided with first semicircle through-hole (15), first semicircle through-hole (15) with quick detach breach (13) are communicated with each other, the top edge of protruding font board (14) is provided with second semicircle through-hole (141) corresponding with first semicircle through-hole (15), first semicircle through-hole (15) with form circular passageway (16) between second semicircle through-hole (141), circular passageway (16) with unloading hole (11) are relative from top to bottom.

10. The blanking device convenient and fast to disassemble as claimed in claim 9, characterized in that the blanking driving module (3) is detachably arranged in the circular channel (16).