CN109665133B

CN109665133B - Independent packing device

Info

Publication number: CN109665133B
Application number: CN201910150985.9A
Authority: CN
Inventors: 王浩然
Original assignee: Taicang North Building Materials Co ltd; Beijing New Building Material Group Co Ltd
Current assignee: Beijing New Building Material Group Co Ltd; BNBM Suzhou Co Ltd
Priority date: 2019-02-28
Filing date: 2019-02-28
Publication date: 2020-12-22
Anticipated expiration: 2039-02-28
Also published as: CN109665133A

Abstract

The embodiment of the invention discloses an independent packing device, which comprises a storage bin, wherein a variable-frequency round tube conveying reamer is arranged in the storage bin, an electric flashboard is arranged at the outlet position of the lower end of the storage bin, a feeding mechanism is arranged below the electric flashboard, an automatic bagging machine is arranged at the left end of the feeding mechanism, the electric flashboard and the variable-frequency round tube reamer are used for mainly controlling the blanking amount when the device works, the operation is convenient and simple, the traditional operation is power-frequency operation and is inconvenient to control, meanwhile, an automatic bagging machine is additionally arranged, so that 2 packing operators can be reduced, the manpower waste is avoided, a weighing sensor is also arranged, the main function is accurate product weight and unified standard, the traditional weighing after filling bags is realized, the manpower resource is greatly wasted during the operation, and the device is provided with a material conveying belt, at present, the bags can be sleeved only by taking the bags away by a forklift after the bags are full, and the time for taking the bags after the bags are full is greatly reduced.

Description

Independent packing device

Technical Field

The embodiment of the invention relates to the technical field of gypsum board raw material production, in particular to an independent packing device.

Background

The calcined gypsum powder amount of gypsum board production line preparation is greater than the total amount that the gypsum board can be produced, consequently has unnecessary calcined gypsum powder, needs to deposit in addition, all packs unnecessary gypsum powder through manual operation during its operation, and this has just caused the very big waste of manpower resources, just needs to use independent packing apparatus from this in order to improve machining efficiency.

Common independent packing apparatus generally faces in the existing market, and its structure is comparatively simple, and the wrapping bag is when packing the operation, thereby in case outside vibrations are great just can make the wrapping bag overturn and make the raw materials wasted.

Disclosure of Invention

Therefore, the embodiment of the invention provides an independent packaging device to solve the problems in the prior art.

In order to achieve the above object, the embodiments of the present invention provide the following technical solutions: an independent packing device comprises a storage bin, wherein a variable-frequency circular tube conveying reamer is arranged in the storage bin, an electric flashboard is arranged at the outlet position of the lower end of the storage bin, a feeding mechanism is arranged below the electric flashboard, an automatic bagging machine is installed at the left end of the feeding mechanism, and a sealing machine is arranged at the upper end of the right side of the feeding mechanism;

feeding mechanism includes fixed frame be provided with the material conveyer belt in the fixed frame, the inboard of material conveyer belt is provided with weighing sensor, this weighing sensor be located under the electric flashboard and with fixed frame lug connection, just weighing sensor's right side is provided with formulates the position alarm, fixed frame's upper end is provided with in the left side region of capper carries out the supplementary envelope subassembly that seals in advance to the wrapping bag the pre-compaction subassembly is installed in the left side of supplementary envelope subassembly.

The embodiment of the invention is further characterized in that the auxiliary bag sealing assembly comprises a fixed top cover, a press-in round wheel with the upper end connected with a driving motor is arranged on the fixed top cover, a protruding round wheel is arranged at the front end of the press-in round wheel, and a bag body knocking assembly is arranged at the lower end of the fixed top cover

The bag body knocking assembly is characterized by comprising two placing frames which are symmetrical about the central axis of a fixed top cover and a rotating worm which is connected with a convex circular wheel through a belt pulley, wherein the placing frames penetrate through the fixed frames, a cam rotating shaft is rotatably connected in the placing frames, a plurality of cams are arranged on the side wall of the cam rotating shaft, a rotating worm wheel is arranged at the center of the side wall of the cam rotating shaft, a knocking assembly is arranged on one side, close to an auxiliary bag sealing assembly, of the placing frames, penetrates through the placing frames and corresponds to the position of the cams, and a sliding groove is formed in the side face of the placing frames and corresponds to the position of the knocking assembly.

The embodiment of the invention is further characterized in that the prepressing assembly comprises two fixing supports which are symmetrical about a central axis of the fixing frame, a clamping plate is arranged on one side of the fixing support close to the auxiliary bag sealing assembly, an auxiliary limiting assembly is fixedly arranged between the fixing supports and the clamping plate, main limiting assemblies are arranged on two sides of the auxiliary limiting assembly, each main limiting assembly comprises a sliding bin and a connecting column, one end of each connecting column is fixedly connected with the clamping plate, each connecting column penetrates through the corresponding sliding bin and freely slides in the corresponding sliding bin, and the other end of each connecting column is connected with the corresponding sliding bin through a supporting spring.

The bag packaging anti-falling device is characterized in that a plurality of bag packaging anti-falling assemblies are arranged above the feeding mechanism, each bag packaging anti-falling assembly comprises two symmetrically-arranged protective clamping blocks, each protective clamping block is rotatably connected with a fixed frame through a rotating shaft, a push-out spring is arranged between each protective clamping block and the corresponding fixed frame, a push-clamping block is arranged at one end, close to the auxiliary bag sealing assembly, of each protective clamping block, a spring supporting block is arranged on the side wall of each protective clamping block, and the push-out springs are fixedly arranged between the push-clamping blocks and the corresponding protective clamping blocks.

The embodiment of the invention is also characterized in that the knocking component comprises a plurality of knocking push blocks with linearly increased lengths, the knocking push blocks penetrate through the placing frame and freely slide in the sliding grooves, and a limiting spring is fixedly arranged between the knocking push blocks and the placing frame.

The embodiment of the invention is also characterized in that the material conveying belt comprises a rotating cylinder, pressing piece blocks and a feeding belt, a plurality of pressing piece block movable grooves are arranged on the side wall of the feeding belt at equal intervals, the pressing piece blocks penetrate through the feeding belt and freely slide in the pressing piece block movable grooves, and a bearing spring is fixedly arranged between the pressing piece blocks and the feeding belt.

The embodiment of the invention is also characterized in that the pressing piece block is in an I-shaped structure.

The embodiment of the invention is further characterized in that the auxiliary limiting assembly comprises a sliding bin and a sliding bearing fixture block, one end of the sliding bearing fixture block is rotatably connected with an auxiliary pressing wheel and penetrates through the clamping plate, and the other end of the sliding bearing fixture block is connected with the sliding bin through a supporting spring.

The embodiment of the invention is also characterized in that the side wall of the protruding round wheel is provided with a convex ring sunken groove, and the side wall of the pressing round wheel is provided with a convex ring.

The embodiment of the invention has the following advantages:

(1) the equipment is provided with an electric flashboard and a variable-frequency circular tube reamer to mainly control the blanking amount during working, the equipment is convenient to operate and simple to control, the traditional equipment is operated at power frequency and is inconvenient to control, and meanwhile, an automatic bag feeding machine is additionally arranged, so that 2 packing operators can be reduced, the manpower waste is avoided, meanwhile, a weighing sensor is also arranged, the main function of the weighing sensor is accurate product weight, the standard is unified, the weighing is carried out after the bag is filled in the traditional equipment at present, the manpower resource is greatly wasted during the operation, the equipment is provided with a material conveying belt, the bag can be sleeved only after the bag is filled in the traditional equipment and the forklift is taken away, and the time for taking the full bag is greatly reduced;

(2) this equipment is provided with supplementary envelope subassembly, bag body and beats subassembly and pre-compaction subassembly, and after full bag, can beat the subassembly through the bag body and beat the raw materials of full bag and beat, make it pile up inseparabler for can not receive the influence when follow-up sealing, and the wrapping bag when removing, can receive the effect of supplementary envelope subassembly and pre-compaction subassembly simultaneously, make the sack more inseparable follow-up sealing of having made things convenient for by the extruded. And still be provided with the wrapping bag and prevent down the subassembly, can prevent that the wrapping bag from overturning, even external vibrations are great, the wrapping bag can receive the wrapping bag simultaneously and prevent down the subassembly and supplementary bag sealing subassembly or the pre-compaction subassembly effect to by firmly fixing on the material conveyer belt, avoided the waste of raw materials.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structures, ratios, sizes, and the like shown in the present specification are only used for matching with the contents disclosed in the specification, so as to be understood and read by those skilled in the art, and are not used to limit the conditions that the present invention can be implemented, so that the present invention has no technical significance, and any structural modifications, changes in the ratio relationship, or adjustments of the sizes, without affecting the effects and the achievable by the present invention, should still fall within the range that the technical contents disclosed in the present invention can cover.

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

FIG. 2 is a top partial cross-sectional view of the auxiliary envelope assembly of the present invention;

FIG. 3 is an enlarged view of FIG. 1 at A;

fig. 4 is a top view of the rotating cylinder of the present invention.

In the figure:

1-a storage bin; 2-a feeding mechanism; 3, automatically feeding a bag machine; 4-a sealing machine; 5-a material conveying belt; 6-auxiliary bag sealing component; 7-bag body knocking component; 8-a pre-pressing assembly;

101-frequency conversion round tube reamer conveying; 102-an electric gate plate; 103-dampproof kraft paper bag; 104-a bag type dust collector;

201-a fixed frame; 202-a mounting plate; 203-a weighing sensor; 204-setting a position alarm; 205-bag collapse prevention assembly; 206-protective fixture blocks; 207-push out spring; 208-pushing the clamping block; 209-spring support block;

501-rotating a cylinder; 502-a feed belt; 503-pressing piece block; 504-casting die block active slot; 505-a carrier spring;

601-a fixed top cover; 602-pressing in the round wheel; 603-a convex circular wheel; 604-the male ring is recessed into the groove; 605-convex ring;

701-placing a frame; 702-a cam rotation shaft; 703-rotating the worm; 704-a rotating worm gear; 705-a tapping component; 706-knocking the push block; 707-a limit spring; 708-a chute; 709-a cam;

801-fixing the bracket; 802-clamping plate; 803-a main stop assembly; 804-sliding cabin; 805-connecting column; 806-auxiliary pinch roller; 807-support springs; 808-an auxiliary limit assembly; 809-sliding bearing cartridge.

Detailed Description

The present invention is described in terms of particular embodiments, other advantages and features of the invention will become apparent to those skilled in the art from the following disclosure, and it is to be understood that the described embodiments are merely exemplary of the invention and that it is not intended to limit the invention to the particular embodiments disclosed. 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.

As shown in fig. 1 to 4, the invention provides an independent packaging device, which comprises a storage bin 1, wherein a variable-frequency round tube conveying reamer 101 is arranged in the storage bin 1, an electric flashboard 102 is arranged at an outlet of the lower end of the storage bin 1, the electric flashboard 102 can be selected from conventional equipment on the market, a feeding mechanism 2 is arranged below the electric flashboard 102, an automatic bag feeding machine 3 is installed at the left end of the feeding mechanism 2, the automatic bag feeding machine 3 and a sealing machine 4 are common equipment on the market, for example, a DN-5U full-automatic bag feeding packaging machine and a DN-5U heavy heat sealing machine can be selected, and the sealing machine 4 is arranged at the upper end of the right side of the feeding mechanism 2.

Compared with the traditional equipment, the equipment directly carries out blanking through the frequency conversion circular tube conveying reamer 101 and the electric flashboard 102, is convenient to operate and simple to control, is operated at power frequency and is inconvenient to control, and is additionally provided with the automatic bagging machine 3, so that 2 packing operators can be reduced, manpower waste is avoided, meanwhile, the weighing sensor 203 is also arranged, the main function of the weighing sensor is accurate product weight and is unified standard, the traditional equipment is to weigh after fully bagging, manpower resource is greatly wasted during operation, the equipment is provided with the material conveying belt 5, the bagging can be carried out only after the full bag is taken away by a forklift, the full bag forking time is greatly reduced, the sealing machine 4 is arranged on duty, the product appearance quality is mainly improved, the manpower waste for independently carrying out sealing operation is reduced, and then a user can set a start-stop control system on site, meanwhile, the wireless remote control is connected in parallel, so that field operators can be reduced due to the addition of the wireless remote control, and the whole equipment can be operated by only one forklift driver.

In this embodiment, in order to positively press dust, a mounting plate 202 is provided at the upper end of the fixed frame 201, a fan is provided above the mounting plate 202, a baghouse 104 is connected to one side of the fan, and a moisture-proof kraft paper bag 103 is placed directly below the electric shutter plate 102.

Feeding mechanism 2 includes fixed frame 201 be provided with material conveyer belt 5 in the fixed frame 201, the inboard of material conveyer belt 5 is provided with weighing sensor 203, and this weighing sensor 203 is located electric flashboard 102 under and with fixed frame 201 lug connection, just the right side of weighing sensor 203 is provided with formulates position alarm 204, fixed frame 201's upper end is provided with in the left side region of capper 4 and carries out the supplementary envelope subassembly 6 that seals in advance to the wrapping bag the pre-compaction subassembly 8 is installed in the left side of supplementary envelope subassembly 6.

The feeding mechanism 2 can control the raw materials of full bags to be sent to seal, when in operation, a user can control the electric flashboard 102 and the variable frequency circular tube conveying reamer 101 to feed the materials into the damp-proof kraft paper bag 103 quantitatively through an external wireless remote control device, because the inner side of the material conveying belt 5 is provided with the weighing sensor 203, the damp-proof kraft paper bag 103 can drive the materials to be gradually pressed on the weighing sensor 203, thereby measuring the loading weight of the materials, when the bags are empty, the materials are quickly discharged, the slow discharging is automatically switched when a set value is about to be reached, so as to ensure the weight accuracy, when the weight of the material belt reaches the set value, the variable frequency circular tube conveying reamer 101 is automatically stopped, the electric flashboard 102 is closed, then when the material conveying belt 5 drives the materials to run to the formulated position alarm 204, an alarm can be sent out to remind a forklift to fork the position, and the, so dampproofing kraft paper bag 103 can seal automatically, and it can successively receive the effect of supplementary bag subassembly 6 and pre-compaction subassembly 8 when sealing, squeezes the wrapping bag and flattens for follow-up sealing operation is convenient and fast simple more, and automatic bag machine 3 operation of going up after it accomplishes goes up the bag automatically, begins the unloading again after the completion, and reciprocating cycle.

Supplementary bag sealing subassembly 6 is including fixed top cap 601, be provided with the round wheel 602 of impressing that the driving motor was connected to the upper end on the fixed top cap 601, this driving motor has connected the reduction gear, can make the round wheel 602 of impressing rotate with slower speed the protruding round wheel 603 is installed to the front end of the round wheel 602 of impressing, just the lower extreme of fixed top cap 601 is provided with the bag body and strikes subassembly 7.

The auxiliary bag sealing assembly 6 can fully extrude the bag openings, so that the gaps between the bag openings are reduced, and as the side wall of the convex circular wheel 603 is provided with the convex ring sunken groove 604, the side wall of the pressing-in circular wheel 602 is provided with a convex ring 605, so that when the device is in operation, once the material passes through the pressing-in circular wheel 602, the pressing-in circular wheel 602 is driven by the convex circular wheel 603 to rotate, when the convex circular wheel 603 rotates, the convex ring 605 on the sealing machine can directly press the bag opening into the convex ring sunken groove 604, so that the bag opening is more tightly jointed than other positions, the condition that the sealing is incomplete due to the open jointing of the bag opening when the sealing machine 4 works is avoided, and when the auxiliary bag sealing component 6 is further attached, the bag body knocking component 7 can knock the materials in the bag, the materials are stacked more tightly, so that the materials are not stacked too high, and the situation that the sealing machine 4 cannot normally seal the opening is caused.

The bag body knocking component 7 comprises two placing frames 701 which are symmetrical about the central axis of a fixed top cover 601 and a rotating worm 703 which is connected with a convex circular wheel 603 through a belt pulley, the rotating worm 703 is matched with a rotating worm wheel 704 for use, when an indentation circular wheel 602 rotates, the rotating worm 703 is driven to rotate through the belt pulley, then the rotating worm 703 is meshed to drive the rotating worm 703 to rotate so as to rotate a cam 709, so that a cam rotating shaft 702 rotates, then the rotating cam rotating shaft 702 drives the rotating worm, the placing frames 701 penetrate through the fixed frame 201, the cam rotating shaft 702 is rotatably connected in the placing frames 701, a plurality of cams 709 are arranged on the side wall of the cam rotating shaft 702, a rotating worm wheel 704 is arranged at the central position of the side wall of the cam rotating shaft 702, and the knocking component 705 is arranged on one side of the placing frames 701 close to the auxiliary bag sealing component 6, the striking assembly 705 penetrates the placing frame 701 and corresponds to the position of the cam 709, and a sliding groove 708 is formed in the side surface of the placing frame 701 at the position corresponding to the striking assembly 705.

The bag body knocking component 7 can knock the moisture-proof kraft paper bag 103 fully loaded with materials when in work, so that the materials in the bag body knocking component can be stacked more tightly, and the subsequent sealing operation is convenient, the bag body knocking component can work along with the rotation of the pressing-in round wheel 602, the rotating worm 703 can rotate when the pressing-in round wheel 602 rotates, then the cam 709 can indirectly rotate, the knocking component 705 can circularly extrude the knocking component 705 at a certain speed when the cam 709 rotates, because the knocking component 705 comprises a plurality of knocking push blocks 706 with linearly-increased length, the knocking push blocks 706 penetrate through the placing frame 701 and freely slide in the sliding grooves 708, and a limit spring 707 is fixedly arranged between the knocking push blocks 706 and the placing frame 701, the cam 709 can rotate around the rotating shaft 702 when rotating, so that the knocking push blocks 706 with linearly-increased length can be gradually extruded, when the first knocking pushing block 706 is pressed, the first knocking pushing block can immediately press the limiting spring 707, so that the knocking pushing block 706 can freely slide along the sliding groove 708, when the cam 709 rotates to the second knocking pushing block 706, the first knocking pushing block 706 can be reset by the limiting spring 707, the second knocking pushing block 706 can continuously press and slide and knock on the bag body again, and the materials can not be accumulated in the circulation.

The prepressing assembly 8 comprises two fixing supports 801 which are symmetrical about a central axis of the fixing frame 201, a clamping plate 802 is arranged on one side of each fixing support 801 close to the auxiliary bag sealing assembly 6, an auxiliary limiting assembly 808 is fixedly mounted between the fixing supports 801 and the clamping plates 802, main limiting assemblies 803 are arranged on two sides of the auxiliary limiting assembly 808, each main limiting assembly 803 comprises a sliding bin 804 and a connecting column 805, one end of each connecting column 805 is fixedly connected with the corresponding clamping plate 802, each connecting column 805 penetrates through the corresponding sliding bin 804 and freely slides in the corresponding sliding bin 804, and the other end of each connecting column 805 is connected with the corresponding sliding bin 804 through a supporting spring 807.

The prepressing component 8 can prepress the material when working, so that the packaging bag fully loaded with the material is preliminarily sealed, thereby the bag mouth is closed, the sealing machine 4 is simpler when sealing, when in operation, when the bag body passes through two opposite clamping plates 802, the bag body can be gradually attached together, meanwhile, the main limiting component 803 can tightly press the clamping plates 802, even if the bag body pushes the clamping plates 802 open, at the moment, the connecting column 805 can be driven to press the supporting spring 807, so that the elasticity of the supporting spring 807 is increased, then the gap at the bag mouth can be attached together, and when the preliminarily attached bag mouth passes through the central position of the clamping plates 802, because the auxiliary limiting component 808 comprises the sliding bin 804 and the sliding bearing clamping block 809, one end of the sliding bearing clamping block 809 is rotatably connected with the auxiliary pressing wheel 806 and penetrates through the clamping plates 802, the other end of the sliding bearing clamping block 809 is connected with the sliding bin 804 through the supporting spring 807, therefore, the bag opening can extrude the auxiliary pressing wheel 806 on the sliding bearing clamping block 809, and the auxiliary pressing wheel 806 penetrates through the clamping plate 802 along with the sliding bearing clamping block 809, so that the bag opening can be preliminarily and tightly attached when passing through the auxiliary pressing wheel 806, and the subsequent auxiliary bag sealing assembly 6 is more convenient to work.

The packaging bag anti-falling component 205 is arranged above the feeding mechanism 2, the packaging bag anti-falling component 205 comprises two symmetrically arranged protection clamping blocks 206, the protection clamping blocks 206 are rotationally connected with the fixed frame 201 through rotating shafts, a push-out spring 207 is arranged between the protection clamping blocks 206 and the fixed frame 201, a push-out clamping block 208 is arranged at one end, close to the auxiliary bag sealing component 6, of each protection clamping block 206, a spring supporting block 209 is arranged on the side wall of each protection clamping block 206, and the push-out spring 207 is fixedly arranged between each push-out clamping block 208 and each protection clamping block 206.

This subassembly 205 is prevented down to wrapping bag on feeding mechanism 2 can block the bag body, even the bag body has produced and has rocked, prevent down the existence of subassembly 205 because of there being the wrapping bag, the bag body can not overturn easily, during its operation, in case the bag body rocks, push away clamp splice 208 just can be promoted, because of push away clamp splice 208 and protection fixture block 206 between fixed mounting have push out spring 207, so push out spring 207 just can be extrudeed, thereby make the bag body by preliminary fixed, afterwards, in case the range of rocking is great, protection fixture block 206 just can be driven, thereby make the last push out spring 207 of protection fixture block 206 stretched, and this just makes the further increase of the ejecting force of subassembly 205 is prevented down to the wrapping bag, make the bag body by abundant fixed.

The material conveying belt 5 comprises a rotating cylinder 501, a pressing piece block 503 and a feeding belt 502, a plurality of pressing piece block movable grooves 504 are arranged on the side wall of the feeding belt 502 at equal intervals, the pressing piece block 503 penetrates through the feeding belt 502 and freely slides in the pressing piece block movable grooves 504, and a bearing spring 505 is fixedly arranged between the pressing piece block 503 and the feeding belt 502.

The material conveying belt 5 can drive the packaging bags to move during operation, once the packaging bags are loaded with materials, the pressing block 503 can be extruded by the materials to slide downwards along the pressing block movable groove 504 and then pressed on the weighing sensor 203, and the pressing block 503 is of an I-shaped structure, so that the pressing block 503 cannot be separated from the feeding belt 502 no matter the pressing block 503 slides upwards or downwards, and the side wall of the rotating cylinder 501 and the pressing block 503 are provided with grooves, so that the normal operation of the pressing block 503 is facilitated.

Although the invention has been described in detail above with reference to a general description and specific examples, it will be apparent to one skilled in the art that modifications or improvements may be made thereto based on the invention. Accordingly, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims

1. An independent packaging device, its characterized in that: the automatic bag feeding device comprises a storage bin (1), wherein a variable-frequency round tube conveying reamer (101) is arranged in the storage bin (1), an electric flashboard (102) is arranged at the position of an outlet at the lower end of the storage bin (1), a feeding mechanism (2) is arranged below the electric flashboard (102), an automatic bag feeding machine (3) is installed at the left end of the feeding mechanism (2), and a sealing machine (4) is arranged at the upper end of the right side of the feeding mechanism (2);

the feeding mechanism (2) comprises a fixed frame (201), a material conveying belt (5) is arranged in the fixed frame (201), a weighing sensor (203) is arranged on the inner side of the material conveying belt (5), the weighing sensor (203) is located under the electric flashboard (102) and is directly connected with the fixed frame (201), a set position alarm (204) is arranged on the right side of the weighing sensor (203), an auxiliary bag sealing component (6) for pre-sealing a packaging bag is arranged at the left side area of the sealing machine (4) at the upper end of the fixed frame (201), and a pre-pressing component (8) is arranged on the left side of the auxiliary bag sealing component (6);

the auxiliary bag sealing assembly (6) comprises a fixed top cover (601), a press-in round wheel (602) with the upper end connected with a driving motor is arranged on the fixed top cover (601), a protruding round wheel (603) is arranged at the front end of the press-in round wheel (602), and a bag body knocking assembly (7) is arranged at the lower end of the fixed top cover (601);

the bag body knocking component (7) comprises two placing frames (701) which are symmetrical about the central axis of the fixed top cover (601) and a rotating worm (703) which is connected with a convex circular wheel (603) through a belt pulley, the placing frame (701) penetrates through the fixed frame (201), a cam rotating shaft (702) is rotatably connected in the placing frame (701), a plurality of cams (709) are arranged on the side wall of the cam rotating shaft (702), and a rotary worm wheel (704) is installed at the center position of the side wall of the cam rotary shaft (702), the placing frame (701) is provided with a beating assembly (705) at one side close to the auxiliary envelope assembly (6), the beating assembly (705) penetrates through the placing frame (701) and corresponds to the position of the cam (709), a sliding groove (708) is formed in the position, corresponding to the beating assembly (705), of the side face of the placing frame (701).

2. The stand-alone baling device as recited in claim 1, further comprising: the prepressing assembly (8) comprises two fixing supports (801) which are symmetrical about a central axis of a fixing frame (201), one side, close to an auxiliary bag sealing assembly (6), of each fixing support (801) is provided with a clamping plate (802), an auxiliary limiting assembly (808) is fixedly mounted between each fixing support (801) and the corresponding clamping plate (802), two sides of each auxiliary limiting assembly (808) are provided with a main limiting assembly (803), each main limiting assembly (803) comprises a sliding bin (804) and a connecting column (805) with one end fixedly connected with the clamping plates (802), each connecting column (805) penetrates through the corresponding sliding bin (804) and freely slides in the corresponding sliding bin (804), and the other end of each connecting column (805) is connected with the corresponding sliding bin (804) through a supporting spring (807).

3. The stand-alone baling device as recited in claim 1, further comprising: the packaging bag anti-falling component is characterized in that a plurality of packaging bag anti-falling components (205) are arranged above the feeding mechanism (2), each packaging bag anti-falling component (205) comprises two symmetrically arranged protection clamping blocks (206), each protection clamping block (206) is rotatably connected with a fixed frame (201) through a rotating shaft, a push-out spring (207) is arranged between each protection clamping block (206) and the corresponding fixed frame (201), a push-out clamping block (208) is arranged at one end, close to the auxiliary bag sealing component (6), of each protection clamping block (206), a spring supporting block (209) is arranged on the side wall of each protection clamping block (206), and the push-out spring (207) is fixedly arranged between each push-out clamping block (208) and each protection clamping block (206).

4. The stand-alone baling device as recited in claim 1, further comprising: the beating assembly (705) comprises a plurality of beating pushing blocks (706) with linearly increasing lengths, the beating pushing blocks (706) penetrate through the placing frame (701) and freely slide in the sliding grooves (708), and a limiting spring (707) is fixedly installed between the beating pushing blocks (706) and the placing frame (701).

5. The stand-alone baling device as recited in claim 1, further comprising: the material conveying belt (5) comprises a rotating cylinder (501), pressing piece blocks (503) and a conveying belt (502), a plurality of pressing piece block movable grooves (504) are formed in the side wall of the conveying belt (502) at equal intervals, the pressing piece blocks (503) penetrate through the conveying belt (502) and freely slide in the pressing piece block movable grooves (504), and bearing springs (505) are fixedly installed between the pressing piece blocks (503) and the conveying belt (502).

6. The stand-alone baling device as recited in claim 5, further comprising: the pressing piece block (503) is of an I-shaped structure.

7. The stand-alone baling device as recited in claim 2, further comprising: the auxiliary limiting assembly (808) comprises a sliding bin (804) and a sliding bearing clamping block (809), one end of the sliding bearing clamping block (809) is rotatably connected with an auxiliary pressing wheel (806) and penetrates through the clamping plate (802), and the other end of the sliding bearing clamping block (809) is connected with the sliding bin (804) through a supporting spring (807).

8. The stand-alone baling device as recited in claim 1, further comprising: the side wall of the protruding round wheel (603) is provided with a convex ring sunken groove (604), and the side wall of the pressing round wheel (602) is provided with a convex ring (605).