CN220374855U

CN220374855U - V-shaped compression device

Info

Publication number: CN220374855U
Application number: CN202322055782.6U
Authority: CN
Inventors: 徐双喜; 张俊叶; 赵金龙; 赵泊伦; 蒋方兴; 李欣; 李文元; 宋强
Original assignee: Sanhe Wanhe Machinery Co ltd
Current assignee: Sanhe Wanhe Machinery Co ltd
Priority date: 2023-08-02
Filing date: 2023-08-02
Publication date: 2024-01-23
Anticipated expiration: 2033-08-02

Abstract

The utility model discloses a V-shaped compression device, which relates to the field of packing machines and comprises a V-shaped compression frame device, a feeding door device, a uniform distribution auger device, a push-out device, a left compression chamber device, a valve device, a vertical film winding and cutting device and a right compression chamber device, wherein the uniform distribution auger device is arranged above the inside of the V-shaped compression frame device, the push-out device is arranged at the rear side of the V-shaped compression frame device, the left compression chamber device is arranged at the left side inside the V-shaped compression frame device, and the right compression chamber device is arranged at the right side inside the V-shaped compression frame device. According to the utility model, the V-shaped compression of forage is completed by utilizing the work of the compression cylinder, and the multi-level transmission of the prior art is changed, so that the transmission and structural arrangement of square forage bags are simplified, and the space is saved; the square stock bag is effectively pushed out by utilizing the work of the large oil cylinder and the small oil cylinder, so that the time for film winding action is shortened, the power consumption is reduced, the failure rate is reduced, and the working efficiency is improved.

Description

V-shaped compression device

Technical Field

The utility model belongs to the technical field of packing machines, and particularly relates to a V-shaped compression device.

Background

The packer is also called a bundling machine, a tape-binding machine or a bundling machine, and is characterized in that a bundling tape is used for bundling products or packages, then the two ends are tightened and combined in a hot-melting bonding mode through a heating ironing head, and the function of the packer is to strengthen packaged articles, so that the articles are not scattered due to loose bundling in the process of carrying and storage, and meanwhile, the bundling machine should be tidy and attractive.

At present, when packing the material, often need use the baling press, current baling press adopts a plurality of compression roller rotation extrusion material that arrange into circular shape, perhaps adopts pair roller structure extrusion material, makes the material become circular bundle form under the extrusion effect, and current material compression device structure is more complicated, and its power transmission structure is comparatively loaded down with trivial details, has taken up great space, and power consumption is great, and the fault rate is higher.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the utility model provides the V-shaped compression device, which effectively solves the problems that a packer is often needed to be used when materials are packed, the existing packer is used for rotationally extruding the materials by adopting a plurality of press rolls which are distributed into a round shape or is used for extruding the materials by adopting a double-roll structure, so that the materials are formed into round bundle shapes under the extrusion action, the structure of the existing material compression device is complex, the power transmission structure is complex, the occupied space is large, the power consumption is large, and the failure rate is high.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a V type compression device, includes V type compression frame device, loading gate device, equipartition auger device, ejecting device, left compression chamber device, valve device, perpendicular twine membrane cutting device and right compression chamber device, equipartition auger device sets up in the inside top of V type compression frame device, ejecting device is in the rear side of V type compression frame device, left compression chamber device sets up in the inside left side of V type compression frame device, right compression chamber device sets up in the inside right side of V type compression frame device, loading gate device installs directly over V type compression frame device, and the material can get into left compression chamber device and right compression chamber device through loading gate device, perpendicular twine membrane cutting device sets up in the inside rear side of V type compression frame device, valve device also sets up in the inside rear side of V type compression frame device, the front side of V type compression frame device still is fixed and is provided with filling device for carry the material to left compression chamber device and right compression chamber device, the inside still is provided with the stock device of V type compression frame device.

Preferably, the even distribution auger device comprises two groups of even distribution augers, an even distribution power motor, an even distribution input chain wheel and a chain, wherein the two groups of even distribution augers are respectively arranged in the V-shaped compression frame device in a rotating mode through bearings, the even distribution power Ma Dagu is arranged in the V-shaped compression frame device, and the even distribution power motor applies power to the two groups of even distribution augers through the even distribution input chain wheel and the chain, so that the two groups of even distribution augers rotate relatively.

Preferably, pressing plates are arranged above the left compression chamber device and the right compression chamber device, compression frame welding devices are arranged on the upper sides of the pressing plates, two groups of compression cylinders are fixedly arranged in the V-shaped compression frame device through compression cylinder mounting seats, and the lower ends of each group of compression cylinders are connected with the compression frame welding devices through mounting pin shafts.

Preferably, the installation end of each installation pin shaft is provided with an oil cylinder clip, the upper side of each pressing plate is connected with two guide wheel devices through a connecting rod, the outer sides of the two guide wheel devices are sleeved with guide rail grooves in a sliding mode, and the two guide rail grooves are fixedly installed in the V-shaped compression frame device.

Preferably, the feeding door device comprises two side heightening plates and a rear heightening plate, the rear heightening plate is fixedly arranged at the rear side of the upper end of the V-shaped compression frame device, and the two side heightening plates are respectively fixedly arranged at the left side and the right side of the upper end of the V-shaped compression frame device and are connected with the rear heightening plate.

Preferably, the pushing device comprises a pushing large oil cylinder and a pushing small oil cylinder, the pushing large oil cylinder and the pushing small oil cylinder are both arranged on the front side of the V-shaped compression frame device, the pushing large oil cylinder pushing plate device and the pushing small oil cylinder pushing plate device are arranged in the V-shaped compression frame device and are fixedly connected with the moving ends of the pushing large oil cylinder and the pushing small oil cylinder respectively, the pushing large oil cylinder and the pushing small oil cylinder are both provided with sensors, the V-shaped compression frame device is also provided with a sensor positioning rod, and the sensor positioning rod can be in contact with the sensors on the pushing large oil cylinder and the pushing small oil cylinder.

Preferably, the rear side of the V-shaped compression frame device is further provided with a horizontal winding device, the V-shaped compression frame device is further provided with a first valve cylinder and a second valve cylinder, the rear side of the V-shaped compression frame device is further provided with a plurality of annular casters which are uniformly distributed in an annular shape, a plurality of vertically-winding large rings are rotatably arranged among the annular casters, the vertically-winding large rings are used for vertically winding films on materials, the rear side of the V-shaped compression frame device is further provided with a vertical film cutting cylinder, and the vertical film cutting cylinder is used for cutting off the wound films and then performs a horizontal film winding action.

Preferably, the lower end of the rear side of the V-shaped compression frame device is fixedly provided with a winding bottom frame, and the left and right ends of the rear side of the V-shaped compression frame device are respectively fixedly provided with a winding left frame and a winding right frame, and the winding left frame and the winding right frame are respectively fixedly connected with the left and right ends of the winding bottom frame.

Preferably, a storage table device is arranged at one side below the V-shaped compression frame device.

The utility model has the technical effects and advantages that:

1. the device consists of a V-shaped compression frame device, a feeding gate device, a storage device, a uniform packing auger device, a push-out device, a left compression chamber device, a valve device, a vertical film winding and cutting device and a right compression chamber device, wherein materials enter the compression chamber device from a filling device or directly enter the compression chamber device from equipment through the feeding gate device, then are thrown into the storage device or the compression chamber through the uniform packing auger device, the uniform packing auger device consists of a uniform distribution power motor, a uniform distribution input chain wheel, and the like, the power is transmitted by a chain, the two groups of uniform packing augers relatively rotate to throw in the materials, the materials begin to be compressed, the materials are compressed into square bundles through the extending work of pistons of compression cylinders of the left compression chamber and the right compression chamber, position sensors are arranged above the left compression chamber and the right compression chamber and used for monitoring that the materials with different densities stop being compressed after reaching a compression state, the material is pushed out of the compression chamber through the pushing device, the pushing device comprises a pushing large oil cylinder and a pushing small oil cylinder, the two oil cylinders are respectively provided with a position sensor, the position sensors are connected with a positioning rod, the pushing large oil cylinder firstly pushes the material in place, then the pushing small oil cylinder receives signals of the position sensors, the pushing of the material is started, then the material enters the winding device, the winding device vertically winds and horizontally winds the material, the vertical winding is completed under the rotation of the circular ring device, the circular ring device is arranged at the circular ring truckle, one end of the film is clamped at the vertical film winding and cutting device, after the vertical winding action of the material is completed, the vertical film cutting oil cylinder stretches out of the cutting film after receiving the signals of the sensors, so that the next horizontal film winding action is performed, the device completes V-shaped compression of the grass by utilizing the work of the compression oil cylinder, the multi-level transmission of the prior art is changed, thereby simplifying the transmission and structural arrangement of the square forage bag and saving the space; the square stock bag is effectively pushed out by utilizing the work of the large oil cylinder and the small oil cylinder, so that the time for film winding action is shortened, the power consumption is reduced, the failure rate is reduced, and the working efficiency is improved.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model. In the drawings:

FIG. 1 is a schematic view of the overall front perspective structure of the present utility model;

FIG. 2 is a schematic view of the overall rear perspective of the present utility model;

FIG. 3 is a schematic side view of the present utility model;

FIG. 4 is a schematic view of the structure of the left and right compressing members of the present utility model;

FIG. 5 is a schematic view of the ejector of the present utility model;

FIG. 6 is a schematic view of a shutter device according to the present utility model;

fig. 7 is a schematic structural view of a welding device for a compression chamber frame according to the present utility model.

In the figure: 1. a V-shaped compression frame arrangement; 2. a guide rail groove; 3. a loading door device; 4. a stock device; 5. evenly distributing auger devices; 6. uniformly distributing input chain wheels; 7. uniformly distributing power motors; 8. a filling device; 9. pushing out a large oil cylinder; 10. an ejector; 11. a left compression chamber device; 12. a valve cylinder I; 13. a shutter device; 14. vertically winding a large circular ring; 15. a horizontal winding device; 16. a vertical film winding and cutting device; 17. ring castor; 18. a compression cylinder mounting seat; 19. a right compression chamber means; 20. a vertical membrane cutting oil cylinder; 21. a valve cylinder II; 22. compression frame welding device; 23. a storage table device; 24. a compression cylinder; 25. installing a pin shaft; 26. an oil cylinder clip; 27. a guide wheel device; 28. a side heightening plate; 29. a rear heightening plate; 30. pushing out a small oil cylinder; 31. pushing out a large oil cylinder push plate device; 32. pushing out a small oil cylinder push plate device; 33. a sensor positioning rod; 34. winding a bottom frame; 35. winding a left frame; 36. and winding the right frame.

Detailed Description

The utility model provides a V-shaped compression device as shown in figures 1-7, which comprises a V-shaped compression frame device 1, a feeding gate device 3, a uniform packing auger device 5, a push-out device 10, a left compression chamber device 11, a valve device 13, a vertical film winding and cutting device 16 and a right compression chamber device 19, wherein the uniform packing auger device 5 is arranged above the inside of the V-shaped compression frame device 1, the push-out device 10 is arranged at the rear side of the V-shaped compression frame device 1, the left compression chamber device 11 is arranged at the left inside of the V-shaped compression frame device 1, the right compression chamber device 19 is arranged at the right inside of the V-shaped compression frame device 1, the feeding gate device 3 is arranged right above the V-shaped compression frame device 1, materials can enter the left compression chamber device 11 and the right compression chamber device 19 through the feeding gate device 3, the vertical film winding and cutting device 16 is arranged at the rear inside of the V-shaped compression frame device 1, the device 13 is also arranged at the rear inside of the V-shaped compression frame device 1, a filling device 8 is fixedly arranged at the front side of the V-shaped compression frame device 1 and is used for conveying materials to the left compression chamber device 11 and the right compression chamber device 19 and the valve device 4 are arranged in the V-shaped compression frame device 1.

Meanwhile, the uniformly distributed auger device 5 comprises two groups of uniformly distributed augers, a uniformly distributed power motor 7, a uniformly distributed input chain wheel 6 and a chain, the two groups of uniformly distributed augers are rotatably arranged in the V-shaped compression frame device 1 through bearings, the uniformly distributed power motor 7 is fixedly arranged in the V-shaped compression frame device 1, and the uniformly distributed power motor 7 applies power to the two groups of uniformly distributed augers through the uniformly distributed input chain wheel 6 and the chain, so that the two groups of uniformly distributed augers rotate relatively.

In addition, the upper sides of the left compression chamber device 11 and the right compression chamber device 19 are respectively provided with a pressing plate, the upper sides of the pressing plates are provided with compression frame welding devices 22, two groups of compression cylinders 24 are fixedly installed in the V-shaped compression frame device 1 through compression cylinder installation bases 18, and the lower ends of the compression cylinders 24 are respectively connected with the compression frame welding devices 22 through installation pin shafts 25.

And, the installation end of every mounting pin 25 all is provided with hydro-cylinder checkpost 26, and the upside of every clamp plate all is connected with two guide pulley device 27 through the connecting rod, and the outside of two guide pulley device 27 all overlaps and is equipped with guide rail groove 2, and two guide rail grooves 2 all fixed mounting are in V type compression frame device 1.

The loading door device 3 includes two side heightening plates 28 and a rear heightening plate 29, the rear heightening plate 29 is fixedly arranged at the rear side of the upper end of the V-shaped compression frame device 1, and the two side heightening plates 28 are fixedly arranged at the left and right sides of the upper end of the V-shaped compression frame device 1 and are connected with the rear heightening plate 29.

It should be further noted that, the pushing device 10 includes a large pushing cylinder 9 and a small pushing cylinder 30, the large pushing cylinder 9 and the small pushing cylinder 30 are both installed at the front side of the V-shaped compression frame device 1, the large pushing cylinder device 31 and the small pushing cylinder device 32 are disposed inside the V-shaped compression frame device 1, the large pushing cylinder device 31 and the small pushing cylinder device 32 are respectively and fixedly connected with the moving ends of the large pushing cylinder 9 and the small pushing cylinder 30, the large pushing cylinder 9 and the small pushing cylinder 30 are both provided with sensors, the V-shaped compression frame device 1 is also provided with a sensor positioning rod 33, and the sensor positioning rod 33 can be in contact with the sensors on the large pushing cylinder 9 and the small pushing cylinder 30.

It should be further noted that, the rear side of the V-shaped compression frame apparatus 1 is further provided with a horizontal winding apparatus 15, the V-shaped compression frame apparatus 1 is further provided with a first valve cylinder 12 and a second valve cylinder 21, the rear side of the V-shaped compression frame apparatus 1 is further provided with a plurality of ring casters 17 which are uniformly distributed in a ring shape, a vertical winding large ring 14 is rotatably provided between the ring casters 17, the vertical winding large ring 14 is used for vertically winding a film on a material, the rear side of the V-shaped compression frame apparatus 1 is further provided with a vertical film cutting cylinder 20, and the vertical film cutting cylinder 20 is used for cutting a wound film and then performing a horizontal film winding action.

It should be noted that, the lower end of the rear side of the V-shaped compression frame apparatus 1 is fixedly provided with a winding bottom frame 34, and the left and right ends of the rear side of the V-shaped compression frame apparatus 1 are respectively fixedly provided with a winding left frame 35 and a winding right frame 36, and the winding left frame 35 and the winding right frame 36 are respectively fixedly connected with the left and right ends of the winding bottom frame 34.

The storage table device 23 is provided on the lower side of the V-shaped compression frame device 1.

The working principle of the utility model is as follows: the device consists of a V-shaped compression frame device 1, a feeding gate device 3, a storage device 4, a uniform packing auger device 5, a pushing device 10, a left compression chamber device 11, a valve device 13, a vertical film winding and cutting device 16 and a right compression chamber device 19, wherein materials enter the compression chamber device by a filling device 8 or directly enter the compression chamber device by equipment through the feeding gate device 3, then are thrown into the storage device 4 or the compression chamber by the uniform packing auger device 5, the uniform packing auger device 5 consists of a uniform packing power motor 7, a uniform packing input chain wheel 6 and the like, the power is driven by a chain, the two groups of uniform packing augers relatively rotate to throw in the materials, the materials begin to be compressed later, the materials are compressed into square bundles by the extending work of pistons of compression cylinders 24 of the left compression chamber and the right compression chamber, position sensors are arranged above the left compression chamber and the right compression chamber and are used for monitoring that the materials with different densities stop being compressed after reaching a compression state, the material is pushed out of the compression chamber through the pushing device 10, the pushing device 10 comprises a large pushing oil cylinder 9 and a small pushing oil cylinder 30, the two oil cylinders are respectively provided with a position sensor, the position sensors are connected with a positioning rod, the large pushing oil cylinder 9 firstly pushes the material in place, the small pushing oil cylinder 30 receives a signal of the position sensor after the material is pushed in place, the material starts pushing, then enters a winding device, the winding device vertically winds and horizontally winds the material, the vertical winding is completed under the rotation of the circular ring device, the circular ring device is arranged at a circular ring truckle 17, one end of a film is clamped at the vertical film winding and cutting device 16, after the vertical winding action of the material is finished, the vertical film cutting oil cylinder 20 stretches out of a cutting film after receiving the sensor signal, so that the next horizontal film winding action is carried out, the upper device works by utilizing the compression oil cylinder 24, the V-shaped compression of the forage is completed, and the multi-level transmission in the prior art is changed, so that the transmission and structural arrangement of square forage bags are simplified, and the space is saved; the square stock bag is effectively pushed out by utilizing the work of the large oil cylinder and the small oil cylinder, so that the time for film winding action is shortened, the power consumption is reduced, the failure rate is reduced, and the working efficiency is improved.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A V-shaped compression device, characterized by: the device comprises a V-shaped compression frame device (1), a feeding gate device (3), a uniform packing auger device (5), a pushing device (10), a left compression chamber device (11), a valve device (13), a vertical winding film cutting device (16) and a right compression chamber device (19), wherein the uniform packing auger device (5) is arranged above the inside of the V-shaped compression frame device (1), the pushing device (10) is arranged at the rear side of the V-shaped compression frame device (1), the left compression chamber device (11) is arranged at the left side of the inside of the V-shaped compression frame device (1), the right compression chamber device (19) is arranged at the right side of the inside of the V-shaped compression frame device (1), the feeding gate device (3) is arranged right above the V-shaped compression frame device (1), materials can enter the left compression chamber device (11) and the right compression chamber device (19) through the feeding gate device (3), the vertical winding film cutting device (16) is arranged at the rear side of the inside of the V-shaped compression frame device (1), the valve device (13) is also arranged at the rear side of the V-shaped compression frame device (1), the valve device (13) is arranged at the front side of the V-shaped compression frame device (1) and is used for compressing materials in the left compression frame device (1) and is fixed in the left compression device (8), the inside of the V-shaped compression frame device (1) is also provided with a stock device (4).

2. A V-shaped compression apparatus according to claim 1, wherein: the even distribution auger device (5) comprises two groups of even distribution augers, an even distribution power motor (7), an even distribution input chain wheel (6) and a chain, wherein the even distribution augers are arranged inside the V-shaped compression frame device (1) in a rotating mode through bearings, the even distribution power motor (7) is fixedly arranged in the V-shaped compression frame device (1), and the even distribution power motor (7) applies power to the two groups of even distribution augers through the even distribution input chain wheel (6) and the chain, so that the two groups of even distribution augers rotate relatively.

3. A V-shaped compression apparatus as claimed in claim 2 wherein: the compression device is characterized in that pressing plates are arranged above the left compression chamber device (11) and the right compression chamber device (19), compression frame welding devices (22) are arranged on the upper sides of the pressing plates, two groups of compression cylinders (24) are fixedly installed in the V-shaped compression frame device (1) through compression cylinder installation bases (18), and the lower ends of each group of compression cylinders (24) are connected with the compression frame welding devices (22) through installation pin shafts (25).

4. A V-shaped compression apparatus according to claim 3, wherein: the installation end of every installation round pin axle (25) all is provided with hydro-cylinder checkpost (26), every the upside of clamp plate all is connected with two guide pulley device (27) through the connecting rod, and two the outside of guide pulley device (27) all overlaps in the slip cap and is equipped with guide rail groove (2), two guide rail groove (2) are all fixed mounting in V type compression frame device (1).

5. The V-shaped compression apparatus of claim 4 wherein: the feeding door device (3) comprises two side heightening plates (28) and a rear heightening plate (29), the rear heightening plate (29) is fixedly arranged at the rear side of the upper end of the V-shaped compression frame device (1), and the two side heightening plates (28) are respectively fixedly arranged at the left side and the right side of the upper end of the V-shaped compression frame device (1) and are connected with the rear heightening plate (29).

6. A V-shaped compression apparatus according to claim 5 wherein: the pushing device (10) comprises a pushing large oil cylinder (9) and a pushing small oil cylinder (30), the pushing large oil cylinder (9) and the pushing small oil cylinder (30) are both arranged on the front side of the V-shaped compression frame device (1), a pushing large oil cylinder pushing plate device (31) and a pushing small oil cylinder pushing plate device (32) are arranged in the V-shaped compression frame device (1), the pushing large oil cylinder pushing plate device (31) and the pushing small oil cylinder pushing plate device (32) are fixedly connected with moving ends of the pushing large oil cylinder (9) and the pushing small oil cylinder (30) respectively, sensors are arranged on the pushing large oil cylinder (9) and the pushing small oil cylinder (30), a sensor positioning rod (33) is further arranged in the V-shaped compression frame device (1), and the sensor positioning rod (33) can be in contact with the sensors on the pushing large oil cylinder (9) and the pushing small oil cylinder (30).

7. A V-shaped compression apparatus according to claim 6, wherein: the novel film winding device is characterized in that a horizontal winding device (15) is further arranged on the rear side of the V-shaped compression frame device (1), a first valve oil cylinder (12) and a second valve oil cylinder (21) are further arranged in the V-shaped compression frame device (1), a plurality of annular casters (17) which are uniformly distributed in an annular mode are further arranged on the rear side of the V-shaped compression frame device (1), a large vertical winding ring (14) is rotatably arranged between the annular casters (17), the large vertical winding ring (14) is used for vertically winding films on materials, a vertical film cutting oil cylinder (20) is further arranged on the rear side of the V-shaped compression frame device (1), and the vertical film cutting oil cylinder (20) is used for cutting off the wound films and then performing horizontal film winding actions.

8. A V-shaped compression apparatus according to claim 7 wherein: the rear side lower extreme of V type compression frame device (1) is fixedly provided with winding underframe (34), and the both ends are fixed respectively about the rear side of V type compression frame device (1) are provided with winding left frame (35) and winding right frame (36), winding left frame (35) and winding right frame (36) are respectively with the both ends fixed connection about winding underframe (34).

9. A V-shaped compression apparatus according to claim 8, wherein: a storage table device (23) is arranged on one side below the V-shaped compression frame device (1).