CN210235526U - Vacuum assembly body with unloading function - Google Patents

Abstract

The utility model discloses a vacuum assembly body with unloading function, vacuum assembly body include vacuum mechanism, envelope mechanism, pressing mechanism, and envelope mechanism, pressing mechanism, unloading mechanism install in vacuum mechanism. The existing vacuum packaging device is single in function and does not have a pressing function, when small particles such as brown sugar and coffee are brewed to be packaged, the particles are easy to scatter along with air flow due to direct use of the vacuum packaging device, the problem of uneven packaging weight is caused, and therefore vacuum packaging needs to be carried out after the small particles are pressed firstly, manual blanking is needed, and packaging efficiency and packaging cost are affected. The utility model discloses an integrated unloading mechanism in the vacuum assembly body makes the vacuum assembly body have automatic unloading function, avoids the manual work to get the material, has improved the degree of automation of the vacuum assembly body.

Description

Vacuum assembly body with unloading function

Technical Field

The utility model relates to a vacuum assembly body, especially a vacuum assembly body with unloading function can be used to tealeaves, brown sugar etc. and dash the packing of dashing bubble drink.

Background

The brewing beverage is used as a substitute of a liquid direct-drinking beverage, mostly exists in a solid form, such as tea, coffee, brown sugar and the like, has the advantages of convenience in carrying and the like, and can be prepared by only adding water when drinking. The preservation of the brewing beverage is mainly based on nitrogen preservation, but the nitrogen-preserved brewing beverage has limited portable quantity due to overlarge volume of a packaging bag, so that the vacuum packaging device is mainly adopted to carry out vacuum packaging preservation on the brewing beverage at the present stage so as to reduce the volume of the packaging bag, such as a vacuum-packaged tea bag and the like. However, the existing vacuum packaging device has a structure which cannot be complicated for realizing a better vacuumizing function, does not have a blanking function, and needs manual blanking.

Disclosure of Invention

The utility model provides a vacuum assembly body with unloading function to solve vacuum packaging device function singleness among the prior art at least, the problem of unable automatic unloading.

The utility model provides a vacuum assembly body with blanking function, the vacuum assembly body includes vacuum mechanism, bag sealing mechanism, pressing mechanism, unloading mechanism, bag sealing mechanism, pressing mechanism install in vacuum mechanism, pressing mechanism locates bag sealing mechanism below, unloading mechanism locates pressing mechanism below, unloading mechanism includes material-bearing frame, rotor plate, rack, telescoping device, material-bearing frame, rotor plate, rack are installed in vacuum mechanism, telescoping device installs outside vacuum mechanism, material-bearing frame is upper and lower open-ended framework, rotatable installation of rotor plate one side is in material-bearing frame below, the axis of rotation has between rotor plate and the material-bearing frame, the one end of rotor plate side is equipped with the arc tooth, the centre of a circle of arc tooth is on the same straight line with the axis of rotation, the telescoping device has flexible end, the telescopic end is connected with the rack, the rack is meshed with the arc-shaped teeth, and the relative movement between the rack and the arc-shaped teeth can drive the rotating plate to rotate along the rotating shaft.

Furthermore, the vacuum mechanism comprises a left vacuum shell, a right vacuum shell and a sliding rod, the left vacuum shell is connected with the right vacuum shell through the sliding rod, one side of the left vacuum shell, facing the right vacuum shell, is concave inwards to form a first cavity, one side of the right vacuum shell, facing the left vacuum shell, is concave inwards to form a second cavity, the first cavity and the second cavity correspond in position and can form a vacuum cavity, and the bag sealing mechanism and the pressing mechanism are installed in the first cavity and the second cavity.

Furthermore, the vacuum assembly body further comprises a lifting power mechanism and a transmission connecting piece, wherein the lifting power mechanism is arranged at the bottom of the vacuum mechanism and is connected with the pressing mechanism through the transmission connecting piece.

Furthermore, the vacuum assembly body further comprises a first power cylinder and a second power cylinder, the bag sealing mechanism comprises a first seal head, a second seal head, a first electric wire and a second electric wire, the first power cylinder and the second power cylinder are respectively arranged on the left side of the left vacuum shell and the right side of the right vacuum shell, the first seal head is arranged in the first cavity and connected with the first power cylinder, the second seal head is arranged in the second cavity and connected with the second power cylinder, the position of the first seal head corresponds to that of the second seal head, the vacuum assembly body further comprises a first fixing shaft and a second fixing shaft, one end of the first fixing shaft penetrates through the first power cylinder and is connected with the first seal head, the first seal head is connected with one end of the first electric wire, the first electric wire penetrates through one end of the first fixing shaft, which is positioned on the inner side of the vacuum mechanism, and penetrates out from one end of the first fixing shaft, which is positioned on the outer side of the vacuum mechanism, one end of the second fixing shaft penetrates through the second power cylinder and is connected with the second seal head, the second seal head is connected with one end of a second electric wire, and the second electric wire penetrates through one end, located on the inner side of the vacuum mechanism, of the second fixing shaft and penetrates out of one end, located on the outer side of the vacuum mechanism, of the second fixing shaft.

Furthermore, pressing mechanism includes first pressfitting board, second pressfitting board, first transmission board, second driving plate, first elastic component, second elastic component, fixed station, first pressfitting board, second pressfitting board are articulated with the fixed station respectively, first transmission board sets up in one side that the second pressfitting board was kept away from to first pressfitting board, just first transmission board is articulated with first pressfitting board, second driving plate sets up in one side that first pressfitting board was kept away from to the second pressfitting board, just second transmission board is articulated with second pressfitting board, first elastic component is installed between first pressfitting board and first transmission board, second elastic component is installed between second pressfitting board and second driving plate.

Furthermore, the vacuum assembly body still includes first connecting piece, second connecting piece, the upper end of first connecting piece, the upper end of second connecting piece link to each other with first head bottom, second head bottom respectively, the substructure of first connecting piece, second connecting piece is located pressing mechanism's both sides respectively, just first drive plate is located between first connecting piece and the first pressfitting board, the second drive plate is located between second connecting piece and the second pressfitting board.

Furthermore, still be equipped with first spill fastener on the first pressfitting board, first pressfitting board forms first slotted hole with first spill fastener, first connecting piece inserts in first slotted hole, still be equipped with second spill fastener on the second pressfitting board, second pressfitting board forms the second slotted hole with second spill fastener, the second connecting piece inserts in the second slotted hole.

Furthermore, the vacuum assembly body further comprises a fixed side plate, a third power cylinder and a fourth power cylinder, the fixed side plate is arranged on the left side of the left vacuum shell, and the third power cylinder and the fourth power cylinder penetrate through the fixed side plate and are connected with the left vacuum shell.

Furthermore, a material placing table is further arranged between the first pressing plate and the second pressing plate.

Furthermore, the lifting power mechanism is a servo motor.

Compared with the prior art, the utility model, through the integrated unloading mechanism in the vacuum assembly body, make the vacuum assembly body have automatic unloading function, avoid the manual work to get the material, improved the degree of automation of the vacuum assembly body.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic structural view of a bag sealing mechanism and a pressing mechanism according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a pressing mechanism according to an embodiment of the present invention;

fig. 4 is a schematic structural view of the bag sealing mechanism, the pressing mechanism and the blanking mechanism in the embodiment of the present invention;

fig. 5 is a schematic structural view of a blanking mechanism according to an embodiment of the present invention;

fig. 6 is a schematic structural view of a rotating plate according to an embodiment of the present invention.

Detailed Description

In order to make the technical solution of the present invention better understood, the technical solution of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts shall belong to the protection scope of the present invention.

It should be noted that the terms "first," "second," and the like in the description and claims of the present invention and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order.

The embodiment of the utility model discloses a vacuum assembly body with blanking function, as shown in figure 1, the vacuum assembly body comprises a vacuum mechanism 1, a bag sealing mechanism 2 and a pressing mechanism 3, the bag sealing mechanism 2 and the pressing mechanism 3 are installed in the vacuum mechanism 1, the pressing mechanism 3 is arranged below the bag sealing mechanism 2, the blanking mechanism 4 is arranged below the pressing mechanism 3, as shown in figure 4-6, the blanking mechanism 4 comprises a material bearing frame 41, a rotating plate 42, a rack 431 and a telescopic device 43, the material bearing frame 41, the rotating plate 42 and the rack 431 are installed in the vacuum mechanism 1, the telescopic device 43 is installed outside the vacuum mechanism 1, the material bearing frame 41 is a frame body with an upper opening and a lower opening, one side of the rotating plate 42 is rotatably installed below the material bearing frame 41, a rotating shaft is arranged between the rotating plate 42 and the material bearing frame 41, one end of the side of the rotating plate 42 is provided with arc-shaped teeth, the centre of a circle of arc tooth and axis of rotation are located collinear, telescoping device 43 has flexible end, flexible end links to each other with rack 431, rack 431 and the meshing of arc tooth, relative movement between rack 431 and the arc tooth can drive rotor plate 42 and rotate along the axis of rotation.

As shown in fig. 1, the vacuum assembly further includes a material guiding chute 5, and the material guiding chute 5 is located below the vacuum mechanism 1. As shown in fig. 4-6, the rack 431 is slidably mounted at one end of the material receiving frame 41, and the horizontal movement of the rack 431 can drive the arc-shaped teeth to rotate, so that the rotating plate 42 rotates, and the bottom of the material receiving frame 41 is opened or closed. The blanking mechanism 4 further comprises a guide groove 44, and the guide groove 44 is installed above the material bearing frame 41. One end of the rack 431 is slidably inserted outside the vacuum mechanism 1 and is connected with a telescopic device 43, which is a cylinder.

The utility model discloses an integrated unloading mechanism in the vacuum assembly body makes the vacuum assembly body have automatic unloading function, avoids the manual work to get the material, has improved the degree of automation of the vacuum assembly body.

Optionally, as shown in fig. 1, the vacuum mechanism includes a left vacuum housing 11, a right vacuum housing 12, and a slide bar 16, the left vacuum housing 11 is connected to the right vacuum housing 12 through the slide bar 16, a first cavity is formed by recessing one side of the left vacuum housing 11 facing the right vacuum housing 12, a second cavity is formed by recessing one side of the right vacuum housing 12 facing the left vacuum housing 11, the first cavity and the second cavity correspond to each other in position and may form a vacuum cavity, and the bag sealing mechanism and the pressing mechanism are installed in the first cavity and the second cavity.

Specifically, as shown in fig. 1, the vacuum assembly further includes a fixed side plate 13, a third power cylinder 14, and a fourth power cylinder 15, the fixed side plate 13 is disposed on the left side of the left vacuum casing 11, and the third power cylinder 14 and the fourth power cylinder 15 penetrate through the fixed side plate 13 and are connected to the left vacuum casing 11.

As shown in fig. 1, four corners of the side surfaces of the left vacuum housing 11 and the right vacuum housing 12 are connected through a sliding rod 16, the fixed side plate 13 and the right vacuum housing 12 are respectively fixedly connected with two ends of the sliding rod 16, the left vacuum housing 11 is slidably connected with the sliding rod 16, and the left vacuum housing 11 can slide left and right on the sliding rod 16. A first material guide plate 18 and a second material guide plate 17 are respectively arranged at the upper openings of the left vacuum shell 11 and the right vacuum shell 12, and the adjacent sides of the first material guide plate 18 and the second material guide plate 17 are lower, so that a material guide structure is formed. The third power cylinder 14 and the fourth power cylinder 15 are both fixed on the fixed side plate 13, and the transmission structure of the third power cylinder 14 and the fourth power cylinder 15 penetrates through the fixed side plate 13 and is connected with the left vacuum shell 11, so that the third power cylinder 14 and the fourth power cylinder 15 can drive the left vacuum shell 11 to move relative to the fixed side plate 13.

It should be noted that, in the embodiment of the present invention, the third power cylinder 14 and the fourth power cylinder 15 are air cylinders, but are not limited to air cylinders, and power mechanisms such as linear motors and hydraulic cylinders may also be selected according to actual needs. The edges of the first cavity and the second cavity are also provided with sealing gasket structures, and when the left vacuum shell 11 and the right vacuum shell 12 are jointed, the first cavity and the second cavity can form a sealed vacuum cavity through the sealing gaskets. The left vacuum shell 11 and the right vacuum shell 12 can be externally connected with a vacuum pump structure, and the vacuum pump is used for removing gas in the vacuum cavity.

The embodiment of the utility model provides a through integrated pressing mechanism 3 in the vacuum assembly body, make the vacuum assembly body have two kinds of functions of vacuum packaging and pressfitting, when dashing bubble beverage to tiny particles such as brown sugar, coffee and packing, can carry out vacuum pressfitting packing to it, avoided the particle along with the problem that the air current scatters. And simultaneously, the embodiment of the utility model provides a through adopting pressing mechanism 3, make the vacuum assembly body can make the shaping to granule such as brown sugar, coffee dashes and steep beverages, make each finished appearance homogeneous, pleasing to the eye of packing, improve the finished appearance of packing, improve consumer's purchase desire. Furthermore, the embodiment of the utility model provides a through integrated vacuum mechanism 1, bag sealing mechanism 2, pressing mechanism 3, make the staff can come the selective encapsulation function of using the assembly body according to the characteristic and the packaging method of actual packaging product, enlarge the range of application of the assembly body, reduce manufacturer's assembly packaging cost.

In particular, the vacuum assembly body further comprises a lifting power mechanism 46 and a transmission connecting piece 45, wherein the lifting power mechanism 46 is arranged at the bottom of the vacuum mechanism 1, and the lifting power mechanism 46 is connected with the pressing mechanism 3 through the transmission connecting piece 45.

In particular, the lifting power mechanism 46 is a servo motor. The drive connection 45 is an optical axis.

Wherein, the lifting power mechanism is connected with the bottom of the right vacuum shell 12 through a transmission connecting piece. The transmission connecting piece penetrates through the bottom of the right vacuum shell 12 and is connected with the pressing mechanism 3. And a gear structure is arranged outside a rotor of the servo motor, a tooth-shaped groove matched with the gear structure is arranged on the optical axis, the servo motor can drive the optical axis to move up and down through the rotation of the driving gear structure, and the optical axis can drive the pressing mechanism 3 to move up and down in the vacuum cavity.

The embodiment of the utility model provides a through set up lift power unit in the vacuum assembly body, make pressing mechanism 3 can carry out elevating movement in the vacuum cavity, make pressing mechanism 3 not only can carry out simple pressfitting with the granule, still can concentrate the extrusion with the granule through elevating movement after the pressfitting, form intensive block, further reduce the interior granule volume of wrapping bag, improve pressing mechanism 3 and extrude the pressfitting effect of granule.

Particularly, as shown in fig. 2, the vacuum assembly further includes a first power cylinder 23 and a second power cylinder 24, the bag sealing mechanism 2 includes a first sealing head 21, a second sealing head 22, a first electric wire and a second electric wire, the first power cylinder 23 and the second power cylinder 24 are respectively disposed on the left side of the left vacuum shell 11 and the right side of the right vacuum shell 12, the first sealing head 21 is disposed in the first cavity and connected to the first power cylinder 23, the second sealing head 22 is disposed in the second cavity and connected to the second power cylinder 24, the first sealing head 21 corresponds to the second sealing head 22, the vacuum assembly further includes a first fixing shaft and a second fixing shaft, one end of the first fixing shaft passes through the first power cylinder 23 and is connected to the first sealing head 21, the first sealing head 21 is connected to one end of the first electric wire, the first electric wire penetrates through one end of the first fixing shaft located inside the vacuum mechanism, and the second wire penetrates through one end of the second fixed shaft positioned at the inner side of the vacuum mechanism and penetrates out of one end of the second fixed shaft positioned at the outer side of the vacuum mechanism.

Specifically, as shown in fig. 2 and 3, the pressing mechanism 3 includes a first pressing plate 31, a second pressing plate 32, a first transmission plate 33, a second transmission plate 34, a first elastic member, a second elastic member, and a fixing base 39, wherein the first pressing plate 31 and the second pressing plate 32 are respectively hinged to the fixing base 39, the first transmission plate 33 is disposed on a side of the first pressing plate 31 away from the second pressing plate 32, the first transmission plate 33 is hinged to the first pressing plate 31, the second transmission plate 34 is disposed on a side of the second pressing plate 32 away from the first pressing plate 31, the second transmission plate 34 is hinged to the second pressing plate 32, the first elastic member is disposed between the first pressing plate 31 and the first transmission plate 33, and the second elastic member is disposed between the second pressing plate 32 and the second transmission plate 34.

Particularly, as shown in fig. 2 and 3, the vacuum assembly further includes a first connecting member and a second connecting member, the upper end of the first connecting member and the upper end of the second connecting member are respectively connected to the bottom of the first sealing head 21 and the bottom of the second sealing head 22, the lower structures of the first connecting member and the second connecting member are respectively located at two sides of the pressing mechanism 3, the first transmission plate 33 is located between the first connecting member and the first pressing plate 31, and the second transmission plate 34 is located between the second connecting member and the second pressing plate 32.

Specifically, as shown in fig. 2 and 3, the first pressing plate 31 is further provided with a first concave fastener 37, the first pressing plate 31 and the first concave fastener 37 form a first slot, the first connecting member is inserted into the first slot, the second pressing plate 32 is further provided with a second concave fastener 38, the second pressing plate 32 and the second concave fastener 38 form a second slot, and the second connecting member is inserted into the second slot.

As shown in fig. 2, the first sealing head 21 and the second sealing head 22 are both provided with a heat sealing structure, so that the packaging bag can be efficiently heat sealed. The first power cylinder 23 and the second power cylinder 24 are fixed on the outer sides of the left vacuum housing 11 and the right vacuum housing 12, respectively. And a notch is arranged at the first power cylinder 23 on the fixed side plate 13, so that the first power cylinder 23 can pass through the fixed side plate 13 to be directly connected with the left vacuum shell 11.

The first fixing shaft and the second fixing shaft are of tubular structures and hollow inside, one ends of the first fixing shaft and the second fixing shaft are respectively connected with the first sealing head 21 and the second sealing head 22, and the other ends of the first fixing shaft and the second fixing shaft are respectively positioned on the outer sides of the left vacuum shell 11 and the right vacuum shell 12. The first end socket 21 and the second end socket 22 are respectively connected with an external power supply through a first electric wire and a second electric wire, when the first end socket 21 and the second end socket 22 are pressed, the first electric wire and the second electric wire supply power to the first end socket 21 and the second end socket 22, so that the first end socket 21 and the second end socket 22 are heated and subjected to heat sealing. The first wire connected with the first sealing head 21 is led out in a way that the first wire outlet end penetrates into the hollow structure in the first fixing shaft and penetrates out from one end of the first fixing shaft, which is positioned at the outer side of the left vacuum shell 11. It should be noted that, the end of the first fixing shaft located outside the left vacuum casing 11 has a sealant structure, so that on the basis of ensuring that the first electric wire can be connected with the outside, it can be ensured that gas cannot enter the assembly body through the first fixing shaft during the vacuum packaging process of the assembly body, and the assembly body can maintain good sealing performance. The outlet mode of the second wire is the same as that of the first wire, and one end of the second fixed shaft, which is positioned outside the right vacuum shell 12, is provided with a sealing glue structure.

As shown in fig. 3, the bottoms of the first and second pressing plates 31 and 32 are movably connected to the fixing base 39, the first and second pressing plates 31 and 32 are structural plates with a 7-shaped cross section, and the upper ends of the first and second pressing plates 31 and 32 can be attached to the fixing base 39 by relative rotation, so as to achieve the pressing effect. The first elastic member and the second elastic member are respectively fixed between the first transmission plate 33 and the second transmission plate 34. in the embodiment of the present invention, the first elastic member and the second elastic member are metal springs, it should be noted that the first elastic member and the second elastic member are buffer structures between the pressing plate and the transmission plate, and are not limited to metal springs, and can also be replaced by gas springs and elastic organic materials such as high-elastic rubber.

During vacuum lamination, the telescopic device 43 drives the rack 431 to move, so that the bottom of the material bearing frame 41 is closed with the rotating plate 42, particles such as material bags, tea leaves and the like are supported, the first power cylinder 23 and the second power cylinder 24 respectively drive the first sealing head 21 and the second sealing head 22 to move, and the first sealing head 21 and the second sealing head 22 enable the opening of the packaging bag to be attached. First connecting piece, the second connecting piece is in first head 21, the drive of second head 22 is down moved in opposite directions, first drive plate 33, second drive plate 34 rotates under the promotion of first connecting piece, second connecting piece lower extreme structure, and extrude first pressfitting board 31, second pressfitting board 32 through first elastic component, second elastic component respectively, make first pressfitting board 31, the laminating of second pressfitting board 32 upper end, utilize first pressfitting board 31, the granule of second pressfitting board 32 upper end in to the wrapping bag carries out the pressfitting. The upper ends of the first pressing plate 31 and the second pressing plate 32 are pressed tightly, the pressing mechanism is driven by the lifting power mechanism to move up and down, and particles in the packaging bag are further pressed tightly, so that the particles in the packaging bag are pressed into a shape, and the pressing process is completed.

After the bag sealing and pressing are completed, the first power cylinder 23 and the second power cylinder 24 respectively drive the first sealing head 21 and the second sealing head 22 to move, so that the first sealing head 21 and the second sealing head 22 are separated. The first connecting piece and the second connecting piece move in opposite directions under the driving of the first sealing head 21 and the second sealing head 22, the lower end structures of the first connecting piece and the second connecting piece respectively generate pressure on the first concave clamping piece 37 and the second concave clamping piece 38 to enable the upper ends of the first pressing plate 31 and the second pressing plate 32 to be separated, the telescopic device 43 drives the rack 431 to move to enable the bottom of the material bearing frame 41 and the rotating plate 42 to be opened, the packaging bag automatically falls down and is guided out by the guide chute 5 to achieve automatic blanking.

The embodiment of the utility model provides a form integration motion structure with pressing mechanism 3 and envelope mechanism 2 through utilizing the connecting piece, make the vacuum assembly body also carry out the pressfitting of granule when carrying out the envelope to the wrapping bag, and then shortened the packing time, improved the packing efficiency of assembly body hedge bubble granule. Furthermore, the embodiment of the utility model provides a through forming the integration motion structure with pressing mechanism and bag sealing mechanism, make first power cylinder 23, second power cylinder 24 can drive pressing mechanism 3 and bag sealing mechanism 2 motion simultaneously, and then simplified pressing mechanism 3's structure, reduced the external structure and the manufacturing cost of the vacuum assembly body, improved the applicable space of the vacuum assembly body.

It should be noted in particular that the first concave jaw 37 and the second concave jaw 38 have a smooth circular rod structure, and the first concave jaw 37 and the second concave jaw 38 are in direct contact with the first connecting piece and the second connecting piece respectively through the smooth circular rod structure. The upper ends of the first and second transmission plates 33 and 34 contacting the first and second links are smooth. The 7-shaped rod bodies of the first connecting piece and the second connecting piece, and the upper ends of the first connecting piece and the second connecting piece are respectively fixed at the bottoms of the first seal head 21 and the second seal head 22.

The embodiment of the utility model provides a through at first spill fastener 37, set up smooth round bar structure and first connecting piece on second spill fastener 38, second connecting piece direct contact, make first connecting piece, the second connecting piece is driving first spill fastener 37, second spill fastener 38 is in the state that level and smooth meets when carrying out multi-angle motion all the time, prevent first connecting piece, second connecting piece and first spill fastener 37, produce too big friction between second spill fastener 38, ensure pressing mechanism smooth operation for a long time enough. Furthermore, the embodiment of the utility model provides a set up to slick and sly structure through the upper end with first transmission board 33, second transmission board 34, make first connecting piece, the second connecting piece is when taking place the extrusion to first transmission board 33, second transmission board 34, first connecting piece, second connecting piece and first transmission board 33, no matter be in what kind of angle between the second transmission board 34, first connecting piece, second connecting piece and first transmission board 33, be the level and smooth contact state between the second transmission board 34, avoid pressing mechanism because of first connecting piece, second connecting piece and first transmission board 33, take place the card between the second transmission board 34 and die and unable normal work.

Particularly, a material placing table is further arranged between the first pressing plate 31 and the second pressing plate 32.

Wherein, the material placing table is a groove body structure with a concave section and is fixed beside the fixed table 39.

The embodiment of the utility model provides a place the platform through adopting the material that the cross-section is spill, utilize the material to place the bellied lateral wall structure of platform and restrict the granule, make the granule place the common limiting action of platform lateral wall under pressing mechanism and material, form fixed shape to ensure that the granule can form unified appearance after the pressfitting packing, reach the unification of product packaging, standardize, ensure the pleasing to the eye of packing back product.

The embodiment of the utility model provides a method for carrying out vacuum pressfitting packing to tealeaves is as follows:

the packaging bag is placed in the material placing table groove, and as shown, tea leaves enter the packaging bag through a flow guide structure formed by the first material flow guide plate 18 and the second material flow guide plate 17. The third power cylinder 14 and the fourth power cylinder 15 push the left vacuum shell 11 to slide and close the right vacuum shell 12, so that the first cavity and the second cavity are combined into a vacuum cavity. The vacuum mechanism 1 removes gas in the vacuum cavity through an external vacuum pump, so that the vacuum cavity enters a vacuum state. As shown in fig. 2, the first power cylinder 23 and the second power cylinder 24 drive the first sealing head 21 and the second sealing head 22 to be pressed together, the first pressing plate 31 and the second pressing plate 32 press the packaging bag under the driving action of the connecting member, the driving plate and the elastic member, and the lifting power mechanism drives the pressing mechanism 3 to move up and down through the driving connecting member, so that the pressing structure formed by the first pressing plate 31 and the second pressing plate 32 further presses and concentrates the tea leaves in the packaging bag. After the pressing is completed, the first sealing head 21 and the second sealing head 22 perform heat sealing and closing on the packaging bag in a heat sealing mode, and the vacuum pressing packaging of the tea leaves is completed.

The embodiment of the utility model provides a method for carrying out non-vacuum pressfitting packing to tealeaves is as follows:

the packaging bag is placed in the material placing table groove, and as shown, tea leaves enter the packaging bag through a flow guide structure formed by the first material flow guide plate 18 and the second material flow guide plate 17. As shown in fig. 2, the first power cylinder 23 and the second power cylinder 24 drive the first sealing head 21 and the second sealing head 22 to be pressed together, the first pressing plate 31 and the second pressing plate 32 press the packaging bag under the driving action of the connecting member, the driving plate and the elastic member, and the lifting power mechanism drives the pressing mechanism 3 to move up and down through the driving connecting member, so that the pressing structure formed by the first pressing plate 31 and the second pressing plate 32 further presses and concentrates the tea leaves in the packaging bag. After the pressing is completed, the first sealing head 21 and the second sealing head 22 perform heat sealing and closing on the packaging bag in a heat sealing mode, and the non-vacuum pressing packaging of the tea leaves is completed.

It should be finally noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting the same, and although the present invention is described in detail with reference to the above embodiments, it should be understood by those skilled in the art that after reading the present specification, the technical personnel can still modify or equivalently replace the specific embodiments of the present invention, but these modifications or changes do not depart from the scope of the claims of the present application.

Claims (10)

1. A vacuum assembly body with a discharging function is characterized by comprising a vacuum mechanism, a bag sealing mechanism, a pressing mechanism and a discharging mechanism, wherein the bag sealing mechanism and the pressing mechanism are arranged in the vacuum mechanism, the pressing mechanism is arranged below the bag sealing mechanism, the discharging mechanism is arranged below the pressing mechanism, the discharging mechanism comprises a material bearing frame, a rotating plate, a rack and a telescopic device, the material bearing frame, the rotating plate and the rack are arranged in the vacuum mechanism, the telescopic device is arranged outside the vacuum mechanism, the material bearing frame is a frame body with an upper opening and a lower opening, one side edge of the rotating plate is rotatably arranged below the material bearing frame, a rotating shaft is arranged between the rotating plate and the material bearing frame, one end of the side edge of the rotating plate is provided with an arc-shaped tooth, the circle center of the arc-shaped tooth is positioned on the same straight line with the rotating shaft, and the telescopic device is provided with a telescopic end, the telescopic end is connected with the rack, the rack is meshed with the arc-shaped teeth, and the relative movement between the rack and the arc-shaped teeth can drive the rotating plate to rotate along the rotating shaft.

2. An assembly as claimed in claim 1, wherein the vacuum mechanism comprises a left vacuum housing, a right vacuum housing, and a slide rod, the left vacuum housing and the right vacuum housing are connected by the slide rod, a side of the left vacuum housing facing the right vacuum housing is recessed to form a first cavity, a side of the right vacuum housing facing the left vacuum housing is recessed to form a second cavity, the first cavity and the second cavity are corresponding to each other and can form a vacuum cavity, and the bag sealing mechanism and the pressing mechanism are mounted in the first cavity and the second cavity.

3. An assembly as claimed in claim 2, wherein the vacuum assembly further comprises a lifting power mechanism and a transmission connecting member, the lifting power mechanism is disposed at the bottom of the vacuum mechanism, and the lifting power mechanism is connected to the pressing mechanism through the transmission connecting member.

4. The assembly body as claimed in claim 2 or 3, wherein the vacuum assembly body further comprises a first power cylinder and a second power cylinder, the bag sealing mechanism comprises a first seal head, a second seal head, a first wire and a second wire, the first power cylinder and the second power cylinder are respectively disposed at the left side of the left vacuum shell and the right side of the right vacuum shell, the first seal head is disposed in the first cavity and connected to the first power cylinder, the second seal head is disposed in the second cavity and connected to the second power cylinder, the first seal head corresponds to the second seal head, the vacuum assembly body further comprises a first fixing shaft and a second fixing shaft, one end of the first fixing shaft passes through the first power cylinder and is connected to the first seal head, the first seal head is connected to one end of the first wire, and the first wire penetrates from one end of the first fixing shaft located at the inner side of the vacuum mechanism, and the second wire penetrates through one end of the second fixed shaft positioned at the inner side of the vacuum mechanism and penetrates out of one end of the second fixed shaft positioned at the outer side of the vacuum mechanism.

5. The assembly of claim 4, wherein the pressing mechanism comprises a first pressing plate, a second pressing plate, a first driving plate, a second driving plate, a first elastic member, a second elastic member, and a fixing base, the first pressing plate and the second pressing plate are respectively hinged to the fixing base, the first driving plate is disposed on a side of the first pressing plate away from the second pressing plate, the first driving plate is hinged to the first pressing plate, the second driving plate is disposed on a side of the second pressing plate away from the first pressing plate, the second driving plate is hinged to the second pressing plate, the first elastic member is disposed between the first pressing plate and the first driving plate, and the second elastic member is disposed between the second pressing plate and the second driving plate.

6. The assembly body as claimed in claim 5, wherein the vacuum assembly body further comprises a first connecting member and a second connecting member, the upper end of the first connecting member and the upper end of the second connecting member are respectively connected to the bottom of the first sealing head and the bottom of the second sealing head, the lower structures of the first connecting member and the second connecting member are respectively located at two sides of the pressing mechanism, the first transmission plate is located between the first connecting member and the first pressing plate, and the second transmission plate is located between the second connecting member and the second pressing plate.

7. An assembly as recited in claim 6, wherein said first pressing plate further comprises a first concave clip, said first pressing plate and said first concave clip define a first slot, said first connecting member is inserted into said first slot, said second pressing plate further comprises a second concave clip, said second pressing plate and said second concave clip define a second slot, and said second connecting member is inserted into said second slot.

8. The assembly of claim 2, further comprising a stationary side plate, a third cylinder, and a fourth cylinder, wherein the stationary side plate is disposed on the left side of the left vacuum housing, and the third cylinder and the fourth cylinder penetrate the stationary side plate and are connected to the left vacuum housing.

9. An assembly as claimed in claim 5, wherein a material table is provided between the first and second pressing plates.

10. An assembly as claimed in claim 3, wherein the lifting mechanism is a servo motor.

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